YCMOU-AST Syllabus V61 Marine 2012 Pattern

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A S T , Y C M O U , N A S H I K – 4 2 2 2 2 2 , M S , I N D I A

2012

Syllabus V61: B.Tech. Marine Engineering (MEEP)

{2012 Pattern}

School of Architecture, Science and Technology Yashwantrao Chavan Maharashtra Open University

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CONTENTS BASIC INFORMATION ............................................................................................................................................................................................ 10 PROGRAMME CALENDAR ....................................................................................................................................................................................... 10 ELIGIBILITY AND FEES ............................................................................................................................................................................................ 11 SEMESTERS AND COURSES ..................................................................................................................................................................................... 11 EVALUATION PATTERN ........................................................................................................................................................................................... 13

Semester 01 ........................................................................................................................................................................................................... 15 T11011- Communicative English ........................................................................................................................................................................ 15

1. PROGRAMME INFORMATION ............................................................................................................................................................................. 15 2. COURSE INFORMATION ..................................................................................................................................................................................... 15 3. PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES .......................................................................................................................................... 15 4. STCW 2010 COMPETENCY .............................................................................................................................................................................. 15 5. UNITS ............................................................................................................................................................................................................. 15 6. DETAIL SYLLABUS ............................................................................................................................................................................................. 16 7. LEARNING RESOURCE DETAILS ........................................................................................................................................................................... 16

T11012- Mathematics-I ...................................................................................................................................................................................... 18 1. PROGRAMME INFORMATION ............................................................................................................................................................................. 18 2. COURSE INFORMATION ..................................................................................................................................................................................... 18 3. PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES .......................................................................................................................................... 18 4. STCW 2010 COMPETENCY .............................................................................................................................................................................. 18 5. UNITS ............................................................................................................................................................................................................. 18 6. DETAIL SYLLABUS ............................................................................................................................................................................................. 19 7. LEARNING RESOURCE DETAILS ........................................................................................................................................................................... 19

T11013- Engineering Mechanics ......................................................................................................................................................................... 21 1. PROGRAMME INFORMATION ............................................................................................................................................................................. 21 2. COURSE INFORMATION ..................................................................................................................................................................................... 21 3. PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES .......................................................................................................................................... 21 4. STCW 2010 COMPETENCY .............................................................................................................................................................................. 21 5. UNITS ............................................................................................................................................................................................................. 21 6. DETAIL SYLLABUS ............................................................................................................................................................................................. 22 7. LEARNING RESOURCE DETAILS ........................................................................................................................................................................... 23

T11014- Applied Electricity & Electrical Measurements ...................................................................................................................................... 24 1. PROGRAMME INFORMATION ............................................................................................................................................................................. 24 2. COURSE INFORMATION ..................................................................................................................................................................................... 24 3. PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES .......................................................................................................................................... 24 4. STCW 2010 COMPETENCY .............................................................................................................................................................................. 24 5. UNITS ............................................................................................................................................................................................................. 24 6. DETAIL SYLLABUS ............................................................................................................................................................................................. 25 7. LEARNING RESOURCE DETAILS ........................................................................................................................................................................... 26

T11015- Workshop Technology .......................................................................................................................................................................... 27 1. PROGRAMME INFORMATION ............................................................................................................................................................................. 27 2. COURSE INFORMATION ..................................................................................................................................................................................... 27 3. PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES .......................................................................................................................................... 27 4. STCW 2010 COMPETENCY .............................................................................................................................................................................. 27 5. UNITS ............................................................................................................................................................................................................. 27 6. DETAIL SYLLABUS ............................................................................................................................................................................................. 28 7. LEARNING RESOURCE DETAILS ........................................................................................................................................................................... 29

T11016 - Applied Thermodynamics - I ................................................................................................................................................................ 30 1. PROGRAMME INFORMATION ............................................................................................................................................................................. 30 2. COURSE INFORMATION ..................................................................................................................................................................................... 30 3. PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES .......................................................................................................................................... 30 4. STCW 2010 COMPETENCY .............................................................................................................................................................................. 30 5. UNITS ............................................................................................................................................................................................................. 30 6. DETAIL SYLLABUS ............................................................................................................................................................................................. 31 7. LEARNING RESOURCE DETAILS ........................................................................................................................................................................... 32

T11017- Applied Mechanics Lab. ........................................................................................................................................................................ 33 1. PROGRAMME INFORMATION ............................................................................................................................................................................. 33 2. COURSE INFORMATION ..................................................................................................................................................................................... 33 3. PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES .......................................................................................................................................... 33 4. STCW 2010 COMPETENCY .............................................................................................................................................................................. 33 6. LEARNING RESOURCE DETAILS ........................................................................................................................................................................... 33

T11018- Electrical Lab ........................................................................................................................................................................................ 35

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1. PROGRAMME INFORMATION ............................................................................................................................................................................. 35 2. COURSE INFORMATION ..................................................................................................................................................................................... 35 3. PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES .......................................................................................................................................... 35 4. STCW 2010 COMPETENCY .............................................................................................................................................................................. 35 6. LEARNING RESOURCE DETAILS ........................................................................................................................................................................... 36

Semester 02 ........................................................................................................................................................................................................... 37 T11021 Electronics -I .......................................................................................................................................................................................... 37


T11022- Mathematics-II ..................................................................................................................................................................................... 40 1. PROGRAMME INFORMATION ............................................................................................................................................................................. 40 2. COURSE INFORMATION ..................................................................................................................................................................................... 40 3. PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES .......................................................................................................................................... 40 4. STCW 2010 COMPETENCY .............................................................................................................................................................................. 40 5. UNITS ............................................................................................................................................................................................................. 40 6. DETAIL SYLLABUS ............................................................................................................................................................................................. 41 7. LEARNING RESOURCE DETAILS ........................................................................................................................................................................... 41

T11023-Material Science ................................................................................................................................................................................... 42 1. PROGRAMME INFORMATION ............................................................................................................................................................................. 42 2. COURSE INFORMATION ..................................................................................................................................................................................... 42 3. PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES .......................................................................................................................................... 42 4. STCW 2010 COMPETENCY .............................................................................................................................................................................. 42 5. UNITS ............................................................................................................................................................................................................. 42 6. DETAIL SYLLABUS ............................................................................................................................................................................................. 42 7. LEARNING RESOURCE DETAILS ........................................................................................................................................................................... 43

T11024- Electrical Machines -I............................................................................................................................................................................ 44 1. PROGRAMME INFORMATION ............................................................................................................................................................................. 44 2. COURSE INFORMATION ..................................................................................................................................................................................... 44 3. PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES .......................................................................................................................................... 44 4. STCW 2010 COMPETENCY .............................................................................................................................................................................. 44 5. UNITS ............................................................................................................................................................................................................. 44 6. DETAIL SYLLABUS ............................................................................................................................................................................................. 45 7. LEARNING RESOURCE DETAILS ........................................................................................................................................................................... 46

T11025- Geometric Engineering Drawing ........................................................................................................................................................... 47 1. PROGRAMME INFORMATION ............................................................................................................................................................................. 47 2. COURSE INFORMATION ..................................................................................................................................................................................... 47 3. PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES .......................................................................................................................................... 47 4. STCW 2010 COMPETENCY .............................................................................................................................................................................. 47 5. UNITS ............................................................................................................................................................................................................. 47 6. DETAIL SYLLABUS ............................................................................................................................................................................................. 48 7. LEARNING RESOURCE DETAILS ........................................................................................................................................................................... 49

T11026- Applied Thermodynamics-II .................................................................................................................................................................. 50 1. PROGRAMME INFORMATION ............................................................................................................................................................................. 50 2. COURSE INFORMATION ..................................................................................................................................................................................... 50 3. PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES .......................................................................................................................................... 50 4. STCW 2010 COMPETENCY .............................................................................................................................................................................. 50 5. UNITS ............................................................................................................................................................................................................. 50 6. DETAIL SYLLABUS ............................................................................................................................................................................................. 51 7. LEARNING RESOURCE DETAILS ........................................................................................................................................................................... 52

T11027- Electronics Lab ..................................................................................................................................................................................... 53 1. PROGRAMME INFORMATION ............................................................................................................................................................................. 53 2. COURSE INFORMATION ..................................................................................................................................................................................... 53 3. PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES .......................................................................................................................................... 53 4. STCW 2010 COMPETENCY .............................................................................................................................................................................. 53 6. LEARNING RESOURCE DETAILS ........................................................................................................................................................................... 54

T11028- HEAT Engine Lab. .................................................................................................................................................................................. 55 1. PROGRAMME INFORMATION ............................................................................................................................................................................. 55 2. COURSE INFORMATION ..................................................................................................................................................................................... 55 3. PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES .......................................................................................................................................... 55

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4. STCW 2010 COMPETENCY .............................................................................................................................................................................. 55 6. LEARNING RESOURCE DETAILS ........................................................................................................................................................................... 56

Semester 03 ........................................................................................................................................................................................................... 57 T11031- Electronics –II ....................................................................................................................................................................................... 57


T11032- Mechanics of Machines ........................................................................................................................................................................ 60 1. PROGRAMME INFORMATION ............................................................................................................................................................................. 60 2. COURSE INFORMATION ..................................................................................................................................................................................... 60 3. PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES .......................................................................................................................................... 60 4. STCW 2010 COMPETENCY .............................................................................................................................................................................. 60 5. UNITS ............................................................................................................................................................................................................. 60 6. DETAIL SYLLABUS ............................................................................................................................................................................................. 61 7. LEARNING RESOURCE DETAILS ........................................................................................................................................................................... 62

T11033- Mechanics of Materials-I ...................................................................................................................................................................... 63 1. PROGRAMME INFORMATION ............................................................................................................................................................................. 63 2. COURSE INFORMATION ..................................................................................................................................................................................... 63 3. PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES .......................................................................................................................................... 63 4. STCW 2010 COMPETENCY .............................................................................................................................................................................. 63 5. UNITS ............................................................................................................................................................................................................. 63 6. DETAIL SYLLABUS ............................................................................................................................................................................................. 63 7. LEARNING RESOURCE DETAILS ........................................................................................................................................................................... 64

T11034- Electrical Machines -II........................................................................................................................................................................... 65 1. PROGRAMME INFORMATION ............................................................................................................................................................................. 65 2. COURSE INFORMATION ..................................................................................................................................................................................... 65 3. PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES .......................................................................................................................................... 65 4. STCW 2010 COMPETENCY .............................................................................................................................................................................. 65 5. UNITS ............................................................................................................................................................................................................. 65 6. DETAIL SYLLABUS ............................................................................................................................................................................................. 66 7. LEARNING RESOURCE DETAILS ........................................................................................................................................................................... 67

T11035- Marine Machine Drawing ..................................................................................................................................................................... 68 1. PROGRAMME INFORMATION ............................................................................................................................................................................. 68 2. COURSE INFORMATION ..................................................................................................................................................................................... 68 3. PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES .......................................................................................................................................... 68 4. STCW 2010 COMPETENCY .............................................................................................................................................................................. 68 5. UNITS ............................................................................................................................................................................................................. 68 6. DETAIL SYLLABUS ............................................................................................................................................................................................. 68 7. LEARNING RESOURCE DETAILS ........................................................................................................................................................................... 69

T11036- Ship Construction ................................................................................................................................................................................. 70 1. PROGRAMME INFORMATION ............................................................................................................................................................................. 70 2. COURSE INFORMATION ..................................................................................................................................................................................... 70 3. PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES .......................................................................................................................................... 70 4. STCW 2010 COMPETENCY .............................................................................................................................................................................. 70 5. UNITS ............................................................................................................................................................................................................. 70 6. DETAIL SYLLABUS ............................................................................................................................................................................................. 71 7. LEARNING RESOURCE DETAILS ........................................................................................................................................................................... 72

T11037- Material Science Lab ............................................................................................................................................................................ 73 1. PROGRAMME INFORMATION ............................................................................................................................................................................. 73 2. COURSE INFORMATION ..................................................................................................................................................................................... 73 3. PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES .......................................................................................................................................... 73 4. STCW 2010 COMPETENCY .............................................................................................................................................................................. 73 6. LEARNING RESOURCE DETAILS ........................................................................................................................................................................... 74

T11038- Electrical Machines Lab ........................................................................................................................................................................ 75 1. PROGRAMME INFORMATION ............................................................................................................................................................................. 75 2. COURSE INFORMATION ..................................................................................................................................................................................... 75 3. PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES .......................................................................................................................................... 75 4. STCW 2010 COMPETENCY .............................................................................................................................................................................. 75 6. LEARNING RESOURCE DETAILS ........................................................................................................................................................................... 76

Semester 04 ........................................................................................................................................................................................................... 77

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T11041- Mechanics of Fluid ............................................................................................................................................................................... 77 1. PROGRAMME INFORMATION ............................................................................................................................................................................. 77 2. COURSE INFORMATION ..................................................................................................................................................................................... 77 3. PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES .......................................................................................................................................... 77 4. STCW 2010 COMPETENCY .............................................................................................................................................................................. 77 5. UNITS ............................................................................................................................................................................................................. 77 6. DETAIL SYLLABUS ............................................................................................................................................................................................. 78 7. LEARNING RESOURCE DETAILS ........................................................................................................................................................................... 79

T11042- Marine Auxillary Machinery -I .............................................................................................................................................................. 80 1. PROGRAMME INFORMATION ............................................................................................................................................................................. 80 2. COURSE INFORMATION ..................................................................................................................................................................................... 80 3. PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES .......................................................................................................................................... 80 4. STCW 2010 COMPETENCY .............................................................................................................................................................................. 80 5. UNITS ............................................................................................................................................................................................................. 80 6. DETAIL SYLLABUS ............................................................................................................................................................................................. 81 7. LEARNING RESOURCE DETAILS ........................................................................................................................................................................... 81

T11043- Mechanics of Materials-II ..................................................................................................................................................................... 83 1. PROGRAMME INFORMATION ............................................................................................................................................................................. 83 2. COURSE INFORMATION ..................................................................................................................................................................................... 83 3. PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES .......................................................................................................................................... 83 4. STCW 2010 COMPETENCY .............................................................................................................................................................................. 83 5. UNITS ............................................................................................................................................................................................................. 83 6. DETAIL SYLLABUS ............................................................................................................................................................................................. 84 7. LEARNING RESOURCE DETAILS ........................................................................................................................................................................... 84

T11044- Marine IC Engines – I ............................................................................................................................................................................ 85 1. PROGRAMME INFORMATION ............................................................................................................................................................................. 85 2. COURSE INFORMATION ..................................................................................................................................................................................... 85 3. PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES .......................................................................................................................................... 85 4. STCW 2010 COMPETENCY .............................................................................................................................................................................. 85 5. UNITS ............................................................................................................................................................................................................. 85 6. DETAIL SYLLABUS ............................................................................................................................................................................................. 86 7. LEARNING RESOURCE DETAILS ........................................................................................................................................................................... 86

T11045 - Elementary Design .............................................................................................................................................................................. 88 1. PROGRAMME INFORMATION ............................................................................................................................................................................. 88 2. COURSE INFORMATION ..................................................................................................................................................................................... 88 3. PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES .......................................................................................................................................... 88 4. STCW 2010 COMPETENCY .............................................................................................................................................................................. 88 5. UNITS ............................................................................................................................................................................................................. 88 6. DETAIL SYLLABUS ............................................................................................................................................................................................. 89 7. LEARNING RESOURCE DETAILS ........................................................................................................................................................................... 89

T11046- Naval Architecture & Ship Stability ....................................................................................................................................................... 90 1. PROGRAMME INFORMATION ............................................................................................................................................................................. 90 2. COURSE INFORMATION ..................................................................................................................................................................................... 90 3. PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES .......................................................................................................................................... 90 4. STCW 2010 COMPETENCY .............................................................................................................................................................................. 90 5. UNITS ............................................................................................................................................................................................................. 90 6. DETAIL SYLLABUS ............................................................................................................................................................................................. 91 7. LEARNING RESOURCE DETAILS ........................................................................................................................................................................... 91

T11047- Mechanical Lab .................................................................................................................................................................................... 93 1. PROGRAMME INFORMATION ............................................................................................................................................................................. 93 2. COURSE INFORMATION ..................................................................................................................................................................................... 93 3. PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES .......................................................................................................................................... 93 4. STCW 2010 COMPETENCY .............................................................................................................................................................................. 93 6. LEARNING RESOURCE DETAILS ........................................................................................................................................................................... 94

T11048- Workshop Practical – I .......................................................................................................................................................................... 95 1. PROGRAMME INFORMATION ............................................................................................................................................................................. 95 2. COURSE INFORMATION ..................................................................................................................................................................................... 95 3. PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES .......................................................................................................................................... 95 4. STCW 2010 COMPETENCY .............................................................................................................................................................................. 95 6. LEARNING RESOURCE DETAILS ........................................................................................................................................................................... 96

Semester 05 ........................................................................................................................................................................................................... 97 T11051- Fluid Machines ..................................................................................................................................................................................... 97

1. PROGRAMME INFORMATION ............................................................................................................................................................................. 97 2. COURSE INFORMATION ..................................................................................................................................................................................... 97

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3. PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES .......................................................................................................................................... 97 4. STCW 2010 COMPETENCY .............................................................................................................................................................................. 97 5. UNITS ............................................................................................................................................................................................................. 97 6. DETAIL SYLLABUS ............................................................................................................................................................................................. 98 7. LEARNING RESOURCE DETAILS ........................................................................................................................................................................... 98

T11052- Marine Auxiliary Machinery - II ............................................................................................................................................................ 99 1. PROGRAMME INFORMATION ............................................................................................................................................................................. 99 2. COURSE INFORMATION ..................................................................................................................................................................................... 99 3. PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES .......................................................................................................................................... 99 4. STCW 2010 COMPETENCY .............................................................................................................................................................................. 99 6. DETAIL SYLLABUS ........................................................................................................................................................................................... 100 7. LEARNING RESOURCE DETAILS ......................................................................................................................................................................... 100

T11053- Marine Boiler & Steam Engineering .................................................................................................................................................... 102 1. PROGRAMME INFORMATION ........................................................................................................................................................................... 102 2. COURSE INFORMATION ................................................................................................................................................................................... 102 3. PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES ........................................................................................................................................ 102 4. STCW 2010 COMPETENCY ............................................................................................................................................................................ 102 5. UNITS ........................................................................................................................................................................................................... 102 6. DETAIL SYLLABUS ........................................................................................................................................................................................... 103 7. LEARNING RESOURCE DETAILS ......................................................................................................................................................................... 104

T11054- Marine IC Engines – II ......................................................................................................................................................................... 105 1. PROGRAMME INFORMATION ........................................................................................................................................................................... 105 2. COURSE INFORMATION ................................................................................................................................................................................... 105 3. PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES ........................................................................................................................................ 105 4. STCW 2010 COMPETENCY ............................................................................................................................................................................ 105 6. DETAIL SYLLABUS ........................................................................................................................................................................................... 106 7. LEARNING RESOURCE DETAILS ......................................................................................................................................................................... 107

T11055- Marine Machines & System Design (MMSD) ....................................................................................................................................... 108 1. PROGRAMME INFORMATION ........................................................................................................................................................................... 108 2. COURSE INFORMATION ................................................................................................................................................................................... 108 3. PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES ........................................................................................................................................ 108 4. STCW 2010 COMPETENCY ............................................................................................................................................................................ 108 5. UNITS ........................................................................................................................................................................................................... 108 6. DETAIL SYLLABUS ........................................................................................................................................................................................... 109 7. LEARNING RESOURCE DETAILS ......................................................................................................................................................................... 110

T11056- Marine Electrical Technology - I .......................................................................................................................................................... 111 1. PROGRAMME INFORMATION ........................................................................................................................................................................... 111 2. COURSE INFORMATION ................................................................................................................................................................................... 111 3. PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES ........................................................................................................................................ 111 4. STCW 2010 COMPETENCY ............................................................................................................................................................................ 111 5. UNITS ........................................................................................................................................................................................................... 111 6. DETAIL SYLLABUS ........................................................................................................................................................................................... 112 7. LEARNING RESOURCE DETAILS ......................................................................................................................................................................... 112

T11057 - Computer Science Lab ....................................................................................................................................................................... 114 1. PROGRAMME INFORMATION ........................................................................................................................................................................... 114 2. COURSE INFORMATION ................................................................................................................................................................................... 114

Computer Science Lab. .................................................................................................................................................................................... 114 3. PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES ........................................................................................................................................ 114 4. STCW 2010 COMPETENCY ............................................................................................................................................................................ 114 6. LEARNING RESOURCE DETAILS ......................................................................................................................................................................... 115

T11058- Workshop Practical- II ........................................................................................................................................................................ 116 1. PROGRAMME INFORMATION ........................................................................................................................................................................... 116 2. COURSE INFORMATION ................................................................................................................................................................................... 116

Workshop Practical- II. ..................................................................................................................................................................................... 116 3. PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES ........................................................................................................................................ 116 4. STCW 2010 COMPETENCY ............................................................................................................................................................................ 116 6. LEARNING RESOURCE DETAILS ......................................................................................................................................................................... 117

Semester 06 ......................................................................................................................................................................................................... 118 T11061- Ship Fire Prevention ........................................................................................................................................................................... 118

1. PROGRAMME INFORMATION ........................................................................................................................................................................... 118 2. COURSE INFORMATION ................................................................................................................................................................................... 118 3. PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES ........................................................................................................................................ 118 4. STCW 2010 COMPETENCY ............................................................................................................................................................................ 118 5. Units ............................................................................................................................................................................................................ 118

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6. DETAIL SYLLABUS ........................................................................................................................................................................................... 119 7. LEARNING RESOURCE DETAILS ......................................................................................................................................................................... 119

T11062- Marine Auxiliary Machinery- III .......................................................................................................................................................... 120 1. PROGRAMME INFORMATION ........................................................................................................................................................................... 120 2. COURSE INFORMATION ................................................................................................................................................................................... 120 3. PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES ........................................................................................................................................ 120 4. STCW 2010 COMPETENCY ............................................................................................................................................................................ 120 5. UNITS ........................................................................................................................................................................................................... 120 6. DETAIL SYLLABUS ........................................................................................................................................................................................... 121 7. LEARNING RESOURCE DETAILS ......................................................................................................................................................................... 121

T11063- Marine Ship Repair, Maintenance of ER Machineries & Dry Docking ................................................................................................... 123 1. PROGRAMME INFORMATION ........................................................................................................................................................................... 123 2. COURSE INFORMATION ................................................................................................................................................................................... 123 3. PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES ........................................................................................................................................ 123 4. STCW 2010 COMPETENCY ............................................................................................................................................................................ 123 5. UNITS ........................................................................................................................................................................................................... 123 6. DETAIL SYLLABUS ........................................................................................................................................................................................... 124 7. LEARNING RESOURCE DETAILS ......................................................................................................................................................................... 125

T11064- Seamanship, Commercial Geography & ISPS ....................................................................................................................................... 126 1. PROGRAMME INFORMATION ........................................................................................................................................................................... 126 2. COURSE INFORMATION ................................................................................................................................................................................... 126 3. PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES ........................................................................................................................................ 126 4. STCW 2010 COMPETENCY ............................................................................................................................................................................ 126 5. Units ............................................................................................................................................................................................................ 126 6. DETAIL SYLLABUS ........................................................................................................................................................................................... 127 7. LEARNING RESOURCE DETAILS ......................................................................................................................................................................... 127

T11065- Marine Control Engineering & Automation ....................................................................................................................................... 129 1. PROGRAMME INFORMATION ........................................................................................................................................................................... 129 2. COURSE INFORMATION ................................................................................................................................................................................... 129 3. PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES ........................................................................................................................................ 129 4. STCW 2010 COMPETENCY ............................................................................................................................................................................ 129 5. Units ............................................................................................................................................................................................................ 129 6. DETAIL SYLLABUS ........................................................................................................................................................................................... 130 7. LEARNING RESOURCE DETAILS ......................................................................................................................................................................... 131

T11066- Marine Electrical Technology -II .......................................................................................................................................................... 132 1. PROGRAMME INFORMATION ........................................................................................................................................................................... 132 2. COURSE INFORMATION ................................................................................................................................................................................... 132 3. PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES ........................................................................................................................................ 132 4. STCW 2010 COMPETENCY ............................................................................................................................................................................ 132 5. UNITS ........................................................................................................................................................................................................... 132 6. DETAIL SYLLABUS ........................................................................................................................................................................................... 133 7. LEARNING RESOURCE DETAILS ......................................................................................................................................................................... 134

T11067- Boiler Chemical Lab. .......................................................................................................................................................................... 135 1. PROGRAMME INFORMATION ........................................................................................................................................................................... 135 2. COURSE INFORMATION ................................................................................................................................................................................... 135 3. PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES ........................................................................................................................................ 135 4. STCW 2010 COMPETENCY ............................................................................................................................................................................ 135 6. LEARNING RESOURCE DETAILS ......................................................................................................................................................................... 135

T11068 - Marine Control & Engineering Lab. .................................................................................................................................................... 137 1. PROGRAMME INFORMATION ........................................................................................................................................................................... 137 2. COURSE INFORMATION ................................................................................................................................................................................... 137 3. PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES ........................................................................................................................................ 137 4. STCW 2010 COMPETENCY ............................................................................................................................................................................ 137 6. LEARNING RESOURCE DETAILS ......................................................................................................................................................................... 138

Semester 07 ......................................................................................................................................................................................................... 139 T11071- STCW & Class IV Preparation - I ........................................................................................................................................................... 139

1. PROGRAMME INFORMATION ........................................................................................................................................................................... 139 2. COURSE INFORMATION ................................................................................................................................................................................... 139 3. PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES ........................................................................................................................................ 139 4. STCW 2010 COMPETENCY ............................................................................................................................................................................ 139 5. UNITS ........................................................................................................................................................................................................... 139 6. DETAIL SYLLABUS ........................................................................................................................................................................................... 140 7. LEARNING RESOURCE DETAILS ......................................................................................................................................................................... 140

T11072- Tanker Operations .............................................................................................................................................................................. 142

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1. PROGRAMME INFORMATION ........................................................................................................................................................................... 142 2. COURSE INFORMATION ................................................................................................................................................................................... 142 3. PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES ........................................................................................................................................ 142 4. UNITS ........................................................................................................................................................................................................... 142 5. DETAIL SYLLABUS ........................................................................................................................................................................................... 142 6. LEARNING RESOURCE DETAILS ......................................................................................................................................................................... 143

T11073- Ship-in-Campus - 1 ............................................................................................................................................................................. 144 1. PROGRAMME INFORMATION ........................................................................................................................................................................... 144 2. COURSE INFORMATION ................................................................................................................................................................................... 144 3. PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES ........................................................................................................................................ 144 4. STCW 2010 COMPETENCY ............................................................................................................................................................................ 144 5. Practical Activities ....................................................................................................................................................................................... 145 6. LEARNING RESOURCE DETAILS ......................................................................................................................................................................... 146

T11074- Ship-in-Campus - 2 ............................................................................................................................................................................. 147 1. PROGRAMME INFORMATION ........................................................................................................................................................................... 147 2. COURSE INFORMATION ................................................................................................................................................................................... 147 3. PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES ........................................................................................................................................ 147 4. STCW 2010 COMPETENCY ............................................................................................................................................................................ 147 6. LEARNING RESOURCE DETAILS ......................................................................................................................................................................... 149



T11077 - Fire Control Lab ................................................................................................................................................................................. 156 1. PROGRAMME INFORMATION ........................................................................................................................................................................... 156 2. COURSE INFORMATION ................................................................................................................................................................................... 156 3. PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES ........................................................................................................................................ 156 4. STCW 2010 COMPETENCY ............................................................................................................................................................................ 156 5. Practical Activities ....................................................................................................................................................................................... 156 6. LEARNING RESOURCE DETAILS ......................................................................................................................................................................... 157

T11078- Technical Paper and Project - I ............................................................................................................................................................ 158 1. PROGRAMME INFORMATION ........................................................................................................................................................................... 158 2. COURSE INFORMATION ................................................................................................................................................................................... 158 3. PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES ........................................................................................................................................ 158 4. ACTIVITIES .................................................................................................................................................................................................... 158 5. Detail Activities ........................................................................................................................................................................................... 158 6. LEARNING RESOURCE DETAILS ......................................................................................................................................................................... 159

Semester 08 ......................................................................................................................................................................................................... 160 T11081- STCW & Class IV Preparation - II .......................................................................................................................................................... 160

1. PROGRAMME INFORMATION ........................................................................................................................................................................... 160 2. COURSE INFORMATION ................................................................................................................................................................................... 160 3. PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES ........................................................................................................................................ 160 4. STCW 2010 COMPETENCY ............................................................................................................................................................................ 160 5. Units ............................................................................................................................................................................................................ 160 6. DETAIL SYLLABUS ........................................................................................................................................................................................... 161 7. LEARNING RESOURCE DETAILS ......................................................................................................................................................................... 161

T11082- Engine Room Resource Management and Leadership Skills ................................................................................................................. 162 1. PROGRAMME INFORMATION ........................................................................................................................................................................... 162 2. COURSE INFORMATION ................................................................................................................................................................................... 162 3. PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES ........................................................................................................................................ 162 4. STCW 2010 COMPETENCY ............................................................................................................................................................................ 162 5. Units ............................................................................................................................................................................................................ 163 6. DETAIL SYLLABUS ........................................................................................................................................................................................... 163 7. LEARNING RESOURCE DETAILS ......................................................................................................................................................................... 164

T11083 - Ship-in-Campus - 5 ............................................................................................................................................................................ 165 1. PROGRAMME INFORMATION ........................................................................................................................................................................... 165

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2. COURSE INFORMATION ................................................................................................................................................................................... 165 3. PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES ........................................................................................................................................ 165 4. STCW 2010 COMPETENCY ............................................................................................................................................................................ 165 6. LEARNING RESOURCE DETAILS ......................................................................................................................................................................... 166




T11087- Power Plant Operation ....................................................................................................................................................................... 176 1. PROGRAMME INFORMATION ........................................................................................................................................................................... 176 2. COURSE INFORMATION ................................................................................................................................................................................... 176 3. PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES ........................................................................................................................................ 176 4. STCW 2010 COMPETENCY ............................................................................................................................................................................ 176 6. LEARNING RESOURCE DETAILS ......................................................................................................................................................................... 177

T11088 – Technical Paper and Project - II.......................................................................................................................................................... 178 1. PROGRAMME INFORMATION ........................................................................................................................................................................... 178 2. COURSE INFORMATION ................................................................................................................................................................................... 178 3. PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES ........................................................................................................................................ 178 5. SYLLABUS ...................................................................................................................................................................................................... 179 6. SPECIMEN OF PAGES ....................................................................................................................................................................................... 179 7. LEARNING RESOURCE DETAILS ......................................................................................................................................................................... 180

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BASIC INFORMATION 1. Mode of Education: Full time residential face-to-face mode of education enhanced with ELearning support.

2. Minimum Programme Duration: 4 years after HSC (12th) or Equivalent

3. Required Study Efforts: 840 Hours in each semester

4. Medium of Instruction: English

5. Attendance: Minimum 80% attendance for all courses.

6. Equivalence Status:

a. UGC recognized and approved

b. DEC recognized and approved

c. Recognized by Government of Maharashtra for MPSC jobs

d. Study centers approved by Directorate General of Shipping

PROGRAMME CALENDAR SN Activity Description Odd semesters like

01, 03, 05, 07, 09, 11, 13

01 Aug - 31 Jan

Even semesters like 02, 04, 06, 08, 10, 12, 14

01 Feb – 31 Jul

Direct Admission, Course Exemption, Credit Transfer (DACECT)

DACECT Form: In Prospectus and on website {Must apply 10 days before first fresh admission}

DACECT Decision: must be attached along with the admission form for first fresh admission.

01 DACECT Form Submission at University 05 Jun – 25 Jul Not Offered

02 DACECT Approval by University Within 5 working days from the day of receipt

Not Offered

Annual Admission*: University Fee (including EF for the first compulsory attempt) must be paid along with the admission form, at a time for 2 semesters (an odd and even semester) in an academic year.

03 Annual Further Admission 05 Jun – 05 Jul 05 Jun – 05 Jul

04 Annual Fresh Admission 05 Jun – 05 Aug 05 Jun – 05 Aug

Teaching – Learning (Face-To-Face counseling at each study center and Self-Study)

05 Teaching - Learning 01 Aug – 13 Nov 01 Feb – 16 May

06 Teaching–Learning Backlog Clearing or Preparation Leave 14 Nov – 04 Dec 17 May – 04 Jun

Exam Form (EF) Submission Not required for the first compulsory attempt. Required only for repeater students for backlog courses and performance improvement.

EF available on Website for only repeater students.

07 EE Form Submission by students at SC On or Before 30-Sep On or Before 31-Mar

08 EE Form Submission by SCs at University On or Before 05-Oct On or Before 05-Apr

Continuous Assessment (CA) Submission: Maximum single attempt. Zero marks given for ‘no attempt’ or ‘non-receipt of Final “Assessment Report” of CA at University before specified date’.

09 CA Availability at each study center 01 Aug – 30 Nov 01 Feb – 30 May

10 CA Submission by Students at SC 01 - 30 Nov 01 - 30 May

11 Provisional CA Report by SCs (On SCs Notice Board) On or before 31-Dec On or before 30-Jun

12 Final CA Report Submission by SCs at University On or before 31-Jan On or before 31-Jul

End Examination (EE)*: Maximum 5 attempts during consecutive 5 semesters. Permanent drop out from the programme, if successful completion not possible, within these maximum 5 attempts.

13 EE for Theory Courses 05 Dec – 14 Dec 05 Jun – 14 Jun

14 EE for Practical, STW, SV or PW Courses Immediately after the last day of end exam for theory courses, but

positively before 05-Jan

Immediately after the last day of end exam for theory courses,

but positively before 05-Jul


15 End Exam Result Declaration On or before 20 Feb On or before 20 Aug

Semester End Vacation

16 Semester End Vacation 08 Jan – 31 Jan 08 Jul – 31 Jul

ELIGIBILITY AND FEES

Admission Eligibility Certification Eligibility Fees and Deposit / Semester

HSC (10+2) or equivalent pass with minimum 60% in PCM group and Min.

50% marks in English at 10th

or 12th

and non-zero valid score in any examination like CET, AIEEE, JEE or YET and Medical

Test

For Admission to

Successful completion of all

courses at following semester is

essential

Third Year (Sem 05 and 06)

Sem 01

Fourth Year (Sem 07 and 08)

Sems 01, 02 and 03

Min 50% or better marks in total 64 courses (subjects)

of total 224 credit points at Semesters 01-08.

Aggregate performance and Class in the programme shall be reported on

the basis of only semesters 07-08.

Desc Amount

UF 9,600

SCF 22,400

Total 32,000

AAFA 19,200

SEMESTERS AND COURSES SN Code Name CA EE TM Type CPs

Semester 01: 28 CPs

01 T11011 Communicative English 20 80 100 T 4

02 T11012 Mathematics-I 20 80 100 T 4

03 T11013 Engineering Mechanics 20 80 100 T 4

04 T11014 Applied Electricity & Electrical Measurement 20 80 100 T 4

05 T11015 Workshop Technology 20 80 100 T 4

06 T11016 Applied Thermodynamics-I 20 80 100 T 4

07 T11017 Applied Mechanical Lab 10 40 50 P 2

08 T11018 Electrical Lab 10 40 50 P 2

Semester 02: 28 CPs

09 T11021 Electronics-I 20 80 100 T 4

10 T11022 Mathematics-II 20 80 100 T 4

11 T11023 Material Science 20 80 100 T 4

12 T11024 Electrical Machine-I 20 80 100 T 4

13 T11025 Geometrical Engineering Drawing 20 80 100 T 4

14 T11026 Applied Thermodynamics-II 20 80 100 T 4

15 T11027 Electronics Lab 10 40 50 P 2

16 T11028 Heat Lab 10 40 50 P 2

Semester 03: 28 CPs

17 T11031 Electronics-II 20 80 100 T 4

18 T11032 Mechanics of Machines-I 20 80 100 T 4

19 T11033 Mechanics of Material-I 20 80 100 T 4

20 T11034 Electrical of Machine-II 20 80 100 T 4

21 T11035 Marine Machine Drawing 20 80 100 T 4

22 T11036 Ship Construction 20 80 100 T 4

23 T11037 Material Science Lab 10 40 50 P 2


SN Code Name CA EE TM Type CPs

24 T11038 Electrical Machine Lab 10 40 50 P 2

Semester 04: 28 CPs

25 T11041 Mechanics of Fluids 20 80 100 T 4

26 T11042 Marine Auxiliary Machinery-I 20 80 100 T 4

27 T11043 Mechanics of Material-II 20 80 100 T 4

28 T11044 Marine IC Engines-I 20 80 100 T 4

29 T11045 Elementary Design 20 80 100 T 4

30 T11046 Naval Architecture & Ship Stability 20 80 100 T 4

31 T11047 Mechanical Lab 10 40 50 P 2

32 T11048 Workshop practical-I 10 40 50 P 2

Semester 05: 28 CPs

33 T11051 Fluid Machines 20 80 100 T 4

34 T11052 Marine Auxiliary Machinery-II 20 80 100 T 4

35 T11053 Marine Boiler & Steam Engineering 20 80 100 T 4

36 T11054 Marine IC Engine-II 20 80 100 T 4

37 T11055 Marine Machine and System Design 20 80 100 T 4

38 T11056 Marine Electrical Technology-I 20 80 100 T 4

39 T11057 Computer Lab 10 40 50 P 2

40 T11058 Workshop practical-II 10 40 50 P 2

Semester 06: 28 CPs

41 T11061 Ship Fire Prevention 20 80 100 T 4

42 T11062 Marine Auxiliary Machine-III 20 80 100 T 4

43 T11063 Ship Machinery Maintenance & Dry Docking 20 80 100 T 4

44 T11064 Seamanship, Commercial Geography & ISPS 20 80 100 T 4

45 T11065 Marine Control Engineering & Automation 20 80 100 T 4

46 T11066 Marine Electrical Technology-II 20 80 100 T 4

47 T11067 Boiler Chemical Lab 10 40 50 P 2

48 T11068 Control Engineering Lab 10 40 50 P 2

Semester 07: 28 CPs

49 T11071 STCW & Class IV Preparation-I 20 80 100 T 4

50 T11072 Tanker Operation 20 80 100 T 4

51 T11073 Ship-in-campus - 1 20 80 100 TW 4




55 T11077 Fire Control Lab 10 40 50 P 2

56 T11078 Technical Paper and Project-I 10 40 50 PW 2

Semester 08: 28 CPs

57 T11081 STCW & Class-IV Preparation-II 20 80 100 T 4

58 T11082 ER Resource Management & Leadership Skills 20 80 100 T 4


60 T11084 Ship-in-campus – 6 20 80 100 TW 4

61 T11085 Ship-in-campus – 7 20 80 100 TW 4


63 T11087 Power Plant Operation 10 40 50 P 2

64 T11088 Technical Paper and Project-II 10 40 50 PW 2


EVALUATION PATTERN SN Type of Course Continuous Assessment (CA) End Examination (EE)

1 Theory (T) of 4 C.P.

1. Student is required to answer 1 of 1 SAQ, each of 5 marks, on each CP

2. Single attempt only

3. Marks: 20 Marks

4. Duration: Specified 1 Month

5. CAT: Continuous Assessment Time is 4 hrs

1. Student is required to answer 1 of 1 SAQ, each of 5 marks, on each CP

2. Student is required to answer 1 of 2 LAQs, each of 15 marks, on each CP

3. Maximum 5 Attempts only

4. Marks: 80 Marks

5. Duration: 180 minutes

SN Description Evaluation of End Examination Marks

1 Question Type 1 Short Answer Question (SAQ) /CP, and 1 out of 2 Long Answer Question (LAQ)/CP,

5 Marks /CP, 15 Marks/CP

2 Total

Section A : CP 1 - 1 SAQs and 1 out of 2 LAQs and CP 2 - 1 SAQs and 1 out of 2 LAQs Section B : CP 3 - 1 SAQs and 1 out of 2 LAQs and CP 4 - 1 SAQs and 1 out of 2 LAQs

80 Marks

2 Practical of 2 C.P.

1. Student is required to submit “Activity Report in Work-Book Format” for each CP in the prescribed format.

2. Single Attempt only

3. Marks: 10 Marks



1. External and internal examiners shall assess each student based on:

a. Actual Conduct of 1 randomly selected practical activity [10 Marks]

b. Viva-Voice [10 Marks]

c. Workbook (Journal) [10 Marks]

d. Report of Practical Activity [10 Marks]


3. Marks: 40 Marks


SN Evaluation of Practical End Examination

Description Internal Examiner External Examiner Total Marks

Duration of End Exam: 240 minutes (4 hrs) Batch size: ≈15 students

1 Actual Conduct of 1 randomly selected practical activity

4 Marks 6 Marks 10

2 Viva-Voice 3 Marks 7 Marks 10

3 Workbook (Journal) 4 Marks 6 Marks 10

4

Report of Practical Activity with Diagram, synoptic Answers, Graph/Observation and Conclusion

4 Marks 6 Marks

10

Total 15 Marks 25 marks 40 Marks

3 Term Work (TW)

of 4 C.P.

1. Student is required to submit “Activity Report in Work-Book Format” for each CP in the prescribed format.


3. Marks: 20 Marks




a. Term-Work submission by the student [40 Marks]

b. Continuous Assessment Submission (Only by External Examiner) [20 Marks]

c. Viva-voce [20 Marks]


3. Marks: 80 Marks



SN Type of Course Continuous Assessment (CA) End Examination (EE)

SN Evaluation of Term Work End Examination



1 Term-Work submission by the student

20 20 40

2 Continuous Assessment Submission by the student

- 20 20

3 Viva-voce 10 10 20


4 Project Work (PW)

of 2 C.P.

1. Student is required to submit “Activity Report in Project Report Format” for each CP in the prescribed format.


3. Marks: 10 Marks




2. Project Proposal and Review of Literature (Only by External Examiner) [10 Marks]

3. Project Result and Report [20 Marks]

4. Project Presentation by the student [06 Marks]

5. Viva on Project Report [04 Marks]


7. Marks: 40 Marks


SN Evaluation of Project Work End Examination



1 Project Proposal and Review of Literature

- 10 Marks 10

2 Project Result and Report 10 Marks 10 Marks 20

3 Presentation 3 Marks 3 Marks 06

4 Viva-Voice 2 Marks 2 Marks 04


Actual CA and EE marks shall be used in computation of “Total Marks (TM)”. “Grace Factor” and “Total Marks (TM)” shall be used in computation of Percentage of marks. Only percentage of marks shall be reported for each course in the mark-statement. For successful completion, minimum 50% marks shall be essential for each course. Only best of the past performance shall be reported.


Semester 01 T11011- Communicative English

1. PROGRAMME INFORMATION

SN Description Details

1 University Yashwantrao Chavan Maharashtra Open University Nashik - 422 222, Maharashtra, India Website: http://www.ycmou.com/

2 School School of Architecture, Science and Technology

3 Discipline Technology

4 Level UG

5 Course Used in V61: B.Tech. (Marine Engineering)

2. COURSE INFORMATION Sem PC CC Course Name CP CST ST Marks Type

01 V61 T11011 Communicative English 4 51 120 100 TH

Teaching-Learning Support Details: Students enjoy better quality of effective learning with much greater flexibility, due to anytime anywhere learning with repetition possibility!

1. ‘3 online SCORM lectures’ followed by ‘1 face-to-face lecture at allotted SC’, for 15 weeks in a semester.

2. Only when online SCORM lectures are not specified, then ‘4 face-to-face lectures at allotted SC’, for 15 weeks in a semester.

3. Each lecture shall be of 45 minutes duration.

Evaluation Pattern: Total evaluation of 100 Marks consist of

Continuous Assessment (CA): 20 Marks

End Examination (EE): 80 Marks

1. PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES Presumed Knowledge Learning Objectives

For successful completion of this course, student should have successfully completed:

Having passed 10+2 or HSC or ISC

with English as compulsory subject

either at secondary or higher

secondary level

After successful completion of this course, student will be able to enhance linguistic abilities in 1. listening, 2. reading & writing , English language 3. speaking

2. STCW 2010 COMPETENCY Competency Description

2.1 Adequate knowledge of the English language to enable the officer to use Engineering publications and to perform Engineering

duties

2.1.1 Oral Communication

2.1.2 Written Communication and Grammar

2.1.3 Comprehension and speech

3. UNITS

UN Name of Unit CST Questions

1 Communication CP 01 CSs

12 Hrs

Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ and '1 of 2' LAQs in

end exam on these units. 2. Oral Communication

3 Written Communication CP 02 CSs

13 Hrs


end exam on these units. 4 Reading & Listening comprehension


5

Remedial Grammar CP 03 CSs

13 Hrs


end exam on these units.

6 Grammar – I CP 04 CSs

13 Hrs


end exam on these units. 7 Grammar - II

6. DETAIL SYLLABUS UN Detail Syllabus of the Unit CP Block

01 Communication: Communication and its importance. CP 01 02 Oral communication: use of English in situation with elementary phonetic drill,

Group Discussion, Communication skills.

T2-Part 5- Chapter 26.

03 Written communication: Comprehension, letter writing, précis, and reporting. CP 02

04 Reading and listening: Selected tests to develop skill in comprehension and speech, Conversations/Dialogs, Marine vocabulary. T1.-Book 4-Chapters 36-38.

05 Remedial Grammar: The Article, Parts of speech, Linking words, Negative sentences, Questions, Verbs

Transitive/Intransitive, Regular/Irregular, Tense & their uses, Helping verbs, Verbs and adverbs Question Tags,

Transformation Nouns Singular & Plural. The Possessive Adjective or the Definite/Articles with Nouns denoting parts of

the body, confusion of Adjective & Adverbs, Adverbial use of No., Not & None.

T1-Book-1- Chapters-4 to 7,9,14,15,20,25,26,34,35,36.

CP 03

06 Difficulties in the comparative & superlative, Confusion of Participles: Active and Passive Voice. The use of Prop word

‘one’ Prepositions, Negative verbs, The use of correlatives.

CP 04

07 Grammar - II : Use of who and whom, much and many still & yet, so that, so as, may be and do.

T1-Chapters 10,22,29,32,38,39

Topics not included-

T1-Book-1- Chapter1,2,3,8,11-13,16-19,21,23,24,27,28,30,31,33,37,40-43.

Book-2 -Part 1, 2, 3, Part 4-Chapters 33-35,39-44.

T2-Parts 1-4; Part 5 –Chapters 22 to 25;Parts 6&7.

7. LEARNING RESOURCE DETAILS LR Code

Title Author

Edition Year

ISBN Publisher

01. Online AV Synchronized SCORM Lectures along with Self-Test with each lecture: Core learning resource for end Exam!

T11011 – OL1 Details will be updated as and when available from the publishers

02. Text-Books: Core learning resource for end Exam!

T11011 –TB1 High School English Grammar & Composition Wren and Martin

2003 81-219-009-3 S Chand & Company

T11011 –TB2 Principles & practices of Management L.M.Prasad

Sixth Edition S.Chand & Sons

03. Reference-Books: Explore additional details and reinforce learning, with this optional learning resource!

T11011 –RB1 English Plus Xavier Pinto

2002 Selina Publication

T11011 –RB2 Advanced English grammar Martin Hewings

2008 Cambridge Publication

T11011–RB3 Developing Communications Skills Krishna Mohan & Meera Banerji

2009 McMillan Publication

T11011–RB4 Oxford Dictionary of Difficult words

0-19-5614673-5 Oxford Publication

04. CD / DVD: Explore additional details and reinforce learning, with this optional learning resource!

T11011-CD1


05. Web Links: Explore additional details and reinforce learning, with this optional learning resource!

T11011-WL1


T11012- Mathematics-I






4 Level UG



01 V61 T11012 Mathematics-I 4 68 120 100 TH











With Mathematics as one subject.

After successful completion of this course, student will be able to

1. Apply Mathematical principles to Engineering


4.1.1 Mathematics- I

5. UNITS


1 Review of fundamentals of differentiation

CP 01 CSs

17 Hrs



2 Mean Value Theorems and its applications

3 Application of derivatives

4 Successive differentiation

5 Differential Calculus of functions of several variables CP 02 CSs

17 Hrs



6 Calculus of Variations

7 Definite Integrals-I

8 Definite Integrals-II

CP 03 CSs

17 Hrs



9 Vector Algebra

10 Vector Calculus-I

11 Vector Calculus-II

12 Probability and Statistics CP 04 CSs

17 Hrs


end exam on these units. 13 Discrete probability distributions


14 Continuous probability distributions


1 Review of prerequisites: Functions, limits, continuity, Uniform continuity and Differentiability CP 01

2 Mean value theorems: Rolle’s, Lagrange’s and Taylor’s. Applications of Mean value theorems.

3 Applications of derivatives: Curvature, curvature for Cartesian curve and parametric curve

4 Successive differentiation: Higher order derivatives, nth order derivatives, standard results, nth order derivatives of rational functions and partial fractions, nth order derivative of the product of powers of sines and cosines.

5 Functions of several variables: Limit, continuity, Partial derivatives and their geometrical significance, Higher order

partial derivatives, homogeneous functions, Euler’s theorem, exact differentials, Maxima; Minima and Saddle points, constrained Maxima or minima, Lagrange multipliers.

CP 02

6 Calculus of Variations-The Brachistochrome problem, Euler-Lagrange development, applications of Euler’s equation, several dependent variables, applications to discrete mechanics, the Isoperimetric problem.

7 Definite integral-I: Properties of definite integrals, Fundamentals theorem of integral calculus, Integration as limit of a sum, Applications of integrals to lengths of plane curves, volume and surface of revolution

8 Definite Integral-II: Applications of integrals to find Center of gravity, Moment of inertia. Special functions: Beta

function and gamma function, multiple integrals Method of differentiation under integral sign.

CP 03 9 Vector algebra- Scalar and vector products, orthonormal triad, scalar triple products, Linear dependence of vectors,

other repeated products, Identity of Lagrange, Reciprocal systems.

10 Vector Calculus-I: Vector calculus, vector functions of one variable and their derivatives, curves, arc length, tangent, curvature and torsion.

11 Vector Calculus-II: Gradient of a scalar field, Divergence of a vector field, Curl of a vector field, Directional derivatives.

12 Probability and Statistics: Concept of Probability; Baye’s Theorem. Random variables, Concepts of Discrete, Continuous,

Joint and Conditional probability distributions, Mathematical Expectations; Variance; Standardized Random Variable; Moment generating functions; Characteristic functions, Variance for Joint Distributions; Co-variance; Correlation Co-efficient; Conditional Expectation; Chebyshev’s Inequality; Law of large numbers; Percentiles

CP 04

13 Discrete Probability distributions: Binomial, Poisson, Uniform, Geometric, Hyper-geometric. Problems and applications.

14 Continuous Probability distributions: Normal, Beta, Gamma, and Square. Problems and applications


Title Author

Edition Year

ISBN Publisher




T11012 –TB1 Advanced Engineering Mathematics H.K.Das

19th revised & 2010

81-219-0345-9 S.Chand & Company

T11012 –TB2 Higher Engineering Mathematics Dr. B.S. Grewal

40th Edition, 21st reprint. October, 2007

81-7409-195-5 Khanna Publishers


T11012 –RB1 Engineering Mathematics Vol. I & II S.S. Sastry

3rd & 2003 81-203-2579-6 81-203-2620-2 Prentice Hall of India

T11012 –RB2 Engineering Mathematics –I

Gokhale, Singh, Mujumdar,Kulkarni

1st & September 2003

Nirali Publications

T11012–RB3

A text book of Applied Mathematics Vol. I, II, III P N Wartikar and J N Wartikar

7th & reprint October 2001

81-85825-10-6 81-85825-07-6 81-85825-01-7 Pune Vidyarthi Griha Prakashan

T11012–RB4 Advanced Engineering Mathematics Dennis G. Zill & Michael R. Cullen

2nd & 2003 81-239-0700-1 or 0-7637-1357-0 CBS Publishers and Distributors


T11012-CD1



T11012-WL1


T11013- Engineering Mechanics






4 Level UG



01 V61 T11013 Engineering Mechanics 4 85 120 100 TH












1. Understand the basic principles of mechanics.(Statics and Dynamics).

2. Analysis forces in machines and structures. 3. Develop the problem solving techniques, enhance cognitive

and logical skills.

Special note: While teaching special care should be taken to correlate the concerned topic with the applications on merchant navy ships


9.5 Design characteristics and selection of materials in construction of equipment

5. UNITS


1 Vector Statics

CP 01 CSs

21 Hrs



2 Trusses And Frames

3 Virtual Work

4 Centroids

5 Moment Of Inertia

CP 02 CSs

22 Hrs



6 Rectilinear Motion

7 Curvilinear Motion

8 Kinematics Of Rigid Bodies

9 Friction CP 03 CSs

21 Hrs


end exam on these units. 10 Periodic Motion


11 Drives & Brakes

12 Dynamics Of Rotations CP 04 CSs

21 Hrs


end exam on these units. 13 Governors


1 VECTOR STATICS: - Introduction to: Scalar, Vector, Rigid body; Force, System of forces: Coplanar forces, Non-coplanar forces, Concurrent, Non-concurrent forces; Resultant force, Equilibrant force, Composition of forces, Resolution of forces, Transmissibility, Lamis theorem, Moment of force, Varignon’s theorem, Couples, Origin of forces, Free body diagram, (Applied problems on above topics.)

CP 01

2 TRUSSES AND FRAMES: Method of joints, Method of section; Frames. (Applied problems on above topics.)

3 VIRTUAL WORK: Concept of virtual work, Principle of virtual work, (Applied problems on Virtual work)

4 CENTER OF GRAVITY: - Introduction, Center of gravity, Centroids of areas, Centroids of lines, Centroid of volume, Centroids of masses, Composite figures. (Applied problems on composite fig. For above topics. )

5 MOMENT OF INERTIA: -

Moment of inertia of area, Transfer formula, Product of inertia and its transfer formula, Maximum and minimum moment of inertia, Mass moment of inertia and its transfer formula, Radius of gyration. (Applied problems on composite fig. For above topics. )

CP 02

6 RECTILINEAR MOTION: - Varying acceleration. Uniform motions. Uniformly Accelerated motion. Motion under gravity. Graphical solutions of rectilinear Motion. Relative Velocity. (Applied problems on Rectilinear motion)

7 CURVILINIAR MOTION: - Normal and Tangential velocity and acceleration, Radius of curvature, Motion of projectile on horizontal planes,D`Alembert`s Principle in rectilinear components, tangential and normal Components. (Applied problems on Curvilinear motion)

8 KINEMATICS OF RIGID BODIES: - Angular motion. Work power and energy.PE,KE, Derivation of KE, Work energy therom,conservation of energy,Force displacement graph. (Applied problems on Kinematics of rigid bodies)

9 FRICTION: - Static and Kinetic Friction, Laws of Friction.Friction on Horizontal plane. Block and wedge.

(Applied problems on above topic)

CP 03

10 PERIODIC MOTION:- Simple harmonic motion. Application of S.H.M to masses. Simple and Compound pendulum. Center of percussion. (Applied problems on Periodic motion)

11 DRIV ES AND BRAKES:- Transmission of power by Belts and Ropes. Velocity ratio of simple & compound Belt drives, slip of belt, lengths of open & cross belt drives. Power transmitted by belt, Ratio of tensions, centrifugal tension, conditions of maximum power Transmission, initial tension in belts. Advantages of rope drives. Numerical on above topics. [Reference book R.S KHURMI, Engineering mechanics] Different types of block & shoe brakes, Simple & differential band brakes. Rope Brake type absorption dynamometer.

12 DYNAMICS OF ROTATION:-

Torque. Work done by a torque. Angular momentum. Kinetic energy of rotation. Torque and angular acceleration. Uniformly accelerated rotation. Introduction of flywheel. (Applied problems on above topics)

CP 04 13 GOVERNORS:- Introduction to centrifugal and Inertia types of Governors. Functions of Governor, Terms of Governor, Comparison between a Governor and a flywheel. Watt Governor, Porter Governor, Sensitiveness; Stability and Hunting of Governors; Governor effort and Power, Consideration for friction in Governors.

TOPICS & CHAPTERS EXCLUDED FROM TEXT BOOKS: -

T13-T1: Part-I (STATICS) Chapters & Topics: - 3,4,5.5 to 5.9, 6. Part-II (Dynamics) Chapters & Topics: - 2.2.4 to 2.2.6, 3.3, 3.5, 4.2, 6, 7.2, 7.3, 8.4.1, 8.5.4, 8.5.6

T13-T2: Chapters & Topics: - 3.11,3.12,3.14,4.8, 5.6 to 5.8, 5.11, 6.5,10, 11, 12.18, 13, 14, 15.8 to 15.10, 21, 23.13, 24, 25.1 to 25.3, 25.10, 26, 28, 29.12 to 29.14, 30.14 to 30.16, 33, 34, 35.

T13-T3: Chapters & Topics: - 1 to 3, 5 to 10, 12 to 17, 18.8 to 18.11, 18.18 to 18.21, 19.10 to 19.15, 19.17 to 19.21, 20 to 26.



Title Author

Edition Year

ISBN Publisher




T11013–TB1 Engineering Mechanics R.M.Baphana & M.Passi

2005 81-219-0651-2 Tech-Max

T11013–TB2 Engineering Mechanics R.S. Khurmi

2003 S. Chand & Company

T11013–TB3 Theory of Machines R. S. Khurmi & J. K. Gupta



T11013–RB1 Vector Mechanics for Engineers (Static’s) 0-07-463599-9

Tata Mc Graw-Hill

T11013–RB2 Vector Mechanics for Engineers (Dynamics) 0-07-463598-0

Tata Mc Graw-Hill

T11013–RB3

T11013–RB4


T11013-CD1


T11013-WL1


T11014- Applied Electricity & Electrical Measurements






4 Level UG



01 V61 T11014 Applied Electricity & Electrical Measurements 4 85 120 100 TH






4. Continuous Assessment (CA): 20 Marks

5. End Examination (EE): 80 Marks





4. Have a basic understanding of electrical engineering


6.1 Basic Configuration and operation principles of electrical circuits.

6.1.1 electrical equipment:

6.1.1.a Generator systems

7.1 Safety requirements for working on shipboard electrical systems

7.4 Construction and operation of electrical testing and measuring equipment

7.6 The interpretation of electrical and simple electronic diagrams

5. UNITS


1 Basic concepts

CP 01 CSs

21 Hrs



2 Electrostatics

3 Electromagnetism

4 Inductance

5 Single phase A.C. Circuits

CP 02 CSs

22 Hrs



6 Three phase circuits

7 Electrochemical Power Sources

8 Cells Illumination

9 Analog instruments CP 03 CSs

21 Hrs



10 Measurement of power and Watt meters

11 Measurement of energy


12 Measurement of phase and frequency

13 Measurement of resistance

CP 04 CSs

21 Hrs



14 A.C. Bridges

15 Measurement of non-electrical quantities (using

transducers)

16 Simple electronic measuring devices

6. DETAIL SYLLABUS UN Detail Syllabus of the Unit CP

Block

1 Basic concept of electrical circuits – Resistance, Ohm’s law, Division of current, Kirchhoff’s law, Superposition theorem, Thevenin’s theorem, Maximum power transfer theorem; simple numerical problems, work, power, energy.

CP 01

2 Electrostatics - Electric charge, Coulomb’s law, Electric fields, Electric potential, Capacitor – charging and discharging, energy stored, series and parallel capacitor, Electrostatic lighting arrestors.

3 Electromagnetism- Magnetic field, Laws of magnetic circuit, Biot – Savart law, different magnetic circuits, calculation of Ampere-Turns, hysteresis and eddy currents, magnetic leakage and fringing, comparison between magnetic and electric field; simple numerical problems.

4 Electromagnetic induction- Relation between magnetism and electricity, production of induced EMF and current, Lenz’s law, statically and dynamically induced EMF, energy stored in a magnetic field.

5 Single Phase AC Circuits -

Production of AC voltage and current, different terms, AC through R, L and C, power triangle, resonance in series and parallel circuit.

CP 02

6 Three - phase circuits- Advantages of three phase system over single phase system, Generation of three phase voltage and current, phase sequence, connection of three phase winding, line and phase quantities in star delta circuit

7 Electrochemical power sources – Faraday’s law of electrolysis, classification of batteries, lead acid batteries – active material, chemical changes, battery rating, charging of batteries, Alkaline batteries and its testing. Increasing capacity off cell. Safety precautions. Service lamps, CFL

8 Illumination- Laws of illumination, incandescent lamp, fluorescent lamps, service lamps, CFL’s essentials of good lighting, street lighting, flood lighting, different wiring circuits.

9 Analog instruments- Classification of analog instrument, principles of operation, essentials of indicating instruments,

deflecting torque, controlling torque, damping torque, M.I instruments and its types, repulsion type M.I. instrument, advantages and disadvantages, Shunts for moving iron instruments, Multipliers for moving iron instruments, moving coil instrument, permanent magnet type, advantages and disadvantages, Ammeter shunts, Voltmeter multipliers, Errors in PMMC Instruments, electrodynamics or dynamometer type instruments, Operating principle, construction, main sources of error, advantages and disadvantages of electrodynamometer type instruments thermocouple ammeter.

CP 03

10 Measurement of power and Watt meters: Power in d.c. circuit, power in a.c. circuit, measurement of power in three phase circuit, three phase watt meters, reactive power measurement in three phase circuit using one wattmeter.

11 Measurement of energy - Single-phase induction type energy meter, errors in energy meter and sources of error.

12 Measurement of phase and frequency - Frequency meters-mechanical resonance type, electrical resonance type, Weston type, ratio meter type frequency meter. Synchroscopes – electrodyanamo meter type Synchroscope, phase sequence indicator.

13 Measurement of resistance -

Classification of resistances, Measurement of medium resistance- ammeter-voltmeter method, Wheatstone bridge method. Measurement of low resistance-Kelvin’s double bridge method. Measurement of high resistance using megger.

14 A.C. Bridges - General equation of bridge balance, general form of A.C. bridges, Measurement of self-inductance-Maxwell’s inductance bridge, Maxwell’s inductance-capacitance bridge, measurement of capacitance using Schering bridge.


15 Measurement of non-electrical quantities (using transducers) Measurement of Pressure using resistive, inductive and capacitive transducer. Measurement of Level. Measurement of angular velocity - Electrical tachometers, photoelectrical tachometer. Measurement of temperature - Resistance thermometer, thermistors, thermocouple. Measurement of flow - electromagnetic flow meter, turbine meters.

CP 04

16 Simple electronics measuring devices - Timing circuits - basic circuits, block schematic of timer, block diagram of IC-555, types of timer.


Title Author

Edition Year

ISBN Publisher


T11014– OL1 Details will be updated as and when available from the publishers


T11014–TB1 Elements of Electrical Engineering

V.V. Sovani

I Edition 1997 81-85825-97-1

Pune Vidyarthi Ghrih Prakashan

T11014–TB2 Elements of electronics engineering

A.P.Godse & U.A.Bakshi

2003 Technical publication


T11014–RB1 Electrical Technology Vol. I

B.L. Theraja & A. K. Theraja


T11014–RB2 Elect.& Electro Measurement

A.K. Sawhney

2003 Dhanpat Rai Pub.

T11014–RB3 Principle of electrical engineering

B. R. Gupta


T11014–RB4


T11014-CD1


T11014-WL1


T11015- Workshop Technology






4 Level UG



01 V61 T11015 Applied Electricity & Electrical Measurements 4 85 120 100 TH












1. Have knowledge of different manufacturing processes.

2. Perform machining and joining operations on most commonly used machines.


8.4 Methods for carrying out safe emergency/temporary repairs

8.5 Safety measures to be taken to ensure a safe working environment and for using hand tools, machine tools and measuring

instruments

8.6 Use of hand tools, machine tools and measuring instruments

9.2 The use of appropriate specialized tools and measuring instruments

9.3 Appropriate basic mechanical knowledge and skills

5. UNITS


1 Bench work and fitting

CP 01 CSs

21 Hrs



2 Mechanical working of metals

3 Casting Processes

4 Press and press work

5 Measuring Instruments CP 02 CSs

22 Hrs


end exam on these units. 6 Metal Cutting and Cutting Tools

7 Joining processes CP 03 Students have to answer '1 of 1' SAQ in CA and


8 Centre Lathe Machine CSs 21 Hrs

'1 of 1' SAQ and '1 of 2' LAQs in end exam on these units.

9 Milling, Drilling, Shaping, Planning, boring &

Slotting machines

10 Grinding Machines

11 Non Traditional Methods of Machining, their

advantages & limitations CP 04 CSs

21 Hrs


end exam on these units. 12 Principles of Jigs and Fixtures

13 Safety


1 Manufacturing practices I:

Bench work and fitting: Vices, Files, Hammers, Chisels, Scraper, Scriber, Surface plate, Punches, V – Block, Angle Plate,

Try Square. Straight edges

Cross filing & Draw filing, Filing allowance. Operations done in bench work and fitting. Reaming, Tapping operations.

CP 01

2 Mechanical working of metals: Introduction to hot working and cold working. Rolling, seamless tube manufacturing, wire drawing, hot spinning, extrusion, squeezing, shot peening, Forging – forging temperature, upset forging, power forging, impression die forging, drop and press forging. Defects in forging. Heat treatment of forged parts. Advantages and limitations of forged parts.

3 Casting Processes:

Sand Casting, Materials used for Patterns, pattern making allowances, properties of molding sand. Types of cores.

Investment molding. Die casting. Centrifugal casting. Continuous casting. Gates and risers. Defects in casting.

4 Press and press work:

Types of presses. Types of dies and punches. Operations done on dies. Die accessories.

5 Measuring instruments & metal cutting theory:

Measuring Instruments:

Linear measurements: Steel Rule, Calipers, Dividers, Depth Gauge, Micrometer, Depth Micrometer, Inside Micrometer,

Vernier Caliper, Vernier Height Gauge, Dial Gauge, Comparators – Optical, Pneumatic, electrical

Feeler gauge, Wire gauge, Radius Gauge, Screw pitch gauge, Straight edges. Optical flat

Angular measurements: Protractor, Bevel Gauge, Combination Set, Taper gauge.

Limit Gauges & their uses. Principles of interchangeability. Snap gauge, Plug gauge, ring gauge, gap gauge.

CP 02

6 Metal Cutting and Cutting Tools:

Orthogonal & Oblique cutting, Cutting forces in orthogonal cutting, Merchant’s Circle Diagram, Calculation of cutting

power, Measurement of cutting forces, Types of chips, chip breakers, Cutting tool nomenclature, Cutting speeds &

feeds, friction & sources of heat, tool life, Machinability, cutting tool materials, Cutting fluids

7 Joining processes and Machine Tools:

Joining Processes: Weldability, Metallurgy of weld, Heat affected zone, welding of various metals. Inspection & Testing of welds. Welded joints & edge preparation. Safety in welding. Oxy-Acetylene welding, types of flames. Oxygen cutting. Arc welding – Current & Voltage, Electrodes. Arc welding methods – MIG, TIG, Submerged. Surface preparation and various joints. Arc Welding- Theory, TIG, MIG, Submerged arc welding, Stud Welding. Soldering, brazing. Arc cutting. Resistance welding - Spot, Seam and Projection welding. Use of adhesives for joining - Classification of adhesives, types of adhesives, applications.

CP 03

8 Centre Lathe Machine: Types of lathes. Construction and working of lathe machine, Lathe attachments and accessories, Thread cutting and taper turning mechanisms. Operations performed on the lathe machine.

9 Milling, Drilling, Shaping, Planning, boring & Slotting machines: Milling machine: Construction & Working of milling machines. Fundamentals of milling process. Drilling Machine: Types of drilling machines, Quick change chuck. Tapping attachment, Operations done on drilling machines, Reamers, cutting speed and feed of drilling machine. Shaping Machine: Construction & Working of shaping machines. Quick return mechanism of shaping machines. Operations done on shaping machines. Slotting Machines: Construction & Working of slotting machines. Introduction to planning machines. Shaper versus Planer.


Introduction to boring machines. Operations done on boring machines. Introduction to broaching machines. Advantages & limitations of broaching operation.

10 Grinding Machines: Centre type grinding, Centre less grinding, Surface grinders, Grinding allowance, Mounting of grinding wheels, Dressing of grinding wheels. Lapping, Honing, Buffing, Tumbling,

11 Non Conventional Machining , Jigs & Fixtures, Overhauling and Safety in Workshops:

Non Traditional Methods of Machining, their advantages & limitations: Abrasive jet machining, Ultrasonic machining, Chemical machining, electrochemical machining, Electrochemical grinding, Electric Discharge machining, Electron beam machining, Laser beam machining, Plasma arc machining, Ion beam machining,

CP 04 12 Principles of Jigs and Fixtures:

Advantages of Jigs & Fixtures, Methods of location, Methods of clamping, Methods of indexing, Methods of tool guiding.

Introduction to powder metallurgy.

Introduction to injection molding of plastics.

Introduction to plumbing: Types of plumbing joints and Dieing operation.

Bedding of bearings & marking of engine parts for fitting.

13 Safety: Sources of danger and methods of protection.


Title Author

Edition Year

ISBN Publisher




T11015–TB1 Workshop Technology Vol. I & II

Hajra Chowdary 2002

2001

81-85099-15-4

81-85099-14-6 Media Promoters & Publishers

T11015–TB2


T11015–RB1 Workshop Technology Vol. I , II & III 2001 Viva Books

T11015–RB2 Technology of Machine Tools

Krar Check

81-85617-80-5

T11015–RB3

T11015–RB4


T11015-CD1


T11015-WL1


T11016 - Applied Thermodynamics - I






4 Level UG



01 V61 T11016 Applied Thermodynamics - I 4 85 120 100 TH












1. Understand basic laws of thermodynamics. 2. Understand ideal cycles 3. Know the properties of air, gases, steam 4. Understand Steam power plant & I C Engine.


4.1.1 Basic construction, operation principles Thermodynamics, marine diesel engine

4.1.4 Marine boiler.

5. UNITS


1 Thermodynamic Definitions CP 01 CSs

21 Hrs



2 Ideal gas equations

3 Properties of steam

4 First Law of Thermodynamics CP 02 CSs

22 Hrs


end exam on these units. 5 Second Law of Thermodynamics

6 Steam power cycle

CP 03 CSs

21 Hrs



7 Steam Power Plant & Waste Heat Recovery

8 Boiler Performance

9 Air standard cycles CP 04 CSs

21 Hrs


end exam on these units. 10 Performance of IC Engine.



1 Thermodynamic Definitions System, Boundary of system, Surrounding, Closed System, Open System and Isolated system. Heat, work, Energy, Working substance, Phase Properties, Phase Diagrams. Point Function, Path function, Reversible and Irreversible Process; Steady Flow Process and Non-flow Process; Temperature & Zeroth law Book T1 THERMAL ENGINEERING – R S KHURMI, GUPTA Chapters 1 & 3 complete

CP 01

2 Ideal gas equations: Characteristic Equation of State for a Perfect Gas; P-V and T-S Diagrams for Work transfer and Heat transfer in Reversible Processes; Equation of state for Real Gas; Internal Energy of a Gas and Joule’s Law; Two Specific Heats of a Gas and relation between them. Different Gas Processes and Heat & Work Transfer in various Gas Processes; Concept of Entropy; Change of Entropy in different Processes; Applied problems.(Applied Problems to find work done, heat transfer, change in internal energy & entropy of process. Book T1 THERMAL ENGINEERING – R S KHURMI, GUPTA Chapters 2, 3 & 4 (Only formula , no derivation ).

3 Properties of Steam: Phase; Phase Properties, Phase Diagrams. Equation of Steam; Temperature-Entropy Diagrams; Triple Point; Specific Enthalpy and Entropy; Use of Steam Tables and Steam Charts; Pressure -Volume and Enthalpy-Entropy Diagrams; Internal Energy of Vapors. Super Critical Vapors; Non-flow Processes with Steam; Applied problems. (Applied Problems on non-flow processes of steam.) Book T1 THERMAL ENGINEERING – R S KHURMI, GUPTA Chapter 7 complete including all numerical problems except 7.11 Barrel Calorimeter., Chapter 8 Complete including numerical problems Chapter 9 Complete including numerical problems.

4 First Law of Thermodynamics: And its application to various Processes; Non-Flow Energy Equation; Control Volume,

Steady-Flow Energy Equation; Applied problems. (Applied problems on steady flow process in nozzle, turbine, air blower, compressor & heat exchanger ) Book T1 THERMAL ENGINEERING – R S KHURMI, GUPTA. Chapters 1, 2 & 3 .

CP 02

5 Second law of thermodynamics Different statements of the second law of Thermodynamics, Carnot cycle, Thermodynamic Reversibility, Carnot’s Principle, Carnot's Cycle for a gas. Deductions from Carnot’s cycle. Steam and Gas processes on T-S and H-S charts, Entropy and Irreversibility, Applied problems. (Applied problems on Heat Engine, Heat Pump connected in High thermal Reservoir and Low thermal Reservoir and problems on principal of Increase in Entropy) Book T1 THERMAL ENGINEERING – R S KHURMI, GUPTA Chapters 1, 4 & 8 Complete .

6 Steam power cycle:

Carnot cycle for steam and Ideal Efficiency, Rankine cycle, with dry saturated steam and superheated steam. Feed Pump work. Rankine cycle efficiency, Isentropic Efficiency, work Ratio, Reheating and Regenerative Feed Heating and their effect on Thermal Efficiency, Book T1 THERMAL ENGINEERING – R S KHURMI, GUPTA Chapter 10 : 10.1 to 10.6.

CP 03 7 Steam Power Plant & Waste Heat Recovery

1)Book R1 Applied Thermodynamics III . H. N. Sawant . chapter 8: figure 8.1 Layout of modern steam power plant. 2) Book T1Thermal Engineering by Khurmi & Gupta, figure 20.1 page 447Steam Condensing unit, 3)Book R2 R Marine Auxilliary Machinery H D McGeorge 7th edition, figure 7.13, page 203,waste heat recovery system. Role of Steam Power Plant as an Auxilliary source of Power OR as a part of Waste Heat Recovery System. Block diagram showing Steam & cooling water circuits, air circuit, exhaust gas circuit & brief description of inter connections of components likeEconomiser, feed pump, Condensate/feed water heater, Super-heater, Reheater, Turbine, Condenser, Condensate pump; Air Pre-heater.(Note :This chapter is taught as introduction of Auxiliary equipment explained using block diagrams & flow diagrams ,thus In-depth or detailed construction & functioning of components NOT required ).

8 Boiler Performance( No theory on boiler draught ) Boiler Calculations; Boiler Thermal Efficiency and Equivalent Evaporation of a Boiler; Effect of dissolved solids and scale in Boilers. Applied Problems.Applied Problems on boiler thermal efficiency, equivalent evaporation.Not e: Detailed study on condenser & boilers will be studied in Marine Engineering subjects in detail . Only Introduction at this stage. Book T1 THERMAL ENGINEERING R S KHURMI , GUPTA Chapter 15 numericals 15.1 to 15.7

9 Air standard cycles

Assumptions, For Otto cycle; Diesel Cycle derive equation of efficiency & Introduction Dual Cycle, Joule Cycle; formula for efficiency, Mean Effective pressure , Applied problems , Comparison between Otto & Diesel Cycle. Book T1 THERMAL ENGINEERING – R S KHURMI, GUPTA Chapter:6 6.1 to 6.12, 6.16,6.17 with derivation of equations. 6.18 only description without derivation.

CP 04

10 Performance of IC Engine, 4-Stroke & 2-Stroke Cycle engine (Basic Construction and Operation to explain suction, compression, power and exhaust steps , comparison between Two stroke and Four stroke Engines, Two stroke Diesel Engine Two stroke petrol engine excluded ); Criteria of Performance; Compression Ratio & Thermal Efficiency; Indicator Diagrams; Indicated Power; Brake Power; Friction Power; Mechanical Efficiency; Specific Fuel consumption; Energy Balance; Applied problems. (Applied Problems: on Air standard efficiency and MEP of Otto & Diesel cycle, Performance of IC engine to find thermal, mechanical, relative, volumetric efficiency, bsfc, isfc, Mean effective pressure etc, and to plot energy balance sheet. Book T1 THERMAL ENGINEERING – R S KHURMI, GUPTA Chapter: 26 26 : 26.1 to 26.7, 26.9 , 26.10, 26.12,26.13, 26.16 , 26.20,26.21 , Chapter 27: 27.1 to 27.4,27.6, 27.9.



Title Author

Edition Year

ISBN Publisher




T11016–TB1 Thermal Engineering Khurmi, Gupta

15TH Edition 2010

81-219-2573-8 S Chand

T11016–TB2


T11016–RB1 Applied Thermodynamics I H. N. Sawant

2003

Akshar Rachana

T11016–RB2 Marine Auxillary Machinery H D McGeorge

2004 0750643986 Elsevier

T11016–RB3 Applied Thermodynamics III H. N. Sawant

2003

Akshar Rachana

T11016–RB4 Thermal Engineering P.L. Ballaney

2002 81-7409-031-2 Khanna Publishers

T11016–RB5 Thermal Engineering Domkundwar

2003 DhanpatRai &Sons

T11016–RB6

Thermodynamics

Cengel & Boles

2004 4th Ed

0-07-049503-3 Tata McGraw Hill

T11016–RB7 Basic Engineering Thermodynamics Rayner. Joel

1996 5th Edition

981-235-835-8 Addison Wesley Longman Ltd.

T11016–RB8 Model Code 7.04 draft I M O

2012 Ed I M O


T11016-CD1


T11016-WL1


T11017- Applied Mechanics Lab.






4 Level UG



01 V61 T11017 Applied Mechanics Lab. 2 51 60 50 PR












1. Understand the basics of machines.



5. PRACTICAL ACTIVITIES

UN Name of Practical Activity CST

1 To verify principles of moment

51 Hrs

2 Reaction of loaded beams

3 To determine the magnitude and nature of forces acting on the different members of the Jib crane.

4 To prove the equilibrium of coplanar forces.

5 To determine the magnitude and nature of forces acting on the the different members of the Derrick crane.

6 To find out the Mechanical Advantage, Velocity Ratio of worm and worm wheel.

7 To find out the Mechanical Advantage, Velocity Ratio of single compound wheel and axle.

8 To determine the moment of inertia.

9 To find coefficient of Friction

10 To find out the Mechanical Advantage, Velocity Ratio of double compound wheel and axle.

11 To find out the mechanical Advantage, Velocity Ratio of Differential wheel and axle.

12 To find out the Mechanical Advantage, Velocity Ratio of Screw Jack

13 To find out the mechanical Advantage, Velocity Ratio of crab and winch.


Title Author

Edition Year

ISBN Publisher




T11017–TB1


T11017–TB2


T11017–RB1 T11017–RB2

T11017–RB3

T11017–RB4


T11017-CD1


T11017-WL1


T11018- Electrical Lab






4 Level UG



01 V61 T11018 Applied Mechanics Lab. 2 34 60 50 PR












1. To use electrical measuring and testing equipments.


6.1 Basic configuration and operation principles

6.1.1 Electrical equipment

6.1.1.a Generator and distribution systems

6.1.1.c Electrical motors including starting methodologies



1 Determination of equivalent resistance under (a) series, (b) parallel and (c) series-parallel connections.

34 Hrs

2 Measurement of resistance by voltmeter and ammeter method.

3 Continuity test by megger and multi-meter.

4 Measurement of high resistance by megger.

5 Volt-ampere characteristics of lamps.

6 Measurement of low resistance by Kelvin bridge.

7 Verification of Superposition theorem

8 Verification of Thevenin’s theorem

9 Wattmeter connections and measurement of power in delta connected inductive load.

10 Wattmeter connections and measurement of power in star connected resistive load.

11 Characteristic of an A.C. series circuit and to set resonance.

12 Characteristics of an A.C. parallel circuit and to set resonance.

13 To study the connection of a fluorescent tube with electromagnetic ballast (To measure input power, voltage and current and to compute power loss in the ballast resistor).

14 To study the connection of a florescent tube operated from a 220 V D.C. Mains. (To measure input power, voltage and current and to compute power loss in the ballast resistor).


15 Calibration of energy meter

16 Study of self induced EMF and mutually induced EMF


Title Author

Edition Year

ISBN Publisher




T11018–TB1

T11018–TB2


T11018–RB1 T11018–RB2

T11018–RB3

T11018–RB4


T11018-CD1


T11018-WL1


Semester 02 T11021 Electronics -I






4 Level UG



01 V61 T11021 Electronics-I 4 68 120 100 TH












Identify different components and understand their functions.

Understand the working of different amplifiers

Use different electronic instruments


6.1.1.e Sequential control circuits and associated system devices

6.1.2 Electronic equipment

6.1.2.a Characteristics of basic electronic circuit elements

5. UNITS


1 Semi Conductor and Diodes CP 01 CSs

17 Hrs


end exam on these units. 2 Transistors

3 Operational Amplifier Basics CP 02 CSs

17 Hrs


end exam on these units. 4 Operational Amplifier Applications

5 Digital Circuits CP 03 CSs

17 Hrs


end exam on these units. 6 TTL and CMOS GATES

7 Industrial Electronics CP 04 CSs

17 Hrs


end exam on these units. 8 Electronic Instruments



1 Semi Conductor and Diodes :Electron theory , Atomic Structure , characteristics of semiconductor – thermoelectric effect , communicating action , hall effect ,P-N junction diode, V-I characteristics of typical Ge and Si Diodes, zener diode, characteristics of zener diode, Breakdown mechanisms in zener diode , applications of zener diode. Diode as a rectifier-half wave rectifier, Full wave rectifier , Bridge Rectifier, comparison of rectifier circuits, filter circuits, capacitor input

filter , filter.

Text Book: T1,T2,T7

CP 01 2 Transistors: Transistor basics, transistor action, transistor currents, transistor configurations, transistor biasing, the dc operating point, biasing circuits, transistor as a switch. Basic concept of an amplifier, single stage RC coupled CE amplifier, frequency Response of RC coupled CE Amplifier. Concept of feedback amplifier, concept of negative feedback. JFET MOSFETS- construction of JFET, operation of JFET, JFET characteristics, JFET parameters, MOSFET. Text Book: T1, T2, T3 ,T7.

3 Operation Amplifier Basics : Op-amp symbol and terminals, ideal op-amp, practical op-amp characteristics, op-amp IC

A741,

Open loop configuration of op-amp, closed loop configuration of op-amp Text Book: T1, R9.

CP 02 4 Operation Amplifier Applications : Realistic simplifying assumptions, inverting amplifier, Non inverting amplifier, voltage follower, summer or adder circuit, Subtractor or difference amplifier, op-amp as a comparator, Schmitt trigger circuit. Text Book: T1, R9.

5 Digital circuits: Principle of Logic circuits, logic Gates, Boolean Algebra, Logic circuits, universal property, alternative logic

gate representation, conversion of AND/OR/NOT logic to NAND/NOR Logic; Simplifications Flip-flops: NOR Gate latch (S-R Flip-Flop), D FF (Delay Flip-Flop), JK Flip-Flop, Master Slave JK FF (M/S JK FF), T FF (Toggle FF); Counters: Introduction, Asynchronous counter, Synchronous counter. Text Book: T1, T5

CP 03 6 TTL and CMOS GATES: Digital Logic Families: Characteristics of Digital ICs, Transistor-Transistor Logic (TTL), Emitter-

Coupled Logic (ECL), CMOS Logic; Semi-conductor Memories; ROM, RAM. Reference Book: T6

7 Industrial Electronics: Silicon Control Rectifier (SCR), working of SCR, equivalent circuit of SCR, important terms, V-I

Characteristics of SCR, Applications of SCR; TRIAC, TRIAC Construction, TRIAC Operation, TRIAC Characteristics; Photo-Electric Devices: photodiodes, phototransistor; Reference Book: T4, T2.

CP 04

8 Electronic Instruments: Cathode Ray Oscilloscope, Cathode ray tube (CRT), Block diagram of Oscilloscope, Dual Trace Oscilloscope; Digital Voltmeters, Multimeter, Function Generator. Reference Book: T1


Title Author

Edition Year

ISBN Publisher




T11021–TB1 Elements of Electronics Engineering A.P.Godse U.A.Bakshi

Fifth revised Edition 14 th January 2003

Technical Publications Marketed by Nirali Prakashan

T11021–TB2 Electronic Devices and circuits I A.P.Godse U.A.Bakshi

Second revised edition


T11021–TB3 Electronic Devices and circuits II A.P.Godse U.A.Bakshi



T11021–TB4 Principles of Electronics V.K. Mehta

Revised edition in two colors

T11021–TB5 Digital Electronics N.G. Palan

Thoroughly revised edition

Tech-Max Publications, Pune

T11021–TB6 Modern digital electronics R.P. Jain

3rd edition

Tata McGrall-Hill publishing company Ltd. New Delhi


T11021–TB7 The Art of Electronics Horowitz Paul and Winfield Hill

Cambridge University Press Publication


T11021–RB1 A Text Book of Applied Electronics R.S. Sedha

First edition 1990

S. Chand & Company Ltd. New Delhi

T11021–RB2 Electronic Devices and Circuits Allen Mottershed

2002 81-203-0124-2 ELSB Publications

T11021–RB3 Operational Amplifier Ramakant Gaikwad

2003

T11021–RB4


T11021-CD1


T11021-WL1


T11022- Mathematics-II






4 Level UG



01 V61 T11022 Mathematics-II 4 68 120 100 TH











Having Passed T11012


Apply Mathematical principles to Engineering


4.1.1 Mathematics- II

5. UNITS


1 Formation of differential equations

CP 01 CSs

17 Hrs



2 First order and first degree differential equations

3 Applications of first order first degree differential equations, Picard’s iteration method.

4 Linear Differential Equations-I

5 Linear Differential Equations II

CP 02 CSs

17 Hrs



6 Applications of Linear Differential Equations

7 Fourier Series

8 Half range series expansions

9 Application of Fourier series CP 03 CSs

17 Hrs



10 Laplace Transform

11 Inverse Laplace Transform


12 Application of Laplace Transform to differential equations

13 Finite Difference and Interpolation CP 04 CSs

17 Hrs




1 Formation of differential equation- Formation of differential equation

CP 01

2 First order First degree differential equations: Separable Equation; Equations reducible to Separable From; Homogeneous and non-homogeneous equations; Exact Differential Equations; Integrating Factors, Linear first order Differential Equations.

3 Applications of first order first degree: Families of Curves; Orthogonal Trajectories; Applications to Electrical Circuits. Picard’s iteration method.

4 Linear Differential Equations-I: Ordinary Differential Equation of nth order

5 Linear Differential Equations-II: Method of variation of parameters and undetermined coefficients.

CP 02 6 Applications of Linear Differential Equations: System of Ordinary Differential Equations, Phase Plane, Critical Points and Stability.

7 Fourier Series : Periodic Functions, Fourier Series and Euler’s Formulae, Fourier Series for even & odd functions and functions having arbitrary period.

8 Half range series expansions Half-range Expansions

9 Applications of Fourier Series–Rectangular Pulse; Half-wave Rectifier. Fourier Integral, Orthogonal Functions, Gibbs

Phenomenon.

CP 03 10 Laplace Transform: Linearity, Laplace Transforms of derivatives & Integrals, shifting on the ‘s’ and ‘t’ axes; Convolutions, Partial fractions.

11 Inverse Laplace transforms.

12 Application of Laplace Transform to differential equations -Transformation of ordinary differential equation applications.

13 Finite Difference and Interpolation -Finite difference, difference of polynomial, factorial notation, difference operators,

Newton’s Interpolation formulae, central difference interpolation formulae, interpolation with unique intervals, inverse interpolation, Numerical differentiation , Numerical Integration.

CP 04


Title Author

Edition Year

ISBN Publisher




T11022–TB1 Higher Engineering Mathematics Dr. B.S. Grewal

40th Edition, 21st reprint. October, 2007

81-7409-195-5 Khanna Publishers

T11022–TB2 Advanced Engineering Mathematics Peter V. O’Neil

5th & 2003 981-243-872-6 Thomson Brooks/Cole,

T11022–TB3


T11022–RB1 Engineering Mathematics –I,II,III Gokhale, Singh, Mujumdar,Kulkarni

2003 Nirali Publications

T11022–RB2

A text book of Applied Mathematics Vol. I, II, III P N Wartikar and J N Wartikar

7th & reprint October 2001

81-85825-10-6

81-85825-07-6

81-85825-01-7 Pune Vidyarthi Griha Prakashan


T11022-CD1


T11022-WL1


T11023-Material Science

1. PROGRAMME INFORMATION SN Description Details




4 Level UG



01 V61 T11023 Material Science 4 68 120 100 TH












Understand behavior, and different properties of metals and

non-metals (Ferrous and Non-Ferrous) and their alloys.

Test Corrosion Resistance of different metals and alloys.



5. UNITS


1 Structure of Atom CP 01 CSs

17 Hrs


end exam on these units. 2 Miscellaneous Engineering Materials

3 Metals and Alloys CP 02 CSs

17 Hrs


end exam on these units. 4 Solid Solutions

5 Testing of Materials

CP 03 CSs

17 Hrs



6 Non-destructive Tests

7 Fatigue

8 Corrosion and its prevention

9 Heat Treatment

CP 04 CSs

17 Hrs



10 Uses of Materials in Shipboard Application

11 Selection of Materials in Shipbuilding and Marine Engineering

4. DETAIL SYLLABUS


UN Detail Syllabus of the Unit CP Block

1 Structure of Atom: Electron & Bonding – Electronic structure of atom, Covalent Bonding, Metallic Bonding, Ionic Bonding, & Secondary Bonding, Atomic Packing Factor, Directional & Non Directional bonding atoms, Crystal structure, F.C.C., B.C.C. H.C.P., Simple cubic, Non crystalline solids, Elestomer, Long chain & molecular compounds.

CP 01 2 Miscellaneous Engg Materials :

Refructories, Insulating material, Plastics, Rubber, PVC Resins, Paints etc. Manufacture, properties & selecting few various engineering application, Polyurethene foam PTFE, Eroxy Resins, Paints, and Compare material.

3 Ferrous & Non Ferrous Metal & Alloy:

Wrought & cast components, Allotropy of pure Iron, Iron carbon equilibrium diagram, Plain carbon steels, Alloy Steels, Tool Steels, Stainless Steels their composition properties & applications, various types of Cast Iron, Gray, White, Malleable, Alloy C.I., Nodular C.I., Mananile C.I., Chilled C.I., Nodular or S.G. Iron. Their composition, properties & applications.

CP 02 4 Types of Solid Solutions:

Non Ferrous Metal & Alloys – Copper and its alloys , Brasses, Bronzes, Aluminium alloys, Nickel alloys, Composition, Properties, applications, Miscellaneous Engg. Material, Their properties, composition & applications such as Carbide Tip Tools, Cermets. Boiler, Steam & Gas turbine & Diesel engine components and their materials, Pumping machinery components, Propellers, Radars etc. Composition, Strength value & other requirements ---- uses.

5 Material Testing & Evaluate properties of Testing of metals:

Concept of stress & strain, Strength, Electricity Plasticity, Toughness, Resllience, Stiffness, Malleability, Ductility, Brittleness, Destructive Tests like Tensile Test, Compression Test, Shear Test, Bend Test, Hardness Test, such as Rockwell, Brinell, Vickers, Poldy shore, Impact Test (Izod & Charpy) Fatigue, Creep Test, Non Destructive Test i.e. Visual Inspection, Dye Penetratent Test, Ultrasonic Tests, Radiographic Test, Magnetic Particle Test, Eday Current Test.

CP 03

6 Steels & Heat Treatment:

Time Temperature Treatment. Diagram for 0.8% carbon steel, Continuous Cooling Transformation, Critical Cooling Rate, Heat Treatment Processes, Annealing & Classification or Annealing Process, Normalizing, Hardening, Various Tempering Processes, Carburizing (liquid, pack, gas) Case Hardening i.e. Nitriding, Cyniding, Carbonitriding, Silconising, Chloronising, Induction & Flame Hardening, Subzero Treatment, Martempering, Austempering, Hot & Cold Working, Precipitating & Age Hardening, Hardnability & Jominey Hardenability Test

CP 04

7 Corrosion & Prevention: Mechanism of corrosion – Chemical corrosion, Electron chemical corrosion, Anodic & Cathodic Protect, ---- metallic coating, Anoding, Phesphobility, Dry & Wet corrosion, Cathodic protection.


Title Author

Edition Year

ISBN Publisher




T11023–TB1 A Text Book of Material Science & Metallurgy O.P. Khanna

1999 Reprint 2000

Dhanpatrai Publications

T11023–TB2

T11023–TB3

T11023–TB4


T11023–RB1 Engineering Metallurgy – I A.S. Gholap & M.S.Kulkarni

3rd Edition 2000

Nirali Prakashan

T11023–RB2 Engineering Metallurgy – II A.S. Gholap & M.S.Kulkarni

3rd Edition 2000

Nirali Prakashan

T11023–RB3

T11023–RB4


T11023-CD1


T11023-WL1


T11024- Electrical Machines -I






4 Level UG



01 V61 T11024 Electrical Machines -I 4 68 120 100 TH












Understand the principle and applications of D.C. Motors

Understand the principle and applications of Transformers


6..1.1.a Power generation and distribution system


6.1 Basic configuration and operation of electrical equipments

7.1 Safety requirements for working on shipboard Electrical system

7.2 Maintenance and repair of electrical system equipment

7.4 Electrical testing

5. UNITS


1 Construction of D.C. machine & Windings in D.C. Machines

CP 01 CSs

17 Hrs



2 Working of D.C. Machine

3 D.C. Generators

4 Armature reaction

5 D.C. Motors CP 02 CSs

17 Hrs



6 Staring methods

7 Speed Control of D.C. Motors


8 Testing on D.C. Machines

9 Transformer CP 03 CSs

17 Hrs



10 Types of Transformers

CP 04 CSs

17 Hrs



11 Supply system and DC Distribution

12 A.C. Transmission and Distribution

13 Circuit Breakers


1 Construction and Winding of DC machine : Construction details of DC machine, Winding – Winding terminology, simple wave and lap winding.

CP 01

2 D.C. Machines: Direct current machine-Principle of working.

3 D.C. generators: Type, their characteristics, EMF equation, losses and efficiency, condition for maximum efficiency, methods of excitation, parallel operation – necessity of parallel operation, necessary condition for operation, load sharing, simple numerical problems.

4 Armature reaction and commutation : Effect of armature reaction, methods of reducing armature reaction, commutation – process of commutation, methods of improving commutation.

5 D.C. motors-

Types, significance of back EMF, voltage equation, torque equation, speed regulation, characteristics, and simple numerical problem.

CP 02 6 Starting of dc motor :

Starting of DC motor – necessary of starter, types of starter, reversing of dc motor, simple numerical problem.

7 Speed control of DC motor : Flux control method. Armature control method, simple numerical based on these methods, Ward Leonard drive

8 Testing of D.C. machines: Brake load test, Swinburn’s test, Hopkinson’s test, series field test, simple numerical problems. Braking of dc machine – Dynamic, plugging, regenerative.

9 Transformer:

Working principle of transformer, transformer construction, core type transformer, shell type transformer, Berry type transformer , elementary theory of an ideal transformer, E.M.F. equation of a transformer, voltage transformation ratio(k), transformer with losses but no magnetic leakage, transformer on no load, transformer on load, transformer with winding resistance but no magnetic leakage, equivalent resistance, magnetic leakage, transformer with resistance and leakage reactance, equivalent circuit, transformer tests, open circuit or no load test, short–circuit or impedance test, Why transformer rating in kva?, regulation of a transformer, Losses in a transformer, efficiency of a transformer, condition for maximum efficiency, all-day efficiency.

CP 03

10 Types of Transformer:

Auto- transformer, parallel operation of single phase transformers. Three phase transformer. Instrument transformers-current transformer, potential transformer, Air cooled Transformer.

CP 04 11 Supply system and DC distribution – Electrical supply system, typical AC power supply scheme, comparison of AC and DC transmission, Advantages of high voltage. Types of DC distributor, Two wires & three - wire D.C. distribution, use of balancer, one end fed, both end fed, center & Ring main distributor.

12 A.C. transmission and distribution: Single phase and three phase AC transmission, 2-wire, 3-wire & 4-wire A.C. distribution

13 Fuses and circuit breaker : Definition of fuse, characteristics, material used, important terms, types. Circuit breaker- operation, arc phenomenon, methods of arc extinction, important terms, and A.C. air blast circuit breakers.

Points not included in syllabus:

From T1 –31.10; 32.5, 32.12; 33.8, 33.9; 34.7 to 34.9, 34.17; 35.5, 35.17, Chapter - 1 to 28; 36 to 52 From T2 – 26.1, 26.2, 26.27, 26.29; 27.3, 27.4, 27.6, 27.8, 27.13, 27.18, 27.19; 28.11, 28.14, 28.15; 29.16; 30.4, 30.5, 30.9 to 30.18, 30.25 to 30.27; 31.8, 31.9; 32.17, 32.33.


Chapter – 25, 33 to 39 From R2- 7.6 to 7.13; 12.5 to 12.9; 13.2 to 13.13, 13.15; 19.7 to 19.12, 19.15 to 19.20; 20.8. Chapter – 1 to 6, 8 to 11, 14 to 18, 21 to 26.


Title Author

Edition Year

ISBN Publisher




T11024–TB1 Principles of Electrical Engineering B. R. Gupta

3rd Edition 2001

S. Chand & Company

T11024–TB2 A textbook of Elect. Technology, vol – II B. L. Theraja

2002 81-219-1142-7 S. Chand & Com.

T11024–TB3

T11024–TB4


T11024–RB1 Electrical Machinery P.S.Bimbhra

2002 Khanna Publication

T11024–RB2 Principle of power system V. K. Mehta


T11024–RB3

T11024–RB4


T11024-CD1


T11024-WL1


T11025- Geometric Engineering Drawing






4 Level UG



01 V61 T11025 Geometric Engineering Drawing 4 102 120 100 TH












Read, visualize Interpret and Draw engineering drawing.

Use the concept to develop the given object.

To communicate information with others by graphical means.


9.6 Interpretation of machinery drawings and handbooks.

5. UNITS


1 Introduction to Technical Drawing

CP 01 CSs

17 Hrs



2 Curves Used in Engineering Practice

3 Loci of Points

4 Screw-Threads

5 Screwed Fastenings CP 02 CSs

17 Hrs



6 Orthographic Projection

7 Isometric projections

8 Development of surfaces CP 03 CSs

17 Hrs



9 Projection of points / lines

10 Projection of Solids

11 Section of Solids CP 04 CSs

17 Hrs


end exam on these units. 12 Intersection of Surfaces


13 Oblique Projections


1 INTRODUCTION TO TECHNICAL DRAWING: Instruments and their uses: Drawing board, T-square, Set-square, Drawing instrumentation box, Scales, Protractor, French curves, Drawing papers, Drawing pencils, Eraser, Drawing pins, sand-paper block, duster, Drafting Machine, General suggestions for drawing a sheet.

Sheet Layout and Sketching:

Lines: Introduction, Lines, Types of lines.

Lettering: Single stroke letters, Gothic letters.

Dimensioning: Types of dimensions, Dimensioning terms and notations, placing of dimensions, unit of dimensioning, General rules for dimensioning, Practical hints on dimensioning. Advantages of datum dimensioning.

Scales: Introduction, Engineers scale, Graphical scale, Representative fraction, Scales on Drawing, Types of scales-plain, Diagonal, Comparative, Vernier, Scale of chords

Geometric Construction: Bisecting a lines, To draw perpendiculars, To draw parallel lines, To divide lines, To bisect an angle, To trisect an angle, To find center of an arc, To construct equilateral triangles, To construct squares, To construct regular polygons, Special methods to draw regular polygons, Regular polygons inscribed in circles, To draw regular figures using T-square and Set square or Mini drafter, Circles and Lines in contact, Inscribed circles. Redraw given simple components and provide sufficient dimensions.

CP 01

2 CURVES USED IN ENGINEERING PRACTICE: Classification of curves (Conic Sections, Cycloidal curves, Involute, Evolutes, Spirals, Helix), Definitions and Terminology associated with each. Methods to construct Conics: Methods to construct Ellipse (Directrix - focus, Arcs of Circles, Concentric circles, Oblong), Methods to construct Parabola (Directrix – focus, Rectangle, Tangent), Hyperbola (Directrix – focus, Rectangle), Normal and Tangents to conics. Spirals: Archimedean Spiral, Logarithmic or Equiangular spiral, Normal and Tangent to both. Helix: Helix on a cylinder, Helix on a cone, Involutes: Winding and Unwinding method Cycloidal Curves: Cycloid , Epicycloid , Hypocycloid

3 LOCI OF POINTS: Introduction, Loci of points, Simple mechanisms-The slider crank mechanism, A four bar mechanism, crank-connecting rod-trunnion mechanism, combinations of above mechanism.

4 SCREW THREADS: Introduction, Definitions, Forms of threads (Triangular or V threads: Unified, Metric, Whitworth, British Standard, British Association, Sellers. Square thread: Acme, Knuckle, Buttress) Conventional representation of threads: Method I (External threads, Internal threads), Method II (External V threads, Internal V threads, External Square threads, Internal Square threads), Multiple-start threads, Right-hand and left-hand threads.

5

SCREWED FASTENINGS: Introduction, Types of nuts: Hexagonal, Square, special purpose-Flanged, Cap, Dome, Cylindrical or Capstan, Ring, Wing, Washers-Plane washer, Chamfered washer, Spring washer. Types of bolts, Forms of bolts-Hexagonal headed, Square headed, Cylindrical or cheese headed, Cup-headed or round-headed, T-headed, Countersunk-headed, Hook bolt, headless tapered, eye-bolt, Tap-bolt or cap-screw, stud-bolt or stud, Set- screws, Locking arrangements for nuts-Lock-nut or check-nut, Split pin, Slotted nut, Castle nut, Swan nut or Wiles nut, Simmond’s lock nut, Penn, ring or grooved nut, Stop-plate or locking-plate, Foundation bolts-Eye foundation bolt, Rag bolt, Lewis bolt, Cotter bolt.

CP 02

6 ORTHOGRAPHIC PROJECTION: Introduction, Principle of projection, Methods of projection, Principal planes of projection, four quadrants, First angle projection, Third angle projection, Reference line, Symbol for method of projection, Relative position of views in first angle projection method. Introduction to auxiliary projection and its use (Need not draw auxiliary views). Drawing employing the following …sections in two parallel planes, revolved sections, thin sections, part sections, half sections.

7 ISOMETRIC PROJECTION: Introduction, Isometric projection, axes, lines and planes, Isometric scale, Isometric Drawing or Isometric view, Non isometric lines, Angles, curves and circles in isometric projections, Isometric drawing of planes or plane figures, Prisms and Pyramids, Cylinders, Cones, Spheres

8

DEVELOPMENT OF SURFACES: Introduction, Methods of development-Parallel-line, Radial –line, Triangulation, Approximate, Developments of lateral surfaces of right solids- Cube, prisms, Cylinders, Pyramids, Cone, Development of a square to round transition pieces. Draw development of a 900 intersection of circular trucking.

9 PROJECTION OF POINTS / LINES: Projection of Points: A point is situated in the first / second / third /fourth quadrant. Projection of Straight lines: line combined to one or both the planes, line contained by one or both the planes, Line


inclined to one plane and parallel to the other, line inclined to both the planes, Line contained by a plane perpendicular to both the reference planes, True length of a straight line and its inclinations with the reference planes, Traces of a line, Methods of determining traces of a line, Traces of a line, the projections of which are perpendicular to x-y. Positions of traces of a line.

CP 03

10 PROJECTION OF SOLIDS: Introduction, Types of solids- Polyhedra, Solids of revolution, Projection of solids in simple positions,-Axis perpendicular to the H.P., Axis perpendicular to the V.P., Axis parallel to both the H.P. and the V.P., Projection of solids with axes inclined to one of the reference planes and parallel to the other- axis inclined to the V.P. and parallel to the H.P., Axis inclined to the H.P. and parallel to the V.P., Projection of solids with axes inclined to both H.P. and V.P: Simple position, Axis inclined to one plane and parallel to the other, Final position.

11

SECTION OF SOLIDS: Introduction: Section planes, Sections, True shape of a section, Section of Prisms: Section plane parallel to the V.P., Section plane parallel to the H.P., Section plane perpendicular to the H.P. and inclined to the V.P. Section plane perpendicular to the V.P. and inclined to the H.P. Sections of pyramids: Section plane parallel to the base of the pyramid, Section plane parallel to the V.P., Section plane perpendicular to the H.P. and inclined to the V.P., Section plane perpendicular to the V.P. and inclined to the H.P.

Sections of cylinders: Section plane parallel to the base, Section plane parallel to the axis, Section plane inclined to the base.

Section of cones: Section plane parallel to the base of the cone, Section plane passing through the apex of the cone, Section plane inclined to the base of the cone at an angle smaller than the angle of inclination of the generator of the cone, Section plane parallel to the generator of the cone, Section plane inclined to the base of the cone at an angle greater than the angle of inclination of the generator with the base. Sections of spheres: Section plane parallel to the H.P., Section plane parallel to the V.P., Section plane perpendicular to the V.P. and inclined to the H.P., Section plane perpendicular to the H.P. and inclined to the V.P.

CP 04

12 INTERSECTION OF SURFACES: Introduction, Line of intersection, Methods of determining the line of intersection between surfaces of two interpenetrating solids: Line method, Cutting –plane method, Intersection of two prisms, Intersection of cylinder and cylinder: Line method, Cutting –plane method, Intersection of cylinder and prism, Intersection of cone and cylinder: Cutting-plane method, Line method, Intersection of cone and prism, Intersection of sphere and cylinder or prism.

13 OBLIQUE PROJECTION: Draw oblique projections of simple solids.

Chapters not included in Syllabus from Text Book (T1):

Chapters: 11, 12, 19, 21, 22, 25, 26.

7. LEARNING RESOURCE DETAILS

LR Code Title Author

Edition Year

ISBN Publisher




T11025–TB1 Engineering Drawing: N.D.Bhatt & V.M.Panchal

(Included: Ch 1, 2, 3, 4, 5, 6 (6.0 to 6.6 –1 & 6.6 - 4), 7, 8, 9, 10, 13, 14, 15, 16, 17, 18, 20 23, 24.

Excluded: Ch 11, 12, 19, 21, 22, 25, 26.)

4th Edition, April 4, 2002

81-85594-01-05 Charotar publishing House, Anand-388 001.

T11025–TB2 03. Reference-Books: Explore additional details and reinforce learning, with this optional learning resource!

T11025–RB1

Engineering Graphics: H.G.Phakatkar (Included: (Volume – I) 1, 2, 4, 5. (Volume -II) 7, 9, 10, 11, 12. Excluded: (Volume – I) 3. (Volume – II) 8. )

6th Edition 2002

Vision Publications Pune.

T11025–RB2 Engineering Graphics: Prof. M. L. Dabhade (Included: Ch 1, 2, 4, 5, 6. Excluded: Ch 3.)

6th Edition 2002

81-87575-34-4Vision Publications Pune.


T11025-CD1


T11025-WL1


T11026- Applied Thermodynamics-II






4 Level UG



01 V61 T11026 Applied Thermodynamics-II 4 68 120 100 TH












Understand operation of compressors, steam turbines, heat

exchangers and refrigeration machinery, properties of fuels.


4.1.1 Basic construction, operation principles Thermodynamics, (marine diesel engine)

4.1.2 Marine Steam Turbine.

4.1.6 Air compressor, refrigeration & air conditioning system

4.1.9 Characteristics of fuel oil.

5. UNITS


1 Fuels & Combustion Equations CP 01 CSs

17 Hrs


end exam on these units. 2 Gaseous fuels

3 Introduction to Psychrometry

4 Steam Nozzles CP 02 CSs

17 Hrs


end exam on these units. 5 Steam turbines

6 Reciprocating Compressors CP 03 CSs

17 Hrs


end exam on these units. 7 Refrigeration

8 Transmission of Heat CP 04 CSs

17 Hrs


end exam on these units. 9 Heat transfer from fluids to fluids



1

Fuels & Combustion Equations: Definition of Fuel, Classification of fuels, Description of Natural & Artificial,Solid, Liquid fuels. Advantages & disadvantages of various fuels. Calorific Value, combustion, Combustion Equation, Analysis of the Products of Combustion, Stoichiometric air required for complete combustion, Actual combustion, Excess Air, Conversion of mass basis analysis to volume basis,volume basis to mass basis. Book T1 chapter11: 11.1,11.2,11.4 to 11.11 with numerical problems ( Calorimeters,Orsat apparatus & their numericals are excluded ) Chapter12 : 12.1 to 12.16 with numerical problems.Applied problems on Stochiometric air and excess air,Conversion of mass basis analysis to volume & volume basis to mass . Marine fuel grades of HFO (MFO), Marine Distillate fuel oil (MDO), Familiarisation with ISO 8217 : Grades of Marine Distillate & Residual fuels & introduction to properties of fuel.

CP 01

2 Gaseous fuels LPG, LNG: Propane, Butane & methane content, advantages of gaseous fuels over Petrol & Diesel/HFO for pollution control.

3 Introduction to Psychrometry : Properties of Mixture of Air and Water vapour, Adiabatic Saturation & Wet bulb Temperature, Specific humidity & Relative formulae, Psychometric Chart, Degree of saturation Book T1 Chapter37:37.1 to 37.7 (No numerical problems) . Brief Construction of Cooling Tower & Condenser (Description only, No numerical problems) Book T1 Chapter 20: 20.11 to 20.14, 20.27, and 20,28.

4 Steam Nozzles:

Applications of Nozzle, Types of Nozzles, and General flow Analysis, critical pressure ratio, velocity of sound, Mach Number. One dimensional Isentropic flow, Property relations for isentropic flow of Ideal Gases, Nozzle coefficients, steam Nozzles, condition for maximum discharge, Maximum mass flow or chocked flow, Effect of friction on nozzle efficiency, Supersaturation .No derivations, Formulae & Theory only No Numerical Problems Book: T1 Chapter 21: 21.1 to 21.13.

CP 02

5 Steam turbines: Principles of Impulse and Reaction Turbines Introduction, Principle of steam turbine, Advantages of steam turbine, Classification of steam turbines, Applications, The Impulse principle, Simple Impulse turbine, Velocity Diagrams for Impulse turbine, Work done on the blade, The combination of inlet and exit velocity triangle, the effect of friction, Optimum operating condition for maximum efficiency, Compounded Impulse turbines, Velocity compounded, Pressure compounded impulse turbine, Pressure-Velocity compounded Impulse turbine, Axial thrust in Impulse turbine, the reaction principle, Axial thrust in reaction turbine, Analysis of reaction turbine, Degree of reaction, condition for maximum efficiency, comparison of Impulse & reaction turbine. Theory only No Numerical Problems. Book: T1 Chapter 22: 22.1 to 22.11, Chapter 23:23.1 to 23.8.

6

Reciprocating Compressors: Introduction, The Reciprocating air Compressor, Mechanical details, Single Stage Compressor, Clearance and Clearance volume, Equation of work, Volumetric Efficiency, Multistage Reciprocating air Compressor, two stage air Compressor, Arrangement for Multistage Compression, Intercooler, Air Motors, Rotary positive Displacement types of compressors. (Description of Roots blower & Rotary vane compressor) Applied Problems on single and two stage air compressors with perfect intercooling Book: T1 Chapter 28 : 28.1 to 28.16, Chapter 29 :29.1 to 29.5 Theory only, no numerical problems. Chapter 30 : 30.1 to 30.4, Chapter 31: 31.1 to 31.3, formula only ,no numericals.)

CP 03

7 REFRIGERATION: Introduction, Applications of Refrigeration, Some useful terms, Reversed Carnot refrigerator, Practicability of Carnot refrigerator, Vapour Compression refrigeration, Wet and dry Compression, The pressure –Enthalpy diagram, Factors affecting the efficiency of vapor Compression refrigeration cycle. Applied problems on wet, dry and superheated compression and subcooling. Book: T1 Chapter 35 : 35.1 to 35.5, 35.8.Chapter 36 : 36.1, 36.3 to 36.10, 36.16

8

Transmission of Heat: Modes of Heat Transfer, Fourier's Law of Heat conduction, Thermal conductivity of materials, Concept of thermal resistance. Conduction Heat conduction through plane and composite walls, thermal contact resistance, Overall heat transfer coefficient, Heat conduction through hollow and composite cylinders, Heat conduction through hollow and composite sphere Applied problems on the above topics. Book:T1 Chapter 34 complete Radiation (Introduction , no numerical problems ): Introduction, surface emission properties, absorptivity, reflectivity and transmissivity, concept of a black body, Stefan –Boltzman law, Kirchoff’s law, Plank’s Law, Wien’s Displacement law. Book:T2 Chapters 11: 11.1 to 11.8.

CP 04

9 Convection and Heat Exchangers: Newton’s law of cooling, Only use of Non-Dimensional Groups. Physical significance of dimensionless numbers Nusselt No., Reynolds No., Prandtl No., Grashoffs No, Graetz No Book:T2Chapter 6.8. Natural Convection.(Introduction). Book:T2 Chapter 8.1 Heat exchangers, types of heat exchangers, heat exchanger analysis, Concept of LMTD. LMTD for parallel & counter flow heat exchangers (No derivation, only formula, no numerical problems. ) Book: T2 Chapter10 10.1 to 10.4.



Title Author

Edition Year

ISBN Publisher




T11026–TB1 Thermal Engineering Edition 2010

Khurmi, Gupta

2010 81-219-2573-8 15TH

S Chand

T11026–TB2 Heat and Mass Transfer 2004 81-219-1777-8 S Chand

T11026–TB3

T11026–TB4


T11026–RB1 Thermal Engineering Domkundwar

2003 DhanpatRai &Sons

T11026–RB2 Thermal Engineering P.L. Ballaney

2002 81-7409-031-2 Khanna Publishers

T11026–RB3 ISO 8217-2010 Class F : Petroleum products Specifications of Marine Fuels. ISO Standard

2010 International Standards Organisation.

T11026–RB4 Basic Engineering Thermodynamics Rayner. Joel

1996 5th Edition

981-235-835-8 Addison Wesley Longman Ltd.

T11026–RB5 Model Code 7.04 draft I M O

2012 Ed I M O


T11026-CD1


T11026-WL1


T11027- Electronics Lab





4 Level UG

5 Course Used in T61: B.Tech. (Marine Engineering)


01 V61 T11027 Electronics Lab. 2 68 60 50 PR












1. Understand the characteristics of electronic components and circuits.





7.0 Maintenance & repair of electrical and electronic equipment.



1 To study different instruments used in Electronics Laboratory.

68 Hrs

2 To study the half wave and full wave rectification circuit without and with filter circuit.

3 To study the V-I characteristics of a semi conductor diode.

4 To study of V-I characteristic of a zener diode.

5 To study the characteristics of Bipolar Junction Transistor.

6 To study the V-I characteristic of Field Effect Transistor.

7 To study the characteristics of Silicon Controlled Rectifier.

8 To study the Transistor Bias stability.

9 To study the Transistor Feed Back Amplifier.

10 To study the operational Amplifier applications.

11 To study the operational Amplifier Differentiator.

12 To study the operational Amplifier Integrator.

13 To study the Logic gates.

14 To study JK FF, T FF & D FF.

15 To design synchronous/asynchronous counter.



Title Author

Edition Year

ISBN Publisher







T11027–TB2 Electronic Devices and circuits I A.P.Godse U.A.Bakshi



Digital Electronics N.G. Palan

Thoroughly revised edition

Tech-Max Publications, Pune


T11027–RB1 Electronic Devices and Circuits

2002 81-203-0124-2 ELSB Publications

T11027–RB2 Operational Amplifier Ramakant Gaikwad

2003

T11027–RB3

T11027–RB4


T11027-CD1


T11027-WL1


T11028- HEAT Engine Lab.





4 Level UG



01 V61 T11028 Electronics Lab. 2 34 60 50 PR











Studied Applied Thermodynamics I & II :T0XX0 16 & T0XX0

26

3. Studied Mechanics of Fluids.


1. The properties of fuel oil. 2. The properties of lubricating oil. 3. Heat balance of Diesel Engine.


4.1.1 Basic construction, operation principles Thermodynamics, (marine diesel engine)

4.1.2 Marine Steam Turbine.

4.1.6 Air compressor, refrigeration & air conditioning system, heat exchanger

4.1.9 Fluid flow & Characteristics of fuel oil, lubricating oil..



1 To determine coefficient of discharge and the Constant of Venturimeter

69 Hrs

2 To determine the co-efficient of velocity, Co-efficient of Contraction and Co-efficient of discharge of water through the various orifices.

3 To determine coefficient of friction for water flow through various pipes

4 To determine coefficient of discharge for water flow through notches.

5 To determine GM (Metacentric height) of a floating body.

6 To determine Heat balance of Diesel Engine.

7 To determine heat transfer rate through fin by natural convection.

8 To determine heat transfer rate through fin by forced convection..

9 To determine the viscosity of Lube oil sample using Saybolt viscometer.

10 To determine the flash point & fire point fuel oil using Ables apparatus.

11 To determine volumetric, isothermal and overall efficiency at various delivery pressures of a two-stage reciprocating air compressor



Title Author

Edition Year

ISBN Publisher




T11028–TB1

T11028–TB2


T11028–RB1

T11028–RB2

T11028–RB3

T11028–RB4


T11028-CD1


T11028-WL1


Semester 03 T11031- Electronics –II





4 Level UG



01 V61 T11031 Electronics-II 4 68 120 100 TH












1. Identify different components and understand their functions.

2. Understand the basics of Computer and Networking 3. Understand the working of various communication

Systems





5. UNITS


1 Regulated Power Suppliers CP 01 CSs

17 Hrs


end exam on these units. 2 Communication

3 Convertors (A-D and D-A) CP 02 CSs

17 Hrs


end exam on these units. 4 Introduction to Microcontrollers

5 Computer Fundamentals CP 03 CSs

17 Hrs


end exam on these units. 6 Programming Concepts

7 Computer Networks Fundamentals CP 04 CSs

17 Hrs


end exam on these units. 8 Operating System Fundamentals



1

Regulated Power Suppliers: Voltage regulators , factors affecting the load voltage , power supply performance parameters, basic voltage regulator, types of voltage regulators, 3 terminal IC Regulators , Block diagram of basic three terminal IC regulator, IC series of three terminal Regulators, 3 terminal adjustable regulator:LM 317, SMPS, UPS. Text Book: T1

CP 01 2 Communication : Need of Modulation, type of Modulation, Radio Transmitters and Receivers, Television systems, Radar

system ,Satellite Communications System, Digital Communication Text Book: T1,R3,R7

3 Converters (A-D and D-A): Introduction, Digital-to-Analog Converters, Analog to Digital Converters.

Reference Book: T2

CP 02 4 Introduction to Microcontrollers: microcontroller basics- introduction, Frequently used terms, notations,

microcontroller components- processor architecture, memory, I/O interfacing, interrupts, instruction set, timers, counters, other features. Text Book: R4,R8,R9,T7

5 Computer Fundamentals: Introduction to Computers,

Characteristics of Computers, Block diagram of computer, Types of computers and features- Mini Computers, Micro Computers , Mainframe Computers, Super Computers Data Organization-Drives, Files, Directories, Types of Memory (Primary And Secondary)- RAM, ROM, PROM, EPROM, Secondary Storage Devices ( FD, CD, HD, Pen drive ),I/O Devices. Text Book: T3,T4

CP 03 6 Programming Concepts: Algorithm-Definition, Characteristics, Advantages and disadvantages, Examples. Flowchart-

Definition, Define symbols of flowchart, Advantages and disadvantages, Examples, Types of Programming Languages- Machine Languages Assembly Languages, High Level Languages Text Book: T3,T4

7 Computer Networks Fundamentals: Definition of Computer network, Client-Server Model, Applications of Computer

Network, Network Hardware-LAN, WAN, MAN, Introduction of Internet-E-mail, HTTP, Webpage, URL. Text Book: T5

CP 04

8 Operating System Fundamentals: What is an operating system, different services of the operating system, kernel, booting, multitasking, security threats, attacks on security, Computer Worms, Computer Virus. Text Book: T6


Title Author

Edition Year

ISBN Publisher







T11031–TB2 Modern digital electronics R.P. Jain

3rd edition Tata Mc Grall-Hill publishing company Ltd. New Delhi

T11031–TB3 Fundamental of Computers V. Rajaraman

2003 B.P.B. Publications

T11031–TB4 Fundamental of Computers P. K. Sinha

2004

T11031–TB5 Computer Networks Tannenbum

2003 Tata McGraw Hill Publication

T11031–TB6 Operating Systems Achyut Godbole

2004

T11031–TB7 The 8051 Microcontroller Kenneth J. Ayala

Cengage Learning


T11031–RB1 Electronic Principles Malvino

2004 TMH Publication

T11031–RB2 Instrumentation Rangan , Amni , Sharma

2005 PHI

T11031–RB3 Principles of Electronics Revised


V.K. Mehta edition in two colors

T11031–RB4 The 8051 Microcontroller and Embedded Systems using Assembly and C Muhammas Mazidi, Janice Mazidi and Rolin McKinlay

2nd edition Pearson Education

T11031–RB5 Telecommunication Engineering Rambhadran

Khanna Publishers

T11031–RB6 A Text Book of Applied Electronics R.S. Sedha

First edition 1990

S. Chand & Company Ltd. New Delhi

T11031–RB7 Applications of electronics R.D.Supekar

2000 Mayureshwar Prakashan

T11031–RB8 Microcontrollers Theory and Applications’ Ajay Deshmukh

TATA McGraw Hill

T11031–RB9 8051 Microcontrollers: An Applications Based Introduction

David Calcutt , Frederick Cowan , Hassan Parchizadeh

T11031–RB10 The Art of Electronics Horowitz Paul and Winfield Hill

Cambridge University


T11031-CD1


T11031-WL1

http://www.amazon.com/s/ref=ntt_athr_dp_sr_1?_encoding=UTF8&sort=relevancerank&search-alias=books&field-author=David%20Calcutt

http://www.amazon.com/s/ref=ntt_athr_dp_sr_2?_encoding=UTF8&sort=relevancerank&search-alias=books&field-author=Frederick%20Cowan

http://www.amazon.com/s/ref=ntt_athr_dp_sr_3?_encoding=UTF8&sort=relevancerank&search-alias=books&field-author=Hassan%20Parchizadeh


T11032- Mechanics of Machines





4 Level UG



01 V61 T11032 Mechanics of Machines 4 85 120 100 TH











Adequate Knowledge of T11013 & T11023


1. Understand different types of vibrations and their effects. 2. Understand the working of Gyroscope and gear train 3. Understand the importance of Balancing 4. Understand the functioning of cam and followers

Special Note: While teaching special care should be taken to correlate the concerned topic with the applications on merchant navy ships




5. UNITS


1 Gears And Gear Trains CP 01 CSs 22 Hrs

Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ and '1 of 2' LAQs in end exam on these units.

2 BALANCING

3 Mechanism & Machines CP 02 CSs 21 Hrs


4 Inertia Forces In Reciprocating Parts

5 Turning Moment Diagrms & Flywheel

6 Vibrations CP 03 CSs 21 Hrs


7 Torsional Vibrations

8 Cams & Folllowers

9 Transverse Vibrations Of Beam CP 04 CSs 21 Hrs


10 Damped Vibrations

11 Gyroscope



1

GEARS AND GEAR TRAINS: - Toothed Gearing : Introduction, Classification of gears, Gear terminology, Fundamental law of gearing, Velocity of sliding of teeth, Forms of teeth - Cycloidal profile teeth and Involute profile teeth, Effect of center distance variation on the velocity ratio, Comparison between involute and cycloidal gears, Systems of gear teeth, Length of path of contact, Length of arc of contact ,Contact ratio, Interference in involute gears, Methods to avoid interference in involute gears,Minimum number of teeth on wheel and pinion in order to avoid interference, Interference between rack and pinion, Undercutting Introduction to: - Bevel gear, Helical Gear, Worm and warm wheel, Rack and pinion, Spiral gears. Introduction to the application of all these gears with relevance to the merchant navy ships. Gear Trains: Type of gear trains: - Simple gear trains, Compound gear trains, Epicyclic gear trains, Reverted gear trains; Power transmission by gear trains on parallel shafts. Introduction to the application of all these gear trains with relevance to the merchant navy ships. (Applied problems on Epicyclic and Reverted gear trains.)

CP 01

2 BALANCING: - Introduction, Balancing of rotating masses: - Balancing of several masses rotating in the different planes, Balancing of reciprocating masses: - Static and Dynamic balancing, Primary and Secondary Unbalanced forces of Reciprocating masses, Partial balancing of Unbalancing Primary force in a reciprocating engine. Effect of partial balancing of reciprocating parts of two-cylinder locomotive. Necessity of balancing of rotating and reciprocating masses as applied to the merchant navy ships. (Applied problems on Balancing of several masses in different planes and Problems On Balancing of reciprocating masses for two cylinder locomotive)

3

MECHANISM & MACHINES : Definition of link, kinematic pair, kinematic chain, mechanism, machine, structure, inversion, inversions of single slider crank chain, double slider crank chain and four bar chain, Degrees of freedom.

CP 02 4 INERTIA FORCES IN RECIPROCATING PARTS: Forces on the reciprocating parts of an engine neglecting the weight of the connecting rod (Analytical method only).

5 TURNING MOMENT DIAGRMS & FLYWHEEL Turning Moment diagrams, Turning Moment diagrams for (a) Single Cylinder Double Acting Steam engine (b) Single Cylinder Four- Stroke engine (c) Multi-cylinder engine, Fluctuation of energy, determination of maximum fluctuation of energy, Coefficient of fluctuation of energy, Function of a flywheel, Coefficient of fluctuation of speed, Energy stored in a flywheel rim, Dimensions of a flywheel rim, applications of flywheel as applied to the merchant navy ships.

6 VIBRATIONS: -

Vibration Mechanism, Causes of Vibrations, Effect of Vibrations, source and effects of shipboard vibrations, types of vibratory motions, types of free vibrations

CP 03

7 TORSIONAL VIBRATIONS: - Natural frequency of Torsional vibration, Single rotor system, Rotor at the end, Rotor in the middle, Effect of Inertia of shaft, Two rotor system, Three rotor system, torsionally equivalent shafts, causes and effects of torsional vibrations as applied to the merchant navy ships. (Applied problems on Two Rotor system)

8 CAMS & FOLLOWERS: Introduction, Types of Cams and Followers, Terms used in radial cams, Cam pressure angle, Displacement, Velocity and Acceleration – Time curves, Specified Motion of the Followers – (a) Uniform Velocity (b) Simple Harmonic motion (c) Uniform acceleration and retardation, and (d) Cycloidal motion, Graphical Layout of Cam Profiles for a radial cam – (a) Cams (radial and offset cases) with reciprocating (i) Knife edged follower (ii) Roller follower (iii) Flat faced follower (b) Radial cams with oscillating roller follower. Application of cam and followers on the merchant navy ships.

9 TRANSVERSE VIBRATION OF BEAM: -

Natural frequency of Transverse vibration, Single concentrated load, Energy method for several concentrated load, Dunkerley’s empirical method for several Concentrated load. Whirling speed (Critical speed) of shafts. Effects of variation in the critical speed as applied to the merchant navy ships. (Problems on Energy method, Dunkerley’s method and Critical speed of shaft)

CP 04 10 DAMPED VIBRATIONS: -

Introduction to: - Viscous damping, Colomb damping, Solid damping, interfacial damping, free vibrations with Viscous damping, Over damped system, Critically damped system, Under damped system. Causes and effects of damped vibrations as applied to the merchant navy ships.

11 GYROSCOPE: - Gyroscopic couple, Vector representation of torque and angular Momentum, steady rectangular precession, vector treatment; Steady Conical precession; Motion involving steady precession; Application of Ship's stabilization. (Applied problems on merchant navy ships only)



Title Author

Edition Year

ISBN Publisher




T11032–TB1 Theory of Machine, S.S. Rattan

2002 0-07-460320-5 Tata McGRAW HILL

T11032–TB2 Theory of Machine R.S.KHURAMI & J.K.GUPTA

2004 S. CHAND

T11032–TB3


T11032–RB1 Mechanical Vibrations G.K.Grover

SIXTH 1996 NEM CHAND & BROTHERS ROORKEE (U.P.)

T11032–RB2 Theorey Of Machines & Mechanism J.E.Shigley

Tata McGRAW HILL

T11032–RB3 Theorey Of Machines Thomas Beven

CBS PUB.

T11032–RB4 Mechanics Of Machines John Hannah & R.C.Stephan

EDWARD ARNOLD


T11032-CD1


T11032-WL1


T11033- Mechanics of Materials-I





4 Level UG



01 V61 T11033 Mechanics of materials-I 4 85 120 100 TH











Having

completed course on Enggineering Mechanics.T110013


1. Workout different types of stresses inn different structural members.

2. Draw SFD ,BMD and stress Diagrams




5. UNITS


1 Simple stress and strains CP 01 CSs

22 Hrs


end exam on these units. 2 Strain energy in simples stresses

3 Shear force and bending moment CP 02 CSs

21 Hrs



4 Thin walled shells CP 03 CSs

21 Hrs


end exam on these units. 5 Bending stress

6 Shear stress CP 04 CSs

21 Hrs


end exam on these units. 7 Torsion stress


1

Simple stress and strain Introduction-Definition; stress strain; tensile and compressive stresses-shear stress- Elastic limit- Hooke’s law-Poisson’s ratio-modulus of Elasticity- modulus of Rigidity; Bulk modulus-Temperature stresses- Relation between the elastic constants- Volumetric strain.


2 Strain Energy in simple stresses Strain Energy-Elastic, plastic and rigid members-Stresses due to different types of axial loading- Gradually applied loads-suddenly applied loads- Impact loads.

CP 01

3 Shear force and Bending moment

Definitions – Cantilevers, simply supported beam, - Conception of Shear Force and Bending Moment –Sign conventions-Shear Force and Bending Moment diagrams for cantilevers, beams

CP 02

4 Thin walled shells:

Thin cylinders-Circumferential and longitudinal stresses. CP 03 5 Bending stress:

Definition-Pure or simple bending-Theory of simple bending-Neutral layer-Neutral axis- Bending stress distribution-Moment of resistance-Assumptions in the theory of simple bending-Section modulus.

6 Shear Stress:

Pure torsion-Theory of pure torsion-Torsional moment of resistance-Assumptions in the theory of pure torsion-Polar modulus-Power transmitted by a shaft. Torsion of keys and coupling.

CP 04

7 Torsion stress: Shear and Torsional resilience-Close coil helical springs.

Syllabus not included-Chapter1-$9-10 $12,problem98-115, Chapter2-problem135-147, chapter4-$38-39, chapter16-

$177-181,$183, chapter12-$129,$132-134, chapter5-problem280-349,$57;chapter9-problem634-652,$102-105,$107.


Title Author

Edition Year

ISBN Publisher




T11033–TB1 Strength of Materials S Ramamrutham

15th Edition Dhanpat Rai Publishing Co.

T11032–TB2 Strength of Materials Ryder

2002 0333-93536-5 Mc Graw Hill

T11033–TB3


T11033–RB1 Strength of Materials R S Khurmi

22nd Edition S Chand & Co.

T11033–RB2 Strength of Materials Beer & Johnston

Prentice Hall

T11033–RB3

T11033–RB4


T11033-CD1


T11033-WL1


T11034- Electrical Machines -II





4 Level UG



01 V61 T11034 Electrical Machines -II 4 68 120 100 TH












1. Understand the working and parallel operation of alternators. 2. Understand the principle and applications of Induction motors.



6.1 Basic configuration and operation of Electrical equipment


6.1.1a Generator and distribution system

6.1.1b Preparing, starting, Paralleling and changing over of generators.

6.1.1c Electrical motors including starting methodologies.

7.5 Function and performance tests of the equipments

5. UNITS


1 Construction of alternators.

CP 01 CSs

17 Hrs



2 E.M.F. equation of alternators.

3 Characteristics of alternators.

4 Parallel operation of alternators.

5 Rotating magnetic field.

CP 02 CSs

17 Hrs



6 Three phase synchronous motors.

7 Methods of starting synchronous motor.

8 Merits and limits of synchronous motors.


9 Principle and theory of 3 phase induction motors.

CP 03 CSs

17 Hrs



10 Equivalent circuit of induction motors.

11 Characteristics of induction motor.

12 Speed control of induction motor.

13 Starting of 3 phase induction motors. CP 04 CSs

17 Hrs



14 Testing of 3 phase induction motors.

15 Single-phase induction motors


1

Construction of three - phase Alternators: General arrangement of alternators, construction of salient pole and smooth cylindrical type alternators; applications, advantages of stationary armature, types of stator windings (short pitch/full pitch, concentric/distributed), pitch factor, distribution factor, simple problems.

CP 01

2 E.M.F. equation: Working principle, E.M.F. equation, frequency and simple problems.

3 Characteristics of three - phase alternators: Alternator on Load, Armature reaction, effect of armature reaction on different load, phasor diagram, voltage regulation, Direct loading method for finding regulation , synchronous impedance method for finding regulation, simple problems.

4 Parallel operation of three - phase alternators: Parallel operation of alternators, importance, necessary conditions, methods of synchronizing

(Three dark lamp method, one dark and two equally bright lamp method, synchroscope), synchronizing power, power triangle, load sharing, factors affecting load sharing (effect of change in excitation, effect of change in steam supply), simple problems.

5 Rotating magnetic field:

Production of rotating magnetic field in 3-phase synchronous motor, reversal of its direction.

CP 02 6 Three phase synchronous motors: Principle of operation of 3 phase synchronous motor, phasor diagram at no load and on load, effect of change in excitation on armature current and p.f.( 'V' curves and inverted 'V' curves.), simple problems.

7 Methods of starting three - phase synchronous motor: Methods of starting (Damper winding, pony motor, DC motor), hunting, methods of reducing hunting, synchronous motor as synchronous condenser; simple numerical problems.

8 Merits and de-merits of three - phase synchronous motor: Merits and de-merits of synchronous motor over 3 phase induction motors.

9 Principle and theory of three - phase induction motors:

Construction of 3-phase induction motor (squirrel cage and slip- ring type), working principle, slip, rotor frequency, rotor emf, rotor current, simple problems.

CP 03 10 Equivalent circuit: Equivalent circuit of induction motors

11 Characteristics of three - phase induction motors: Starting torque, condition for maximum starting torque, running torque, condition for maximum running torque, torque/ slip characteristic.

12 Speed control of 3-phase induction motors: Speed control of 3-phase induction motors (By changing frequency, number of poles, rotor resistance control).

13

Starting of 3-phase induction motors: Starting of 3-phase induction motors, methods of starting (D.O.L., star/delta, reversing, full voltage autotransformer, primary resistor, rotor resistance starter).

CP 04 14 Testing of 3-phase induction motors: Testing of 3-phase induction motor, no load test, blocked rotor test, circle diagram, simple numerical problems.

15 1-phase induction motors: Construction, principle of working, methods of starting 1-phase induction motor (resistance split phase, capacitor split phase), applications.

Points not included in syllabus

From T1 –31.10; 32.5, 32.12; 33.8, 33.9; 34.7 to 34.9, 34.17; 35.5, 35.17, Chapter - 1 to 28; 36 to 52 From T2 – 26.1, 26.2, 26.27, 26.29; 27.3, 27.4, 27.6, 27.8, 27.13, 27.18, 27.19; 28.11, 28.14, 28.15; 29.16; 30.4, 30.5, 30.9 to 30.18, 30.25 to 30.27; 31.8, 31.9; 32.17, 32.33.


Chapter – 25, 33 to 39 From R2- 7.6 to 7.13; 12.5 to 12.9; 13.2 to 13.13, 13.15; 19.7 to 19.12, 19.15 to 19.20; 20.8. Chapter – 1 to 6, 8 to 11, 14 to 18, 21 to 26.


Title Author

Edition Year

ISBN Publisher




T11034–TB1 Principles of Electrical Engineering B. R. Gupta

3rd Edition 2001

S. Chand & Company

T11034–TB2 A textbook of Elect. Technology, vol – II B. L. Theraja

2002 81-219-1142-7 S. Chand & Com.

T11034–TB3


T11034–RB1 Electrical Machinery P.S.Bimbhra

2002 Khanna Publication

T11034–RB2 Principle of power system V. K. Mehta


T11034–RB3

T11034–RB4


T11034-CD1


T11034-WL1


T11035- Marine Machine Drawing





4 Level UG



01 V61 T11035 Marine Machine Drawing 4 102 120 100 TH











Having passed T11 025


1. Should be able to draw orthographic views of various machineries and their components

Special Note:


9.6 Interpretation of Machinery drawings and handbooks

5. UNITS


1 Machinery Component Drawing

CP 01 CSs

25 Hrs



2 Auxiliary Engine Drawing

CP 02 CSs

25 Hrs



3 Marine Component Drawing CP 03 CSs

25 Hrs



4 Main Engine & propulsion system Drawing

CP 04 CSs

27 Hrs




01

Machinery Component Drawing: Dimensioning and Geometrical tolerance, Introduction of assembly drawing, Drawing of complete machine component in assembly with details like 4 stroke Piston assembly, connecting rod with bearings, Boiler feed Check Valve & Boiler Stop valve, High lift safety valve (Boiler mountings).

CP 01


02 Auxiliary Engine Drawing: Assembly Drawings of simple marine components in Orthographic projection from Isometric views e.g. Bilge Strainer Boxes, Marine Diesel Pistons 4 stroke types, Cylinder Relief Valve, Fuel Control lever, Oil Fuel Strainer

CP 02

03

Marine Component Drawing : Marine machinery components as Starting Air valve, Automatic Air stop valve, Cross-Head & Guide Shoes dismantled; to be conceptualized in assembly and laid out as working & functional parts. Sectional views in elevation & plans executed. Part sectional views depiction.

CP 03

04 Main Engine & propulsion system Drawing: Marine engine components dismantled, Assembled drawing of pistons,

connecting rods & bearings, crossheads, Rudder carrier bearing, starting valves, stern tube & Tail shaft, and all equipment with main machinery. Sectional / outside and plan views of parts fitted / removed & in functional order.

CP 04


Title Author

Edition Year

ISBN Publisher




T11035–TB1 P. S. Gill, Machine Drawing Included : Chapter Nos. 20 (Fig No: 20.11 & 20.16 ), 23 (Fig No: 23.6 & 23.12) 24 (Fig No: 24.5 & 24.16) 28 (Fig No: 28.6) Excluded : 1 to19, 21,22,25,26,27,29.

2002 81-85749-79-5 S. K. Kataria & Sons

T11035–TB2 H. G. Beck Included : Pg. Nos. 22,23,111,94,95,147, 156, 52,53, 126,24,25,112, 30,31,115,28,29, 114,26,27,113, 36,37,118, 70,71,135, 66,67,133,54,55,127, 96,97,148. Excluded: Pg nos. 32 to35, 38 to 51, 56 to 65, 68 to 69, 72 to 93, 98 to 109, 116,117, 119 to 125, 128 to 132, 134 to135, 136 to 146, 149 to 154

2002 Thomas Reed Publication

T11035–TB3


T11035–RB1 Machine Drawing R. B. Gupta

Satya Prakashan

T11035–RB2 Mechanical Drawing French & Svensen

Mc Graw Hill

T11035–RB3

T11035–RB4


T11035-CD1


T11035-WL1


T11036- Ship Construction





4 Level UG



01 V61 T11036 Ship Construction 4 85 120 100 TH












1. Workout Hydrostatics calculations. 2. Workout transverse and longitudinal stability.

3. Understand Rudder and Propulsion theory.

Special Note:


11.2 Ship Construction

11.2.1 General knowledge of the principle structural members of a ship and the proper names for the various parts

5. UNITS


1 Ship Dimensions and Form. CP 01 CSs

21 Hrs


end exam on these units. 2 Ships Stresses

3 Hull Structure CP 02 CSs

21 Hrs


end exam on these units. 4 Bow and Stern

5 Fittings CP 03 CSs

21 Hrs



6 Rudders and Propellers CP 04 CSs

22 Hrs


end exam on these units. 7 Load Lines and Draught



1

SHIP DIMENSIONS AND FORM:- General arrangement of the following ship types: General Cargo, Tankers, Bulk Carriers, Combination carriers, Container, RO-RO, Passenger. Elevation of a general cargo ship, showing holds, engine-room, peak tanks, double bottom tanks, hatchway, twin deck and position of bulkheads. Elevation of a typical crude oil carrier, showing bulkheads, cofferdams, pump-room, engine-room, bunker and peak tanks, cargo tanks, slop tank and permanent ballast tanks. A plan view of a tanker, showing the arrangement of cargo and ballast tanks. Definitions and Illustrations: Camber, Rise of floor, Tumblehome, Flare, Sheer, Rake, Parallel middle body, Entrance, Run. Defines: Forward perpendicular (FP), After perpendicular (AP), Length between perpendiculars (LBP), Length on the waterline (LWL), Length overall (LOA), Base line, Moulded depth, beam and draught, Extreme depth, beam and draught.

CP 01

2 SHIP STRESSES:- Qualitative terms for shear force and bending moments, Define Hogging and Sagging and distinctions between them, The loading conditions for hogging and sagging stresses, Hogging and sagging stresses and the sea state, Hogging and sagging stresses result in tensile or compressive forces in the deck and bottom structure, Water pressure loads on ships hull, Liquid pressure loading on the tank structures, Calculations of the pressure at any depth below the liquid surface, given the density of the liquid, The stresses set up by liquid surface, given the density of the liquid, The stresses set up by liquid sloshing in a partly filled tank, Racking stress and its causes, Panting and part of the ship affected, Pounding or Slamming and part of the ship affected, Stresses caused by localized loading, Understanding of modern methods of determining the effects of different loading and ballasting on the ship’s structure, Ability to use one of the modern mechanical or electrical aids for determining stresses, The input and output data from stress calculations machines and stress tables< the purpose of a shipboard stress finding system, including details of input data and the output obtained, Output data from ship stress finding system, Torsion stress with reference to container ship loading, Analysis of the stress areas created by bending moments and shearing forces derived by a stress indicator, Analysis of the causes and effects of shearing forces and bending moments on ship’s structures, Bending moment as the difference between moment for buoyancy and moment of weight, Definition shearing forces in terms of the difference between buoyancy and weight, Extracts of information from shear force and bending moment diagrams, Description of constructional features which compensate for stress, Corrosion description, Causes of corrosion onboard and various methods used to minimize the effect of corrosion.

3 HULL STRUCTURE:-

Identification of structural components on ships plans and drawings, Frames, Floors, Transverse frames, Deck Beams, Knees, Brackets, Shell plating, Decks, Tank tops, Stringers, Bulk Heads and Stiffeners, Pillars, Hatch girders and beams, Coamings, Bulwarks, Bow and stern framings, Cant beams, Breast hooks, Types of materials used in the construction of the ship, Description and illustration of standard steel sections like flat plate, Offset bulb plate, Equal angle, Unequal angle, Channel ,Tee, Sketches and description of the longitudinal , transverse and combined systems of framing, The arrangement of frames ,Webs and transverse members of each system, Double-bottom structure for longitudinal and transverse framing, Hold drainage systems and related structure, Duct keel, The deck edge , Sheer Strake and stringer plate, Radiused sheer strake and attached structure, Stress concentration in hatch openings, Compensation for loss of strength at hatch openings, Transverse section through a hatch coaming, Hatch cover plane view, Deck freeing arrangements, Scuppers, Freeing ports, Open rails, The connection of super structures to the hull at ships side, plane bulk head, showing connections to deck, sides and double bottom and arrangement of stiffeners, Corrugated bulkhead, Why transverse bulkheads have vertical corrugations and fore-and-aft bulk heads have horizontal ones, Bilge keels and its attachments to ships side.

CP 02

4 BOW AND STERN:- The provisions of additional structural strength to withstand pounding and panting, Function of the Stern frame, Sketches of a stern frame for a single-screw ship, Construction of a transom stern showing the connections to the stern frame.

5 FITTINGS:-

Modern weather-deck mechanical steel hatches, Water tightness at the coamings and cross joints, Cleating arrangements for the hatch covers, portable beams, Wooden hatch covers and tarpaulins, Oil tight hatch cover, Roller, Multi-angle, pedestal and panama fairleads, Mooring bits showing their attachment to the deck, Forecastle mooring and anchoring arrangements showing the leads of mooring, Construction and attachment to the deck of tension winches and their use, Anchor handling arrangements, Construction of chain lockers and bitter ends in the lockers, How to secure anchor and make spurling pipes water tight in preparation for a sea passage, Construction and use of a cable stopper, Construction of masts and Sampson posts and their support at the base, Construction of derricks and deck cranes, Bilge piping system of a cargo ship, Each section fitted with a screw down non-return suction valve, Bilge strum box, Ballast system in a cargo ship, Arrangement of a fire main and types of pumps used in it, Sounding pipes arrangements, Fitting of air pipes to ballast and F.O. tanks, Arrangements of fittings and lashings for the carriage of containers on deck.

CP 03


6

RUDDERS AND PROPELLERS:- Action of the rudder in steering the ship, Modern rudders like semi-balanced, balanced and spade, Rudder carrier and pintles, Rudder trunk, Watertight gland around the rudder stock, Principle of screw propulsion, Propeller and definitions with respect to boss, rake, skew, face, back, tip, radius and pitch, Fixed pitch and controllable pitch propellers, Oil lubricated stern tube and tail shaft, Propeller attachment to tail shaft, Cross-section of a shaft tunnel for water cooled and oil cooled type, Shaft tunnel of water tight construction with respect to engine room.

CP 04

7 LOAD LINES AND DRAUGHT MARKS:- Deck line marking, Freeboard-definition and assignment, Drawing to scale of the load line mark and the load lines given summer moulded draught displacement and tones per centimeter immersion in salt water, Use of chart of zones, areas and seasonal periods to find the applicable load line, Draughts mark details, The freeboard measurement on each side for checking permitted limits of loading.


Title Author

Edition Year

ISBN Publisher




T11036–TB1 Merchant Ship Construction D.A Taylor

4th Edition 0-408-01535-7 Institute of Marine Engineers 1998

T11036–TB2

T11036–TB3


T11036–RB1 Theory of Naval Architecture A.M. Robb

1st Edition Charles Griffin & Co.

T11036–RB2

T11036–RB3

T11036–RB4


T11036-CD1


T11036-WL1


T11037- Material Science Lab





4 Level UG



01 V61 T11037 Material Science Lab 2 34 60 50 PR












1. Test different materials subjected to various stresses.


8.1 Characteristics and limitations of materials used in construction and repair of ships and equipments

8.2 Characteristics and limitations of processes used for fabrication and repair

8.3 Properties and parameters considered in the fabrication and repair of systems and components

9.5 Design characteristics and selection of materials in construction of equipments.



1 Find out percentage elongation, for the given specimen. Also draw stress strain curve for the same.

70 Hrs

2 Find out percentage reduction, for the given specimen. Also draw stress strain curve for the same.

3 Find out UTS for the given specimen. Also draw stress strain curve for the same.

4 Find out the breaking stress for the given specimen. Also draw stress strain curve for the same.

5 Find out the compressive strength of a given specimen. State its L/D ratio and comment on the fracture.

6 Find out the compressive strength of a given specimen. State its L/D ratio and comment.

7 Find out the compressive strength of a given specimen. State its L/D ratio and comment on the fracture.

8 Find out the impact Strength of a metallic specimen supplied to you by izod impact test.

9 Show how the cracks are visible by Ultrasonic Test. Give its principle and comments on result.

10 Show how the cracks are visible by Dye Penetrate Test. Give its principle and comments on the result

11 Find out the hardness of the given metallic specimen on Rockwell Hardness Tester. Comment on the result..

12 Find out the hardness of the given metallic specimen on Brinell Hardness Tester. Give your comments on the result.

13 Show how the cracks are visible by Magnetic Particle Test. Give its principle and comments on the result.

14 Perform the Bend Test on the given sample and find out the bending strength.

15 Find out the impact Strength of a metallic specimen supplied to you by Charpy Impact Test


16 Find out shear strength of material on UTM machine.


Title Author

Edition Year

ISBN Publisher




T11037–TB1 Gholap Kulakarni Vol I, II

T11037–TB2


T11037–RB1

T11037–RB2

T11037–RB3

T11037–RB4


T11037-CD1


T11037-WL1


T11038- Electrical Machines Lab





4 Level UG



01 V61 T11037 Electrical Machines Lab 2 68 60 50 PR












1. Understand the characteristics of motors, generators, transformers and rectifier


6.1 Basic configuration and operation principles


6.1.1.a Generator and distribution systems


7.1 Maintenance and repair of electrical and electronic equipment.



1 To determine the Phase Sequence of given three phase supply.

68 Hrs

2 Determination of regulation of 3-phase alternator by synchronous impedance method.

3 Parallel operation of 3 - phase Alternator.

4 Study of ‘V’ curves and inverted ‘V’ curves of 3-phase synchronous motor.

5 To study the slip-torque characteristics of 3 phase Induction motor and find out the full load slip.

6 To compute full load current, p.f., slip, torque, input, output, and efficiency of 3 phase Induction motor from circle diagram.

7 To study the slip-torque characteristics of 1- phase Induction motor by brake test. Parallel operation of 1- phase transformer.

8 Study of different transformer connections.

9 Observation of waveform of magnetizing current

10 Study of synchro Transmitter- Receiver

11 Study of 1 - phase controller.

12 To perform load test on 6 pulse- 2-way bridge rectifier and to obtain the characteristics curves

13 Study of Transformer differential relay.

14 To study the dismantled parts of DC machines.


15 To study the dismantled parts of AC machines.


Title Author

Edition Year

ISBN Publisher




T11038–TB1

T11038–TB2


T11038–RB1

T11038–RB2

T11038–RB3

T11038–RB4


T11038-CD1


T11038-WL1


Semester 04 T11041- Mechanics of Fluid





4 Level UG



01 V61 T11041 Mechanics of Fluids 4 68 120 100 TH












1. Understand effects of friction, viscosity on the motion of fluids.

2. Analyze the velocity, accln, of fluid motion. 4. Evaluate the forces on submerged bodies.

Special Note:


4.1.9 Fluid flow and characteristics of lubricating oil, fuel oil

5. UNITS


1 Properties of Fluids CP 01 CSs

17 Hrs


end exam on these units. 2 Type of fluids

3 Dimensional analysis

4 Fluid Static (Hydrostatics) CP 02 CSs

17 Hrs


end exam on these units. 5 Fluid Kinematics

6 Fluid Dynamics CP 03 CSs

17 Hrs


end exam on these units. 7 Flow through orifices

8 Flow through Pipes CP 04 CSs

17 Hrs


end exam on these units. 9 Laminar or Viscous (Parallel) Flow



1

Properties of fluids: Introduction, Definition of fluid (R1-1.1), Difference between fluid and non-fluids (R1-1.1 / T1-1.2), Definitions (fluid mechanics, fluid static, fluid kinetic, fluid kinematics, fluid dynamics), Scope of fluid mechanics (R2-1.3), Methods of analysis (Control-volume or integral (large-scale) analysis, Infinitesimal system or differential (small scale) analysis, Experimental study, or Dimensional analysis) (R2-1.5), Dimensions and Units. (T1-1.4) Fundamental concepts: fluid as continuum (R2-2.1), coordinate systems and coordinate transformation (R2-1.4), Definition of field –flow field, stress field (R2-2.3, R1-1.9), velocity field (R2-2.2), acceleration field etc. , System and Control Volume (R2-1.5.1, R1-1.6,1.7), Force and Moment (R1-1.8) , Rate of Strain (R1-1.10, R4-1.2). Thermodynamic properties (R3-1.6,): -Pressure (absolute, vacuum, atmosphere) (T1-2.1, 2.5, R1-1.11.2), temperature, density (spec. weight or wt. density, spec. volume, spec. gravity or relative density) (T1-1.2), Internal energy (R3-1.6), enthalpy (R3-1.6), entropy (R3-1.6), specific heats (R3-1.6), State relations for liquid and gas. (R3-1.6) Transport properties: Viscosity (dynamic, kinetic, apparent or effective) Newton’s law of viscosity, flow between parallel plates (laminar or turbulent), no slip condition and no temperature condition, comparison of Newton’s law of viscosity with Hooks law of elasticity for solids, Effect of temperature and pressure variation on viscosity. (R1-1.11.4, 1.11.5, R2-2.4, R3-1.7), Other Properties: Compressibility and Elasticity (for Isothermal, Isentropic, Polytropic process) (R1 1.11.7), Surface tension and Capillarity {Behaviors of liquid surfaces, examples of surface tension, Definition - surface tension, surface energy, relation between them, angle of contact, shape of liquid drop, capillary action surface tension on liquid bubble, droplet, jet and on general surface},(T1-1.11,R1-1.11.8) Vapour pressure (Vapour pressure curve) (R3-1.6,), Cavitation, Water Hammer (R2- 2.6.3).

CP 01

2 Type of fluids and their characteristics with typical examples: Newtonian, Non-Newtonian, Time Independent, Time Dependent and Elasto-viscous. (R1-1.13, R2-2.4.1&2.4.2, R4-1.4)

3 Dimensional analysis: Introduction, Dimensions, Dimensional Homogeneity, Methods of dimensional Analysis (Rayleigh

Method, Buckingham - Method, Dimensional matrix method), Use of dimensional analysis in presenting experiential

data, Similitude (Types of similarities), Force Ratios (Dimensional Numbers), Similarity Laws or Model Laws (T1-17.1 to 17.12).

4 Fluid Statics (Hydrostatics):

Static’s of fluid system (R3-2.1), Pascal’s law for pressure at a point (R3-2.3, R1`-2.1), For Incompressible static fluid: Variation of pressure vertically under gravity (R3-2.4), Basic equation for pressure variation (R3-2.4, 2.5, 2.6), Pressure and Head (R3-2.13), Hydrostatic paradox (R3-2.14), Measurement of pressure (all types of Manometers, Mechanical gauges)(T1-2.62.7, R1-2.6, 2.7, 2.8,2.9) Bourdon pressure guage,piezometer,barometer. Action of fluid pressure on submerged surfaces: (T1-3.1 to 3.5) Define total pressure and center of pressure, total pressure on submerged plane surface (Horizontal, Vertical, Inclined & Curved-R12.5), Virtually supported liquid, Imaginary free surface, Practical applications of total pressure and Center of pressure on Dams, Gates (Sluice, lock, tanter, sector cylindrical) and Tanks Buoyancy and Flotation: (T1 – 4.1 to 4.4-i) Buoyancy, Buoyancy force, Center of buoyancy, Metacentre and Metacentric Height, Stability conditions for floating (partly-submerged) and submerged bodies. Determination of Metacentric Height – Theoretical Method

CP 02

5 FLUID KINEMATICS: Fundamentals of fluid flow: Velocity (Motion) of Fluid Particle (T1-6.2, R4-4.8), Continuity of Flow (R4-4.12), Continuity Equations for Three-Dimensional Flow using Cartesian and Cylindrical Coordinates (T1-6.6), Acceleration of Fluid Particle (T1-6.7, R4-4.9), Types of Motion (T1-6.8) .

6 FLUID DYNAMICS:

Equations of Motion and Energy Equations(T1-7.1 to 7.15): Introduction, Forces acting on fluid in Motion, Euler’s Equation of Motion, Integration of Euler’s Equations, Bernoulli’s Equation Derived from the Principal of Conservation of energy, Kinetic energy correction factor. Pressure velocity relationship, Applications of Bernoulli’s Equation, Venturi Meter, Orifice Meter, Nozzle Meter or Flow Nozzle, Other Flow Measuring Devices-Rotameter, Elbo Meter, Pitot tube. Free Liquid Jet.

CP 03

7 Flow through Orifices (T1 -9.1 to 9.4): Classification, Sharp –Edged Orifice Discharging Free: (vena-contracta,, Torricelli,s formula, Coefficient of Velocity CV, Coefficient of Contraction Cc, Coefficient of Discharge Cd, Coefficient of Resistance Cr), Experimental determination of the coefficients for an orifice{Determination of Cv (Jet distance method, Velocity measurement method, Moment method), Determination of Cc, Determination of Cd} ,(i.e. Discharge through a small orifice under constant head). Losses of Energy or head of flowing liquid Due to sudden Change in Velocity (T1-9.8). Flow through an orifice or a Mouthpiece under variable heads- {Time for empting a tank with no inflow (Cylindrical, conical, Hemispherical), Time for empting (or filling) a tank with inflow (T1-9.12)}, Flow of liquid from one vessel (reservoir) to another (reservoir) (T1- 9.13).


8

Flow through Pipes: Reynolds Experiment (critical velocity), laws of fluid friction (for laminar flow i.e. parallel flow & for turbulent flow), Froude,s Experiments, Darcy-Weisbach Equation, Chezy’s Formula, Manning Formula, Hazen William,s Formula, Other Energy Losses in pipes, Hydraulic Grade line and Energy Grade Line, Flow through long pipes, Pipes in series or compound pipe, Equivalent pipe, Pipes in parallel, Time of Empting a reservoir through pipe,………………. (T1-11.1 to 11.12). Transmission of power through pipes, Flow through Nozzle at the end of pipe (Maximum power available from nozzle, Diameter of the nozzle for transmitting maximum power)………… (T1- 11.18 to 11.20)

CP 04

9 Laminar or Viscous (Parallel) Flow: Introduction, Relation between Shear and Pressure gradients in Laminar Flow, Steady Laminar flow in circular pipes-Hagen-Poiseuille law, Inclined pipes, Between parallel plates at rest, one plate moving and other at rest-COUETTE flow, Lubrication Mechanics (Slipper, Journal bearing).

Chapters not included in Syllabus from Text Book (T1):

Chapter 4: 4.4(i), 4.4, 4.5. Chapter 6: 6. 9 to 6.15. Chapter 7: 7.7 Chapter 8: 8. 6 to 8.8. Chapter 9: 9. 5 to 9. 7, 9. 9 to 9.11, 9. 14. Chapter 11: 11.13 to 11.17, 11.21 & 11.22 Chapter 13: 13. 5, 13. 8 to 13.10, 13.12 &13.13 Chapter 17: 17.7, 17.9, 17.13 to 17.16 Chapter Nos.: 5, 10, 12, 14, 15,16,18,19,20,21,22,23,24,25,26,27,28,29.


Title Author

Edition Year

ISBN Publisher




T11041–TB1 Hydraulics and Fluid Mechanics -Dr. P.N. Modi and Dr. S. M. Seth,

Included: Ch 1,2,3,4 (4.1 to 4.4 ii), 6 ( 6.1 to 6.8), 7 (7.1 to 7.6,7.8 to 7.18) 8 (8.1 to 8.5), 9 (9.1 to 9.4,9.8,9.12,9.13), 11 (11.1 to 11.12,11.18 to 11.20), 13 ( 13.1 to 13.4,13.6,13.7,13.11), 17 (17.1 to 17.6,17.8 to 17.12)

Excluded: 4.4(i), 4.4, 4.5, 6. 9 to 6.15, 7.7 8. 6 to 8.8,9. 5 to 9. 7, 9. 9 to 9.11, 9. 14, 11.13 to 11.17, 11.21 & 11.22,13. 5, 13. 8 to 13.10, 13.12 &13.13,17.7, 17.9, 17.13 to 17.16, Chapters: 5, 10, 12, 14, 15,16,18,19,20,21,22,23,24,25,26,27,28,29.

13th Edition, 2000,

81-900893-7-4 Standard Book House Delhi-110 006 Rs. 280.00.

T11041–TB2

T11041–TB3


T11041–RB1

Engineering Fluid Mechanics - K. L. Kumar Edition 2003,

81-219-0100-6 Eurasia Publishing House (P) Ltd. Ram Nagar, New Delhi-110055 Rs. 185.00.

T11041–RB2 Introduction to Fluid Mechanics - Fox and McDonald Students

Edition Reprint 2004,

9971-51-355-2 John Willey and Sons, Inc. Rs. $ 8.50

T11041–RB3 Fluid Mechanics - Frank M. white

International (5th) Edition,

0-07-119911-X (ISE) McGraw Hill Rs. $ 23.95

T11041–RB4 Fluid Mechanics John F. Douglas

4th Edition,

81 –297-0057-3 Pearson Education Rs. 475.00


T11041-CD1


T11041-WL1


T11042- Marine Auxillary Machinery -I





4 Level UG



01 V61 T11042 Marine Auxillary Machinery -I 4 68 120 100 TH












1. Understand the operation of various auxiliary machineries.

Special Note:

4. STCW 2010 COMPETENCY

5. UNITS


1 Engineering Materials CP 01 CSs

17 Hrs



2 Engine Room Layout

3 Engine Room Piping Arrangements & Fittings

4 Valves and Cocks CP 02 CSs

17 Hrs



5 Filters & Strainers

6 Pumps

Competency Description

4.1 Basic construction and operation principles of machinery systems, including:

4.1.6 other auxiliaries, including various pumps, air compressor, purifier, fresh water generator, heat exchanger, refrigeration, air-conditioning and ventilation systems

4.1.9 fluid flow and characteristics of lubricating oil, fuel oil and cooling systems

5.1 Operational characteristics of pumps and piping systems, including control systems

5.2 Operation of pumping systems:

5.2.1 routine pumping operations

5.2.2 operation of bilge, ballast and cargo pumping systems

5.3 Oily-water separators (or-similar equipment) requirements and operation


7 1. Heat Exchangers

2. Evaporators

CP 03 CSs

17 Hrs



4 3. Air Compressors

4. Pollution Prevention

CP 04 CSs

17 Hrs




01

Material Properties, Common metals and alloys, Non-metallic materials, Uses of Various metals, Joining metals, Adhesives & Bonding, Corrosion, Erosion, Cathodic protection. Lay out of main and auxiliary machinery in engine rooms on various ER floors.

Pipe Material, Types of flanges, Colour coding of pipelines, Steam and condensate system, water hammering in pipes,

Expansion joints in pipelines, Pipe supports. Bilge – Ballast, fuel oil bunkering and transfer system, fuel oil service system

to main and auxiliary engines, Lubricating oil and Engine cooling system to main and auxiliary engines, Central cooling

systems, Central priming system,Control and Service air system, Domestic fresh water (Hydrophore) service system,

Drinking water system, Fire main system.

CP 01

02 Straight way cocks, right angled cock, ‘T’ cock, spherical cock, Boiler gauge glass cock. Globe valves, SDNR valve, swing

check valve (storm valve), gate valves, butterfly valves, relief valves, quick closing valves, pressure reducing valves, control valves, change over valve chests, fuel oil transfer chest, valve actuators, steam traps. Filtration, filter elements basket strainers, duplex strainers, auto-kleen strainers, back flushing strainers, edge type filters,magnetic filter, Centrifuge filters, CJC filters. Sea Suction strainers, Priming & Maintenance of filters.

Types of pumps for various requirements, their characteristics, principles and application in ships. Centrifugal Pumps,

Gear pumps, Screw Pumps and Reciprocating pumps, Axial flow pumps,Care and Maintenance of pumps. Routine

Pumping operations, Operation of bilge Ballast and cargo Pumping systems. Use & principle of eductors.

CP 02

03

Tubular and Plate type Heat exchangers, reasons of corrosion, tube removal, plugging, and materials used. Leak detection, differential expansion, sealing between fluids, temperature control, throttling of cooling water and Purging of air from heat exchangers.

Construction and Operation of different types of evaporators. Fresh Water generators and distillers. Multiple effect

evaporation. Conditioning arrangement of distilled water for drinking purpose. Use and care of Ejector pump and

Distillate pump.

CP 03

04

Operational and constructional details Air compressors used on board ships. Multistage compressors, inter-cooling,

safety aspects. Uses of compressed air. Control air & Service air.

Uses of coalescers, baffles, girds, STOKES Law; Static and turbo separators, Oily bilge Separators their construction and

operation, 3 stage OWS, prevention of oil pollution and various International requirements MARPOL Convention, OLM &

OCM, Introduction of IMO Conventions, rules & regulation, introduction to ODME. ORB entries of OWS.

CP 04


Title Author

Edition Year

ISBN Publisher




T11042–TB1 Introduction to Marine Engineering D.A. Taylor

2nd 0-7506-2530-9 Butterworth Heinemann

T11042–TB2 Marine Auxiliary Machinery H D McGeorge

7th 0-7506-4398-6 Butterworth Heinemann

T11042–TB3


T11042–RB1

T11042–RB2

T11042–RB3

T11042–RB4


T11042-CD1


T11042-WL1


Note:

The above book are used to prepare the subject material.

Details are taken from various books as well as Technical papers published by engine manufacturers. The manufacturers as and when

developments take place regularly update these papers. The teaching material is also upgraded accordingly. It is also required to refer to

the Operations and Maintenance manuals provided by engine manufacturers such as MAN B&W and Wartsila Sulzer.

The teaching material is also upgraded accordingly. It is also required to refer to various other websites and books for latest

developments in the above topics of the subject.


T11043- Mechanics of Materials-II





4 Level UG



01 V61 T11043 Mechanics of materials-II 4 68 120 100 TH











Having

completed course on Engineering Mechanics.(T 01025 ) &

Mechanics of materials-I


1. Calculate different stresses & strains to which beams, curved bars, thick cylinders& struts are subjected to.

Special Note:



5. UNITS


1 Compound Stress and Strain

CP 01 CSs

17 Hrs



2 Deflection of Beams CP 02 CSs

17 Hrs



3 Built in and continuous beams

CP 03 CSs

17 Hrs



4 Thick cylinders CP 04 CSs

17 Hrs


end exam on these units. 5 Struts



1

Compound Stress and Strain : Normal Stresses - Tangential or Shear stresses - principal stresses – principal planes – Graphical & Analytical Method - Determination of principal planes and principal stresses- obliquity – Mohr’s circle of stress - Combined bending and torsion - Strain energy in terms of principal stresses – Equivalent bending moment & equivalent torque - Principal strains - Criterion for failure.

CP 01

2 Deflection of Beams:

Slope & Deflection of beam: relationship between bending moment, slope & deflection, method of integration, Macaulay’s method, calculations for slope and deflection of (i) cantilevers and (ii) simply supported beams under concentrated load, Uniformly distributed loads ,Uniformly varying loads,& Moment load, Numericals.

CP 02

3 Built in and continuous beams:

Fixed beams – relation between the free BM diagram & Fixed BM Diagram – slope & deflection- advantages & disadvantages of fixed beams- continuous beams – Clapeyron’s theorem of three moments.

CP 03

4 Thick Cylinders: Derivation of Lame’s equations, radial & hoop stresses Distribution, compound cylinders-necessary

difference of radii for shrinkage, Numericals.

CP 04 5 Struts: Introduction – actually loaded compression member – crushing load- Buckling or Critical or Crippling load- Euler’s

theory of long columns-assumptions made in Euler’s theory- limitation of Euler’s formula- Empirical formulae – Rankine’s Formulae.

Syllabus not included :

Chapter No : 10 Problem No 706-712 , $109,$116, Chapter No : 7 Problem No 391-393, 395-418,437-465, Article $66, Problem No 472-477, Articles $68, $69, Problem No 489-495, Article $71 – 76.

Chapter No : 8 : Problem No 548- 552, Article $81,Problem No 563-566, 573- 575 Article No $90, Chapter No : 7

Article $61 - $73 Problem No 507- 535 Chapter No : 13 : Article $ 138. Chapter No : 14 : Problem No 822-824 , Article $145- $ 152


Title Author

Edition Year

ISBN Publisher




T11043–TB1 Strength of Materials S Ramamrutham

15th Edition Dhanpat Rai Publishing Co.

T11043–TB2


T11043–RB1 Strength of Materials R S Khurmi

22nd Edition S Chand & Co.

T11043–RB2

T11043–RB3


T11043-CD1


T11043-WL1


T11044- Marine IC Engines – I





4 Level UG



01 V61 T11044 Marine IC Engines – I 4 68 120 100 TH












1. Understand the working of internal combustion engines.

Special Note:



4.1.1 marine diesel engine

4.1.3 marine gas turbine

4.2 Safety and emergency procedures for operation of propulsion plant machinery, including control systems

4.3 Preparation, operation, fault detection and necessary measures to prevent damage for the following machinery items and control systems:

4.3.1 main engine and associated auxiliaries

4.3.3 auxiliary prime movers and associated systems

5. UNITS UN Name of Unit CST Questions

1 Performance Characteristics of I.C. Engines CP 01 CSs

17 Hrs


end exam on these units. 2 General Description of I.C. Engines

3 Scavenging and Supercharging System CP 02 CSs

17 Hrs


end exam on these units. 4 Supercharging arrangements

5 Combustion of Fuels in I. C. Engines CP 03 CSs

17 Hrs


end exam on these units. 6 Compression pressure ratio

7 Cooling of I.C. Engines CP 04 Students have to answer '1 of 1' SAQ in CA and


8 Safety and prevention of mishaps in I.C. engines

CSs 17 Hrs


9 Special features of I.C. Engines


1

Performance Characteristics of I.C. Engines : 4-Stroke and 2-Stroke cycles; Deviation form Ideal Condition in actual engines; Limitation in parameters, Timing Diagrams of 2-Stroke and 4-stroke engines. Comparative study of slow speed, medium speed and high speed diesel engines - suitability and requirements for various purposes Mean Piston speed, M.C.R. & C.S.R. ratings.

CP 01 2 General Description of I.C. Engines: General Description of various Marine Diesel Engine such as M.A.N., Sulzer, B&W etc. Constructional Details of I.C. Engines: Principal Components: Jackets and Liners, Cylinder heads. Pistons, Cross heads, Connecting rods, Bed Plates, A-frames, Welded construction for bedplates & frames. Tie rods.

3 Scavenging and Supercharging System: Scavenging arrangements in 2-Stroke engines; Air charging and exhausting in 4

stroke engines; Various types of Scavenging in 2 Stroke engine; Uni-flow loop, cross loop and reverse loop scavenging,

their merits and demerits. Scavenge pumps for normally aspirated engines under piston scavenging, Scavenge manifolds.

CP 02

4 Supercharging arrangements : Pulse and constant pressure type; Their relative merits and demerits in highly rated

marine propulsion engines. Air movements inside the cylinders. Turbocharger and its details. Two stage, Un-cooled,

radial turbochargers.

5 Combustion of Fuels in I. C. Engines: Grades of suitable fuels. Preparation of fuels for efficient combustion. Fuel

atomization, Ignition quality, Fuel injectors, and its details. Ignition delay, after burning. CP 03

6 Compression pressure ratio: Compression pressure ratio and its effect on engines. Reasons for variation in compression pressure and peak pressure,. Design aspects of combustion chambers,. Control of NOX, SOX in Exhaust emission.

7 Cooling of I.C. Engines:

Various Cooling media used; their merits and demerits, cooling of Pistons, cylinder jackets and cylinder heads, bore cooling, coolant conveying mechanism and systems, maintenance of coolant and cooling systems.

CP 04 8 Safety and prevention of mishaps in I.C. engines:

Causes and prevention of crank case explosions, and Scavenge fires. Detection of the same and safety fittings provided

to prevent damage, Uptake fire, Starting air line explosion.

9 Special features of I.C. Engines: Development of long-stroke Engines, Implication of stroke-bore ratio, Development in materials in construction & heat treat in M.E. Components.


Title Author

Edition Year

ISBN Publisher




T11044–TB1 Prin.& Pract. Marine of Diesel Engg. D.K. Sanyal

Bhandarkar Publishers

T11044–TB2 Diesel Engines A.J.Wharton

Marine Engg series

T11044–TB3


T11044–RB1 Internal Combustion Enginers, V. Ganesan

0-07-462122-x Tata M.Hill

T11044–RB2 Pounder’s Marine Diesel Engg Doug Woodyard

7th Edition 0-7506-2583-x Butterworth Heinemann

T11044–RB3

T11044–RB4


T11044-CD1


T11044-WL1

Note: The above reference books are used to prepare the subject material.


Details are taken from various books as well as Technical papers published by engine manufacturers. The manufacturers as and when developments

take place regularly update these papers. The teaching material is also upgraded accordingly. It is also required to refer to the Operations and

Maintenance manuals provided by engine manufacturers such as MAN B&W and Wartsila Sulzer.

Books referred:

Marine Medium Speed Engines by Dr. Denis Griffiths

Marine Low Speed Engines by Dr. Denis Griffiths

Pounder’s Marine Diesel Engines by Dough Woodward

Marine Diesel Engines by D.K. Sanyal

Technical Papers published by various institutions

Operations and Maintenance manual of MAN B&W and Sulzer engines


T11045 - Elementary Design





4 Level UG



01 V61 T11045 Elementary Design 4 68 120 100 TH











Having completed the courses such as T11013, T11032, T11033 & T11043


1. Design machinery components

Special Note: While teaching special care should be taken to correlate the concerned topic with the applications on Merchant Navy Ships


9.5 Design characteristics and selection of materials in construction of equipment.

5. UNITS


1 1. Procedure in Machine Design. CP 01 CSs

17 Hrs


end exam on these units. 2 Standardization.

3 3. Engineering Materials. CP 02 CSs

17 Hrs


end exam on these units. 4 Design against static loads

5 Strength considerations in design CP 03 CSs

17 Hrs



6 Temporary joints design. CP 04 CSs

17 Hrs


end exam on these units. 7 Power transmission



1 PROCEDURE IN MACHINE DESIGN: - Concepts of design procedure & processes, Design synthesis, Design analysis, Preliminary Design Alternative, Final Design alternative, Preliminary & Final Plans & Drawings, Design documentation. Economics consideration, Ergonomics and Aesthetics in design, Manufacturing considerations in castings and forgings.

CP 01

2 STANDARDISATION:- Merits and demerits, Use of Standards in design, Preferred series, selection of preferred sizes. (Applied problems on Preferred series)

3 ENGINEERING MATERIALS:-

Properties of materials Selection of materials in engineering design, Types of steels nonferrous metals and nonmetals

used in engineering design, BIS system of designation of steels, heat Treatment processes, , wear, corrosion.

CP 02 4 DESIGN AGAINST STATIC LOADS:-

Design against static loads causing tension, compression, shear, bending, and torsion, curved beams. Review of failure

criteria in mechanical design.

(Applied problems on above topics)

5 STRENGTH CONSIDERATIONS IN DESIGN:-

Strength of materials, Reliability, Influence of size, Stress concentration, Strength under combined stresses, static loads, Impact loads, Repeated loads, Completely reversed loads, Alternating loads, Cyclic and combined loads, Fatigue strength. Dynamic Stresses. Design of helical springs, Introduction to other types of springs. Design of Welded joints and Welded machine parts. (Applied problems on all above topics.)

CP 03

6 TEMPORARY JOINTS DESIGN:-

Bolts, Screws & knuckle joints, keys and couplings.

CP 04

7 POWER TRANSMISSION:-

Design of shafts and axles, Belt drives, chain drives, design of spur gears, Understanding of clutches and brakes. Application of sliding and roller bearings in marine machineries.

(Applied problems only on shafts and axles, Belt drives, chain drives, design of spur gears )

TOPICS & CHAPTERS EXCLUDED FROM TEXT BOOKS: -

TME055-T1: 5 to 7, 8.5 to 8.9, 9.11 to 9.14, 10 to 12, 13.8, 14.3 to 14.7, 15, 16, 18 to24

TME055-T2: 1, 2.27 TO 2.36, 3.7 to 3.21, 4.16 to 4.22, 4.24, 5.16, 6.18 to 6.23, 7, 8, 9.15 to 9.20, 10.13 to 10.15, 10.20 to 10.24, 11, 12, 14 to 17, 19, 20, 22 to 27, 29 to 32


Title Author

Edition Year

ISBN Publisher




T11045–TB1 Machine Design

V. B. Bhandari

Tata McGraw Hill

T11045–TB2 Machine Design Kurmi & Gupta

S. Chand & Co

T11045–TB3


T11045–RB1 Machine Design

Shigley

Tata McGraw Hill

T11045–RB2

T11045–RB3

T11045–RB4


T11045-CD1


T11045-WL1


T11046- Naval Architecture & Ship Stability





4 Level UG



01 V61 T11046 Naval Architecture & Ship Stability 4 85 120 100 TH












1. Workout Hydrostatics calculations.

2.Workout transverse and longitudinal stability.

3.Understand Rudder and Propulsion theory.

Special Note:


11.1 Ship stability.

11.1.1 Working knowledge and application of stability trim and stress tables, diagrams and stress- calculating equipment.

11.1.2 Understanding of the fundamentals of watertight integrity

11.1.3 Understanding of the fundamental actions to be taken in the event of partial loss of intact buoyancy.

11.1.4 Resistance propulsion and Powering of Ships

5. UNITS


1 Displacement CP 01 CSs

21 Hrs


end exam on these units. 2 Buoyancy

3 Feed Water Allowance

4 Statical Stability CP 02 CSs

21 Hrs



5 Initial Stability

6 Angle of Loll

7 Curves of Statical Stability CP 03 CSs

21 Hrs


end exam on these units. 8 Movement of Centre of Gravity


9 Trim

10 List and Correction

CP 04 CSs

22 Hrs



11 Effect of Slack Tank

12 Action at Partial loss of Buoyancy

13 Resistance and Powering


1 DISPLACEMENT:- Archimedes Principle, reduction in weight of immersed body, application to floating body and to ships. Displacement, draught, mean draught, use of displacement draught curve. Definition of: light displacement, load displacement, dead weight. Deadweight-displacement scale and its use. TPC and draught relationship, Block Coefficient (Cb) and calculations related to block coefficient.

CP 01

2 BUOYANCY:- Definition, cause, value, Reserve Buoyancy its importance, freeboard load lines, purpose, watertight integrity, damage stability requirements for certain vessels and reasons for the same. Damage stability requirements for type A-Vessels, Type (B-60), Type (B-100) vessels and passenger ships. Equilibrium requirements for type A and B vessels.

3 FRESH WATER ALLOWANCE:- Effect of density on draught, Fresh water allowance (FWA), Calculations of loading in FW using FWA and TPC. Use of hydrometer for density measurement of dock water, effect of tide and rain on density of dock water, calculating TPC in S.W. or F.W.A. and density of dock water, given draught and density of water in dock, calculate the load to submerge the ship to required loadline.

4 STATICAL STABILITY:-

Define weight, centre of gravity (G), Centre of Buoyancy (B), Directions of actions of weight and Buoyancy. Location of Buoyancy as per wider water shape of immersed body with respect to draught and heels. Mid ship section a) In upright condition showing points B and G and forces of Buoyancy and weight b)In heeled condition to a small angle of heel showing buoyancy, weight forces acting in opposite direction in vertical lines, at a distance of GZ horizontally form rightly couple = displacement x GZ, where GZ is rightly lever.

CP 02 5 INITIAL STABILITY:-

Stability at small angles up to 10∘. Definitions of Metacentre, Metacentric height for small angle M is fixed point practically. Diagram of ship heeled to small angle, showing G,B Z and M. M must be above G to have stable ship, from GM, one Metacentric height is positive, GZ=GM sin(ѳ), effect large and small GM. Use of hydrostatic curves to get KM for a given draught. Given KG find out GM. Minimum GM=0.15m as recommended.

6 ANGLE OF LOLL:- Define negative Metacentric height, then ∆ GZ up setting moment, shifting of B on heeled side when breadth is large, raising M till it coincides with G at angle of Loll. Ship rolls about angle of Loll.

7 CURVES OF STATICAL STABILITY:-

Cross curves of statical stability at given displacement with given KG and with varying values of KG. Significance of Angle of flooding and 40∘heel.

CP 03

8 MOVEMENT OF CENTRE OF GRAVITY:- Effect of addition, removal, shifting and lifting of weight on ship. Effect due to consumption of fuel addition or removal of cargo, ice accretion on board vessel.

9 TRIM:- Definition, Trim, L.C.F., MCT-1cm shift of weight along length of ship for trim, Trimming moment, MCT- 1cm as per dead weight, displacement scale, calculation of change in trim and new draught, using -∆ scale. Trimming tables and trimming curves and use of it, for large loading to find out trim.

10 LIST AND ITS CORRECTIONS:-

Diagram of forces for list, angle of list (ѳ), Range or stability in listed condition. Calculation of angle of list mass to be moved, rise in draught due to heel.

CP 04 11 EFFECT OF SLACK TANKS:- Reduction in Metacentric height due to f.s of tank, effect of breadth of tank and f.s, method to reduce f.s of tank.

12 PARTIAL LOSS OF INTACT BUOYANCY:- Counter action, Closing of Water Tight doors, valves and any other openings. Cross flooding arrangements, intakes to be closed or stopped.

13 Resistance and Powering: Frictional, Residuary & Total resistance, Froude's Law of comparison, Effective power calculations, Ships co-relation factor (SCF), Admirality co-efficient, Fuel co-efficient and fuel consumption. Effect of viscosity and application of ITTC formula.

7. LEARNING RESOURCE DETAILS


LR Code Title Author

Edition Year

ISBN Publisher




T11046–TB1 Ships stability for Masters and Mates.

Bryan Barrass & Capt. D. R. Derrett. 6th Edition 2006

13:978-0-7506-6784-5 10:0-7506-6784-2 Butterworth Heinemann

T11046–TB2 Merchant Ship Construction D.A. Taylor

4th Edition 1998

0-408-01535-7 Institute of Marine Engineers, London

T11046–TB3


T11046–RB1 Theory of Naval Architecture A.M. Robb

1st

Edition Charles Griffin & Co.

T11046–RB2

T11046–RB3

T11046–RB4


T11046-CD1


T11046-WL1


T11047- Mechanical Lab





4 Level UG



01 V61 T11047 Mechanical Lab. 2 68 60 50 PR












1. Understand the characteristics of governors. 2. Understand the relationship between length and period of

pendulum (simple and compound). 3. Draw cam profiles for various types of follower motions and

to draw displacement diagrams for the same. 4. Understand the relationship between tensions, coefficient of

friction and lap angle for flat and V-belts and also about slip occurring between belts and pulleys.

5. Understand various types of vibratory motions viz. free, forced (undamped, damped) etc.



9.1 Safety measures to be taken for repair and maintenance, including the safe isolation of shipboard machinery and equipment required before personnel are permitted to work on such machinery or equipment



5. PRACTICAL ACTIVITIES UN Name of Practical Activity CST

1 To verify the relation given below for a simple pendulum and to plot the graph of T2 vs. L, T = 2 π (L / g )1/2

where,

T = Periodic Time (sec.) L = Length of pendulum (cm.)

68 Hrs

2 (a) To verify the relation,


T = 2 π ((K 2 + OG ²) /g. OG) where, T = Periodic time (sec) K = Radius of gyration about C.G. (cm) OG = Distance of the C.G. of rod from support L = Length of the suspended pendulum (cm) (b) To determine the radius of gyration ‘K’ for the given compound pendulum. (c) To find the equivalent length of a simple pendulum for the given compound pendulum.

3 To study the longitudinal vibration of single spring mass system and to determine the frequency of vibration, theoretically and experimentally.

4 To study the undamped free /natural vibrations of a beam pivoted at one end and supported by tension spring at the other end (equivalent spring mass system).

5 To study the forced vibration for various amounts of damping, of a beam pivoted at one end and supported by tension spring at the other end and to plot the graph of amplitude vs. frequency of vibration.

6 To study free damped torsional vibrations and to determine the damping coefficient, damping factor and logarithmic decrement for the system.

7 To study the free undamped torsional vibrations of a single rotor shaft system and to determine the natural frequency of vibration, theoretically and experimentally.

8 To study the free undamped vibrations of two-rotor shaft system and to determine the natural frequency of vibration, theoretically and experimentally.

9 To study forced lateral vibrations of a beam for different amounts of damping and to plot the graph of amplitude vs. frequency.

10 To verify Dunkerley’s rule viz.

1/F² = 1/Fl² + 1/Fb² where,

F = Natural frequency of the given beam considering the weight of beam and the central load. Fl = Natural frequency of given beam considering the central load and neglecting the weight of beam.

Fb = Natural frequency of beam alone (without central load).

11 To determine the moment of inertia of different bodies by trifilar suspension method.

12 To find the coefficient of friction for both flat & V-belt with the help of belt friction apparatus and hence find the slip.

13 To determine the characteristics curves of sleeve position against speed of rotation in case of, (i) Hartnell Governor (ii) Porter Governor (iii) Proell Governor (iv) Watt governor

14 To plot the graph of cam angular displacement vs. follower lift for different types of cams and followers.

15 To draw cam profiles for various types of follower motions.

16 To develop a computer program for velocity and acceleration analysis of slider crank mechanism.


Title Author

Edition Year

ISBN Publisher




T11047–TB1 Theory of Machines R.S. khurmi, J.K. Gupta

14th Edition,2007

81-219-2524-X Eurasia Publishing House (Pvt) Ltd

T11047–TB2 Theory of Machines S.S. Ratan

24th reprint 2005

0-07-460320-5 Tata Mcgraw-Hill publishing Co Ltd.

T11047–TB3 Theory of Machines Thomas Beven

3rd Edition 2003 81-239-0683-8 S.K. Jain for CBSPublishers & Distributers.


T11047–RB1 Mechanical Vibrations ISBN: G.K. Grover

7th Edition 2001 81-85240-75-2 New Chand & Bros.

T11047–RB2

T11047–RB3

T11047–RB4


T11047-CD1


T11047-WL1


T11048- Workshop Practical – I





4 Level UG



01 V61 T11048 Workshop Practical – I 2 102 60 50 PR












1. Use Hand & power tools, basic workshop practice and basic fitting.



8.5 Safety measures to be taken to ensure a safe working environment and for using hand tools, machine tools and measuring

instruments






1 Fitting Shop: (Bench Work) To make a Male-Female square fitting from a 10 mm. thick Plate.

102 Hrs 2 Machine Shop (Lathe Work)

Lathe jobs involving turning, facing, chamfering, knurling, external threading, internal threading, drilling, boring and parting. Jobs involving milling & slotting operations



Title Author

Edition Year

ISBN Publisher





Hajra Chowdary

2002

2001

81-85099-15-4

81-85099-14-6

Media Promoters & Publishers

T11048–TB2

T11048–TB3


T11048–RB1 Workshop Technology Vol. I , II & III

Chapman

2001 81-85617-80-5

Viva Books


Krar Check

T11048–RB3

T11048–RB4


T11048-CD1


T11048-WL1


Semester 05 T11051- Fluid Machines





4 Level UG



01 V61 T11051 Fluid Machines 4 51 120 100 TH












1. Understand various types of pumps 2. Understand impulse and reaction turbines.

Special Note:



5. UNITS


1 Dimensional analysis CP 01 CSs 13 Hrs


2 Different types of hydraulic Pumps, like gear pump, vane pump, screw pump, radial piston pump.

3 Reciprocating pump

CP 02 CSs 13 Hrs


4 Hydraulic energy transmitting machines Like, accumulators, intensifier, hydraulic press, hydraulic lift, hydraulic ram, hydraulic coupling & torque convertors.

5 Centrifugal pump CP 03 CSs 12 Hrs


6 Impulse and reaction turbine CP 04 CSs 13 Hrs




1 Dimensional Analysis Introduction, Dimensions, dimensional homogeneity, Methods of Dimensional Analysis-Buckingham π method, Outline procedure for Buckingham π method, Use of dimensional analysis in presenting experimental data, Similitude –types of similarities (Geometric, Kinematics, Dynamic), Unit speed, Unit discharge & Unit power, Performance characteristics of Turbine, Performance characteristics of centrifugal pumps. Model Testing of pumps and turbines. Applied problems based on Unit quantities & model testing of Turbines & Centrifugal Pump

CP 01

2 Different types of pumps Gear pump, vane pump, screw pump, radial piston pump.

3 Reciprocating pump

Introduction, Construction & Operation, Theoretical indicator diagram, Acceleration head and frictional head & its effect on Actual indicator diagram, Power requirements & work consumed, Cavitation (separation) in a reciprocating pump, Negative slip in reciprocating pump, Air vessels, use of it & its effect on work done, power consumption Applied problems based on work done power consumption for single & double acting pumps Applied problems based on work done, power consumption for single & double acting pumps by considering the effect of acceleration & frictional head

CP 02

4 Hydraulic energy transmitting machines: Hydraulic accumulator, differential accumulator, intensifier ,hydraulic press. hydraulic lift, hydraulic, ram, hydraulic coupling & torque convertors.

5 Centrifugal pump

Introduction, Advantages of Centrifugal pumps over reciprocating pumps, Component Parts of a Centrifugal Pump, Working of a Centrifugal pump, Work done by Impeller, Heads of centrifugal pump, Losses & Efficiencies, Minimum starting speed, Specific speed, Multistage pumps, Pumps in parallel, NPSH, Cavitation, Priming. Applied Problems based on velocity diagram & work done, heads & efficiencies, specific speed.

CP 03

6 Impulse and reaction turbine

Introduction, , Elements of a hydro power plant, heads and efficiencies of hydraulic turbine, Hyd. Turbine classification, Pelton Wheel, Work done and Efficiencies of pelton Wheel, Working Proportions of Pelton Wheel, Design of pelton turbine runner, Reaction turbine, Francis Turbine, work done and Efficiencies of Francis Turbine, Working proportions of francis turbine, Design of Francis Turbine, Kaplan turbine, Working proportions of Kaplan turbine, Draft Tube theory, Performance under Specific Conditions, Cavitation in turbines. selection of turbines. Applied Problems based on velocity diagram; work done & efficiency of Pelton wheel, Francis turbine &Kaplan turbine. Applied Problems based on specific speed.

CP 04

Chapters not included-

T1-Chapters-01-16,18-20,25-29. Topics not included- Topics-17.6, 17.7, 17.9, 17.11 to 17.16 21.9, 21.10, 21.17, 21.20 to 21.23 22.1, 22.2, 22.4, 22.5, 22.6. 23.9, 23.10 24.5, 24.10, 24.11, 24.16, 24.17, 24.21


Title Author

Edition Year

ISBN Publisher




T11051–TB1 Fluid mechanics & Hydraulic machines Dr.R.K.Bansal

2003 Laxmi Publications (p) Ltd

T11051–TB2 Hydraulic & Fluid Mechanics including fluid machines Dr. P.N. Modi Dr. S.M. Seth

2000 Standard Book House Delhi-6


T11051–RB1


T11051-CD1


T11051-WL1


T11052- Marine Auxiliary Machinery - II





4 Level UG



01 V61 T11052 Marine Auxiliary Machinery -II 4 85 120 100 TH












1. Understand the operation of various auxiliary machineries and their systems.

Special Note:


5. UNITS


1 Bunkering procedure, precautions taken, line

diagram for H.F.O. &D.O. CP 01 CSs

21 Hrs


end exam on these units. 2 Shafting & Propeller

3 Purification Plant CP 02 CSs

21 Hrs



4 Steering gear

5 Stabilizers

6 Other Shipboard Equipment CP 03 Students have to answer '1 of 1' SAQ in CA and


2.1.4 Technical report writing

3.1 Operation of all internal communication systems on board


4.1.5 shafting installations, including propeller


4.1.7 steering gear

4.1.10 deck machinery


7 Deck machinery CSs 21 Hrs


8 Internal Communication System CP 04 CSs

22 Hrs


end exam on these units. 9 Technical Report Writing


1 Bunkering procedure, precautions taken, line diagram for H.F.O. &D.O.:

Sounding & Ullage, Estimation & Calculation of bunker Quantity, Bunkering procedure & precautions, checks carried out before, during and after bunkering, line diagram for H.F.O. & D.O, Bunker Sampling & Shore Analysis, ORB entries for bunkering.

CP 01

2 Shafting & Propeller: Methods of shaft alignment, constructional details and working of Thrust blocks. Intermediate

Shaft bearing and Stern tube bearing. Oil & Water lubricated Stern Tubes. Sealing Glands. Stresses in Tail End.

Intermediate and Thrust Shafts.

Propeller terminology, Fixed pitch Propeller, CPP, Advantages & Disadvantages of FPP/CPP, Propeller mounting,

Cavitation, Propeller maintenance, Azipod systems.

3 Purification Plant:

Theory of oil purification, various methods of oil purifications, principles of operation and construction of different

Centrifuges for heavy fuel and lubricating oil like FOPX system, Self desludging etc. Introduction to Alfa Laval ALCAP and

Mitsubishi HIDEN systems for high density fuels. Uses of Homogenizers. Use of settling/service tanks.

CP 02

4 Steering gear: Operation and Constructional details of various types of steering machinery Telemotor systems,

transmitters and receivers Variable Delivery Pumps used in steering gears, axial and radial displacement types. Hunting

action of steering gear. Emergency steering arrangement. Safe Matic Steering Gear with redundence concept as per

SOLAS. Care and maintenance of steering Gear Plants

5 Stabilizers: Different types of ships stabilizer. Bow Thrusters.

6 Other Shipboard Equipment:

Incinerators, Sewage Treatment Plant, Reciprocating Steam engines, Engine room crane. chain blocks, tackles, Anchor

chain its testing and survey requirements. Hull protection arrangements(ICCPU & MGPS). Bad weather precaution

taken, Management of E.R. Stores(Spares, Stores, Lubes, Chemicals, Gases, Paints etc.)

CP 03 7 Deck machinery: Various types of deck machinery used in ships e.g. Windlass, Winches & Boat winch ,their

requirements, Operation and maintenance, Deck Cranes. Hydraulic deck machinery (hatch covers) hydraulic motors, line-

filters and systems.

Hydraulic operated remote valve system.

8 Internal Communication System:

Operation & Purpose of Internal communication systems like telephones, SPT, Public address system, Talk back system,

LAN, Walkie-Talkies. Effective communication, exchange of information & use of accepted marine terminology.

CP 04

9 Technical Report Writing: Technical Report writing (Breakdown reports, Overhauling and service reports, Inspection

reports, Various Standard maintenance forms.) Incident Reports.


Title Author

Edition Year

ISBN Publisher





2nd 0-7506-2530-9 Butterworth Heinemann


7th 0-7506-4398-6 Butterworth Heinemann


T11052–RB1



T11052-CD1


T11052-WL1

Note: 1. The above book are used to prepare the subject material.

2. Details are taken from various books as well as Technical papers published by engine manufacturers. The manufacturers as and when



The teaching material is also upgraded accordingly. It is also required to refer to various other websites and books for latest developments in the above topics of the subject.


T11053- Marine Boiler & Steam Engineering





4 Level UG



01 V61 T11053 Marine Boiler & Steam Engineering 4 68 120 100 TH












1. Understand the fundamentals of boiler steam engines and steam turbines.

Special Note:



4.1.2 marine steam turbine

4.1.4 marine boiler

4.3.2 steam boiler and associated auxiliaries and steam systems

5. UNITS


1 General Considerations governing the design of Boilers CP 01

CSs 15 Hrs


end exam on these units. 2 Smoke & Water Tube Boilers

3 Waste Heat boilers CP 02 CSs

15 Hrs


end exam on these units. 4 Boiler mountings

5 Boiler Operation, Care and Maintenance, BWT

CP 03 CSs

19 Hrs



6 Oil burning

7 Condensers & Feed system

8 Materials & Constructional details of Turbines CP 04 CSs

19 Hrs


end exam on these units. 9 Lubrication of turbines


10 Operation and Maintenance of turbines

11 Alignment checking


1 General Considerations governing the design of Boilers: Types of marine boilers, comparison of smoke tube and water tube boilers; Destructive and Non destructive tests on plates, rivets, welded seams, classification societies requirements for boilers construction.

Various types in marine use, Principal dimensions and staying of flat surface of multitubular cylindrical Boilers. Vertical Auxiliary Boilers.

CP 01

2 Smoke & Water Tube Boilers : General description with sketches of principal types of boilers in marine use, Superheater, Economizer, Air pre-heater and Steam pre-heater; Circulation and use of Unheated Down comers in highly rated boilers; Superheat temperature control, Attemperators and De-superheaters.

3 Waste Heat boilers:

Waste heat recovery calculations. Lamont exhaust gas boiler, Scotch composite Boiler, Cochran exhaust gas and

composite boiler Spanner marine exhaust gas and composite boiler, Forced Water Circulation boiler, Double evaporation

Boiler.

CP 02

4 Boiler mountings : Safety Valves : Improved High Lift, Full lift and full Bore type: Gauge glass - Ordinary plate type and remote Indicator Automatic feed regulator three element High and low water level alarms, Main Steam stop valves, Retractable type Soot Blower etc.

5 Boiler Operation, Care and Maintenance, BWT:

Precommissioning procedures Hydraulic tests, steam raising and Operating procedures, Action in the event of shortage

of water & other shutdowns. Blowing down of boiler laying up a boiler; General maintenance, External and internal tube

cleaning Tube renewals etc. maintenance inspection and survey of boilers.

Purposes of refractory, types of refractory and reasons for failure.

CP 03

6 Oil burning : Procedure of liquid fuel burning in open furnace, Various types of atomizer.

Furnace arrangement for oil burning, Boiler Control System i.e master control, fuel control, air control and viscosity

control.

7 Condensers & Feed system: Shapes and types of condensers, constructional details, location & method of securing, working principles, contraction and expansion allowances, leak test. Effect – change of temperature, circulating water quantity change of main engine power, condenser surface. Feed systems.

8 Materials & Constructional details of Turbines: Materials used in various components like blades. Rotors, castings,

sealing glands, gears etc & their justification.

Types of blades, method of fixing, solid built-up & drum rotor for impulse and reaction turbines, castings for HP and LP

impulse and reaction turbines, diaphragms, nozzles, glands, carbon glands, labyrinth packing glands, main bearings and

thrust bearings.

CP 04 9 Lubrication of turbines: Suitable oils and their properties, lubrication of main bearings, thrust bearings and gears.

Gravity and pressure lubrication – oil system and emergency lubrication arrangement

10 Operation and Maintenance of turbines: Turbine drain system, turbine gland steam, warming through a turbine plant,

control of speed and power of propulsion, throttle valve control and nozzle control, emergency controls, emergency

operation of turbines, vibration in marine steam turbine, steam turbine losses. Breakdown and fault finding.

11 Alignment checking : By bridge gauge and poker gauge, allowances for expansion, sliding foot, thrust bearing static and

dynamic balancing.



Title Author

Edition Year

ISBN Publisher




T11053–TB1 Marine Steam Boilers J.H.Milton

5th Sterling Book Depot

T11053–TB2 Marine Boilers J.T.H.Flagan

3rd Sterling Book Depot

T11053–TB3 Steam Turbine Theory& Practice W.J.Kearton

7th Sterling Book Depot

T11053–TB4 Marine Engg. Knowledge Vol.8 3rd Sterling Book Depot


T11053–RB1

T11053–RB2

T11053–RB3


T11053-CD1


T11053-WL1

Note:

The above books are used to prepare the subject material.


developments take place regularly update these papers.

The teaching material is also upgraded accordingly. It is also required to refer to the Operations and Maintenance manuals provided by

engine manufacturers.


T11054- Marine IC Engines – II





4 Level UG



01 V61 T11054 Marine IC Engines – II 4 68 120 100 TH












1. Know the detailed characteristics of an I.C. Engine 2. Maintain diesel engines

Special Note:


5. UNITS


1 Fuel pumps and metering devices CP 01 CSs

17 Hrs



2 Maneuvering system

3 Indicator diagrams and power calculations.

4 Lubrication system

CP 02 CSs

17 Hrs



5 Automation in modern diesel engine plants

6 Nox- Control of marine diesel engines

7 Safety and Emergency Procedures

8 Medium speed engines CP 03 Students have to answer '1 of 1' SAQ in CA and



4.1.1 Marine diesel engine (Thermodynamics, Mathematics)

4.1.3 Marine gas turbine

4.2 Safety and emergency procedures for operation of propulsion plant machinery, including control systems


4.3.1 main engine and associated auxiliaries

4.3.3 auxiliary prime movers and associated systems


9 Maintenance of diesel engines CSs 17 Hrs


10 Forces and stresses

11 Gas Turbines

CP 04 CSs

17 Hrs



12 Trouble shooting in Diesel Engines

13 Modern trends in development

14 U.M.S. operations of ships


1 Fuel pumps and metering devices: Jerk and Common rail systems; Fuel injection systems Helical groove and spill valve

type fuel pumps. System for burning heavy oil in slow and medium speed marine engines. V.I.T. & Electronic injection

system.

- Effect of viscosity on liquid fuel combustion. - Measuring equipment and its working principle. - Necessity of variable fuel injection system. - Procedure of application on a modern slow speed long stroke engine. - Necessity for adoption of fuel quality setting system.

- Incorporation of FQSL along with the V.I.T. system on the engine.

- Use of poor quality residual fuels and their consequences.

- Fuels, combustion process – fundamentals.

CP 01

2 Maneuvering system: General outline of Starting and Reversing system of different Marine Diesel Engines with safety

provisions.

3 Indicator diagrams and power calculations: Construction details of indicator instrument, Significance of diagram Power

Calculations, fault detection simple draw cards and out of Phase diagrams Power balancing, Performance Characteristic

Curves, Test bed and Sea trials of diesel engines. Normal operating Parameters with limits. Typical Compression and

maximum pressures for slow, medium and high speed engines.

4 Lubrication system: Lubrication arrangement in diesel engines including Coolers and Filters Cylinder, Lubrication, Liner

wear, mechanism and preventive measures, Combinations of lubricating oil its effect and preventive measure.

- Improvements in lubricating oils through use of additives. Types of additives. - Monitoring engines through lubricating oil analysis reports.

CP 02 5 Automation in modern diesel engine plants: Remote operation, Alarm and failsafe system. Constructional Details and

Basic Functional Details of Hydraulic; Electronic; Constant Speed and Over speed Governors.

Computerized monitoring and diagnostics applications in propulsion engines.

6 Nox- Control of marine diesel engines: Emissions of I.C. Engines. Nox; Sox and other pollutants and their control.

7 Safety and Emergency Procedures: Precautions before starting of the engine. Main engine auto slow down and shut

down. Emergency running conditions.

8 Medium speed engines: Different types of medium speed marine diesel engines, couplings, and reduction gears used in

conjunction with medium speed engine, Development in exhaust valve design, V-type engine details.

-Improvements in designs for higher power output.

CP 03 9 Maintenance of diesel engines: Inspection and replacement of various Components members such as Piston, Piston

ring. Cylinder Head, Liner, bearings, Driving Chain and gears etc. Crankshaft deflection and alignment, Engine holding

down arrangements, Tightening of tie bolts

10 Forces and stresses: Balancing, Overloading, Different types of vibrations & its effects, A/F vibration.

11 Gas Turbines : General Constructional and Design features for marine Gas Turbine plants, Materials of construction,

Heat exchangers and Reheat arrangements. Comparison of Gas turbine and Steam Turbine. Describe 3 main components

of Gas Turbine : Compressor, combustion chamber, turbine.

CP 04

12 Trouble shooting in Diesel Engines: Hot & Cold Corrosion, Crankshaft web slip, X-head bearing problems, microbial

degradation in fuel & lub oil.


13 Modern trends in development:

Current Engines (Sulzer RTA, B&W CMC & SMC, SEMT Pielstick) Intelligent Engine (Camless concept), Improvement in

design for increased TBO.

14 U.M.S. Operations of ships.


Title Author

Edition Year

ISBN Publisher




T11054–TB1 Prin.&Pract. Marine of Diesel Engg. D.K. Sanyal

Bhandarkar Publishers

T11054–TB2 Diesel Engines A.J.Wharton

Marine Engg. Series

T11054–TB3


T11054–RB1 Pounder’s Marine Diesel Engg. Doug Woodyard

7th Edition 0-7506-2583-x Butterworth Heinemann

T11054–RB2

T11054–RB3


T11054-CD1


T11054-WL1

Note:

The above reference books are used to prepare the subject material.




Books referred:

Marine Medium Speed Engines by Dr. Denis Griffiths

Marine Low Speed Engines by Dr. Denis Griffiths

Pounder’s Marine Diesel Engines by Dough Woodward

Marine Diesel Engines by D.K. Sanyal

Technical Papers published by various institutions

Operations and Maintenance manual of MAN B&W and Sulzer engines


T11055- Marine Machines & System Design (MMSD)





4 Level UG



01 V61 T11055 Marine Machines & System Design (MMSD) 4 68 120 100 TH












1. Use and understand the designs of different machineries on board ships.

Special Note:


Competency No. 9: Maintenance and repair of shipboard machinery and equipment.


5. UNITS


1 Design Consideration

CP 01 CSs

17 Hrs



2 Selection of materials for Main and Auxiliary marine components.

3 Design consideration of Marine components such as crank shaft, propeller shaft, etc.

4 Design consideration of Fly wheel, piston and connecting rod

CP 02 CSs

17 Hrs



5 Design consideration of springs, bearings and lifting equipment’s

6 Design consideration of transmission systems

7 Design consideration of cooling, lubricating and fuel systems

8 Design consideration of steering gear

CP 03 CSs

17 Hrs



9 Design consideration of air starting, scavenge and fuel injection system

10 Design consideration of refrigeration plant


11 Design consideration and operation of life saving equipment

CP 04 CSs

17 Hrs


end exam on these units. 12 Design consideration and operation of fire fighting systems


1 Design Considerations: A) Manufacturing methods; Castings, Forgings, Fabrication and Plastic molding; machining tolerances, surface

finishes, application to basic design principles in respect of function, available materials, B) Economics, aesthetic appeal; Initial and Servicing costs, C) Design with reference to repairs and reconditioning especially "at sea" work with its normal restrictions and

limitations.

CP 01 2 Selection of materials for Main and Auxiliary marine components:

A) Main and Auxiliary diesel engine components B) Boilers –Water tube, Furnace, Water & Steam drum, super heater, etc.

Other Auxiliary systems – Components of various pumps, Heat exchanger, Compressors, Purifiers, High pressure/temp. valves, etc.

3 Design considerations of Marine components: Application of marine design principles for various marine machinery components subject to combined bending, twisting and direct loading like crankshafts, propeller shafts etc.

4 Design considerations of Fly wheel, piston and connecting rod:

A) Various design features and drawings of flywheel, piston, connecting rod, safety valves, reducing valves etc.

CP 02

5 Design considerations of springs, bearings and lifting equipment’s: A) Compression and Torsion springs, etc. B) Journal bearings, Thrust bearings, etc. C) Design of lifting equipment’s e.g. Engine room overhead Crane, etc.

6 Design considerations of transmission systems: A) Power Transmission system including Thrust Blocks, Intermediate shaft

and Tail End shaft.

7 Design considerations of cooling, lubricating and fuel systems: A) Water cooling systems including Pumps, filters, Heat exchangers for Diesel and Steam engine plants, etc. B) Lubricating Oil systems including Pumps, Purifiers, pressure by pass

Valves, etc. Fuel Oil systems including Pumps, Purifiers, pressure by pass Valves, etc.

8 Design considerations of steering gear:

A) Electro - hydraulic Steering gear system; ram, vane type and safematic B) Rudder, Rudder stock, Tiller arm etc.

CP 03

9 Design considerations of air starting, scavenge and fuel injection system: A) Marine Diesel Engine Air starting systems including Air receivers, Compressors and Air starting valves, etc. B) Marine Diesel Engine Scavenge and Exhaust system C) Marine Diesel Engine Fuel Injection system including Fuel pumps and fuel injectors

10 Design considerations of refrigeration plant: A) Refrigeration Plant design of various stages eg. Condenser, Evaporator, etc. B) Various types of refrigeration systems eg. Direct expansion, electronic injection type etc. C) Various types of refrigeration compressors eg. Reciprocating, hermetic etc.

Refrigeration system for cargo holds

11 1. Design consideration and operation of life saving equipment:

A) Life boat launching procedure and design considerations of gravity davits.

CP 04

12 2. Design consideration and operation of fire fighting systems:

A) CO2 Total Flooding system, CO2 smothering for cargo holds and Bulk CO2 System; B) Fire fighting line & system including fire pumps and emergency fire pump. C) Hypermist local fire fighting system.

(Note – Latest developments and IMO requirements are to be considered in each design consideration from units 1 to 4.)



Title Author

Edition Year

ISBN Publisher




T11055–TB1 Machine Design V. B. Bhandari

Tata McGraw Hill Butterworth-Heinemann

T11055–TB2 Marine Auxiliary Machinery H.D. McGeorge

Tata McGraw Hill Butterworth-Heinemann

T11055–TB3 Machine Design Khurmi & Gupta

S.Chand & Co. Butterworth-Heinemann

T11055–TB4 Introduction to Marine Engg. D.A.Taylor

S.Chand & Co. Butterworth-Heinemann

T11055–TB5 General Engg. Knowledge Vol.8 Jackson & Morton

Reed’s Series


T11055–RB1 Machine Design Shigley

Tata McGraw Hill

T11055–RB2

T11055–RB3

T11055–RB4


T11055-CD1


T11055-WL1


T11056- Marine Electrical Technology - I





4 Level UG



01 V61 T11056 Marine Electrical Technology - I 4 85 120 100 TH












1. Understand the working principles of various electrical machineries on board.

Special Note:





7.3 Fault detection

5. UNITS


1 Power Generation CP 01 CSs

21 Hrs


end exam on these units. 2 Alternative Source of power

3 Distribution CP 02 CSs

21 Hrs


end exam on these units. 4 Miscellaneous marine electrical equipment

Alarm system, Shore Supply.

5 Maintenance of electrical systems, fault

finding & repair CP 03 CSs

21 Hrs


end exam on these units. 6 Safe electrical practice

7 Special electrical practice for oil, gas and

chemical Tankers

CP 04 CSs

22 Hrs





1 Power generation:

Alternating current production in a simple loop rotating in a magnetic field. Explanation of Instantaneous voltage,

conductor velocity. Wave form of an AC voltage. Merits & Demerits board of A.C. & D.C. on board; Rules and regulations

governing electrical machineries on ships; Different alternator Excitations – Systems on board – (indirect, Direct ‘static

excitations, Brushless generator construction & operational diagram. Automatic Voltage Regulator (Explanation with

block diagram, Main components in AVR). Basic Concept of Preferential tripping of non-essential load in generators.

Understanding procedure of Paralleling and synchronizing of generators (Load sharing in generators). Basic Concept of

Droop of governors in generators.

CP 01

2 Alternative source of power:

Different Starting method including auto-start, emergency batteries construction and its different types (Lead-Acid & Ni-

Cd) & its duties, Location of emergency power, Different Emergency loads (taken from Emergency switchboard), Rules &

Regulation, emergency power, Maintenance of emergency power source on board. Shore Supply – Specifications as per

Voltage / frequency, precautions, while taking shore supply.

3 Distribution:

(Block, Wiring & Circuit diagrams) and their uses, electrical signals. Type of Distribution, Distribution network on board;

Main & emergency switch board, construction, different Switch gear & protective devices, Grounded and Insulated

neutral system, precautions adopted in High Voltage distribution system. Cables and its insulation properties. Different

classes of cable insulations, Shore supply, Difference between insulated systems and earth neutral systems.

Ship board star delta diagrams, Auto start/ stop circuits.

CP 02

4 Miscellaneous Marine electrical equipment alarm system:

Engine Room Telegraph, Rudder Angle Indicator, R.P.M. & Revolution Counter, Centralized Salinity Indicator, Watertight

door operation, Alarm system (types, supply) on board’s oxygen analyzer, High & low level arms, Navigational lights,

Emergency Radio Operation, Electrical Deck auxiliaries.

5 Maintenance and types of faults & indications:

On Generator, motor, & distribution systems, Different Testing equipments & meters (uses of multimeter/ megger,

clamp meter, etc.), Salvaging a motor Detection of faults on electronic circuits & cards – Indications & corrective

arrangements, Necessary Precautions & care while fault finding and Repair, preventative maintenance, periodic surveys,

spares requirement. Generator alternator maintenance.

CP 03

6 Safe Electrical practice:

Safe watch-keeping, points to check on electrical machineries, Switch gears & equipment’s, microprocessor control and

maintenance of electrical fire fighting equipment’s, precautions against electric shock and related hazards.

7 Special electrical practice for oil, gas and chemical Tankers:

(Tanker classification, Dangerous spaces, Hazardous zones, Temperature class), Flame proof Ex ‘d’ and intrinsic safety Ex

‘i’, Ex ‘e’, and Ex ‘n’ equipments and their applications in zones, Maintenance of Ex-protected apparatus.

Rules and Regulations & Operation of electro-hydraulic & Electric Steering gear, Diesel-electric and Turbo electric

propulsion system, pod /Azipod drive unit, superconductivity applied in propulsion, Turbo alternator.

CP 04


Title Author

Edition Year

ISBN Publisher




T11056–TB1 Marine Electrical Technology, Elstan A. Fernandes Included:1-6, 8,10,11,13-15, 17-26 Excluded:7,9, 12, 16

II 2004

81-7366-538-9 Shroff Publishers & Distributors

T11056–TB2 Practical marine electrical knowledge. Dennis.T.Hall Included : Ch 1 to 8

II 1999

85609 182 1 Witherby & Co Ltd, London.


Excluded: nil

T11056–TB3


T11056–RB1

T11056–RB2

T11056–RB3

T11056–RB4


T11056-CD1


T11056-WL1


T11057 - Computer Science Lab





4 Level UG



01 V61 T11057 Computer Science Lab. 2 68 60 50 PR












Understand programming concepts

Understand PMS, E-learning , Networking.


6.2 Computer Applications (PMS. ELearning, LAN network, etc.)


1 To Study the different applications of MS-Office (MS Word, MS Excel, MS PowerPoint).

68 Hrs

2 Demonstration of Local Area Networking (LAN).

3 Demonstration of DBMS concepts.

4 Planned Maintenance Systems – Amos (Introduction and Operation) SFI coding for Standardization of Component Register, Maintenance: Components, Job details, Planned maintenance, Work orders, Surveys and Certificates, Maintenance history, Counters. Stock: Stock level management, spare parts transaction, bar code printing and labeling. Reports: Component reports, Maintenance reports, History reports. Purchase: Purchase orders of Spares, stores and Consumables. Approved PMS systems.

5 Evaluation of a Polynomial for single and multiple values.

6 Lowercase to uppercase text conversion (using while, do-while, for statements)

7 Calculating averages for different sets of numbers using nested loops.

8 Programs illustrating switch & break statements

9 Largest & Smallest of a set of numbers using function.

10 Calculating factorial of a +ve number using recursion.

11 Adding two tables of numbers.

12 Arranging an array of numbers in an order using different sorting algorithms



Title Author

Edition Year

ISBN Publisher




T11057–TB1 Let Us C Yashwant Kanetkar

4the Revised Edition 2002

BPB Publication

T11057–TB2 Computer Network Andrew Tannenbum

2003

T11057–TB3


T11057–RB1 Data Communication and Networking Forouzan

2005

T11057–RB2 Database Concepts Korth

2005

T11057–RB3

T11057–RB4


T11057-CD1


T11057-WL1


T11058- Workshop Practical- II





4 Level UG



01 V61 T11058 Workshop Practical- II. 2 102 60 50 PR












1. Use Hand & power tools, basic workshop practice and basic fitting.



8.5 Safety measures to be taken to ensure a safe working environment and for using hand tools, machine

tools and measuring instruments





1 Machine Shop Jobs involving shaping operations and tapping (internal threads) Jobs involving dieng of GI pipes (external threads)

102 Hrs

2 Smithy shop Jobs involving heating and forging to give various shapes. Jobs on power hammer

3 Welding shop Jobs involving arc welding of various types of horizontal joints. Jobs involving gas cutting Welding of vertical & overhead joints



Title Author

Edition Year

ISBN Publisher





Hajra Chowdary

2002

81-85099-15-4

Media Promoters & Publishers

T11058–TB2 Workshop Technology Vol. I & II 2001 81-85099-14-6 Media Promoters & Publishers

T11058–TB3


T11058–RB1 Workshop Technology Vol. I , II & III

Chapman

2001 81-85617-80-5

Viva Books


Krar Check

T11058–RB3

T11058–RB4


T11058-CD1


T11058-WL1


Semester 06 T11061- Ship Fire Prevention





4 Level UG



01 V61 T11061 Ship Fire Prevention 4 68 120 100 TH












Prevent and control fires on board.

Life saving appliances.

Special Note:


5. Units UN Name of Unit CST Questions

1 Fire hazard abroad ships CP 01 CSs

17 Hrs


end exam on these units. 2 Fire protection built in the ships

3 Life Saving Appliances CP 02 CSs

17 Hrs


end exam on these units. 4 Detection and safety systems

5 Fire Fighting Equipments CP 03 CSs

17 Hrs



6 Fire organization and Fire control CP 04 CSs

17 Hrs




12.0 Prevent, control and fight fires on board.

13.0 Operate Life saving appliances.



1

Fire hazard abroad ships:

Fire triangle, Fire Tetrahedron, Fire-chemistry, Spontaneous Combustion, Limits of inflammability. Advantages of various fire extinguishing agents including vaporizing fluids and their suitability for ship's use. Control of Class A, B and C & class D fires, Combustion products & their effects on life safety.

CP 01 2 Fire protection built in the ships: SOLAS convention, requirements in respect of materials of construction and design of

ships, (class A, B, type Bulkheads), fire detection and extinction system, Fire test, Means of escape, electrical

installations, ventilation system and venting system for tankers. Statutory requirements firefighting systems and

equipment’s on different vessels, fire doors & fire zones.

3 Life Savings Appliances: Basic knowledge of Survival Crafts and Rescue Boats their launching appliances and

arrangements. EPIRB, SART, Immersion suits and thermal protective aids. Regulations’ regarding maintenance of Life

Boat falls. List of items contained in Training manual on board ship for LSA.

CP 02 4 Detection and safety systems: Fire safety precautions on cargo ships and tankers during working. Types of detectors, Selection of fire detectors and alarm systems and their operational limits. Commissioning and periodic testing of sensors and detection system. Description of various systems fitted on ship.

5 Fire Fighting Equipments Fire pumps, hydrants and hoses, Couplings, nozzles and international shore connection,

Construction, operation and merits of different types of portable non-portable and fixed fire extinguishers installations

for ships. Properties of Chemicals used. Bulk Carbon Di-Oxide and inert gas systems, Merits and de-merits of CO2 fixed

fighting system. Fireman's outfit, its use and care. Maintenance, testing and recharging of appliances. Preparation, Fire

appliance Survey. Breathing apparatus, its uses & principle, Checks to be carried out before using SCBA and Provision

for warning or safeties in SCBA Bottle.

CP 03

6 Fire organization and Fire control Action required and practical techniques adopted for extinguishing fires in

accommodation, machinery spaces, boiler rooms, Cargo holds, galley etc. Fire fighting in port and dry dock. Procedure

for re-entry after putting off fire, Rescue operations from affected compartments. First Aid, Fire organization on ships

shipboard organization for fire and emergencies. Combustion products and their effects on Life safety. Fire signal and

Muster. Requirement regulations of Muster station. Fire drill. Leadership and duties, Fire control plan, Human behavior,

Special precautions for prevention/fighting fire in tankers, chemical carriers, Gas carriers, chemical carriers, and Safe

working practice.

CP 04


Title Author

Edition Year

ISBN Publisher




T11061–TB1 Marine Engg. Practice Vol.I, Part 5 – Fire Fighting Equipments & Its use on ships. (Include: only those topics which are mentioned in the above syllabus) G.Victory & I.H. Owen.


T11061–RB1 Fire Fighting Appliances Rules (1969/1990) (Include: only those topics which are mentioned in the above syllabus)

Jan 2005 Bhandarkar Publication

T11061–RB2


T11061-CD1


T11061-WL1

Note:


Details are taken from various books.




T11062- Marine Auxiliary Machinery- III





4 Level UG



01 V61 T11062 Marine Auxiliary Machinery- III 4 85 120 100 TH












1. Understand the operation of various auxiliaries and their systems – Refrigeration and Air conditioning, ventilation systems, Noise and vibrations, Fuel & lubrication systems.

Special Note:


5. UNITS


1 Refrigeration

CP 01 CSs

22 Hrs



2 Design and construction

3 Operation and maintenance

4 Refrigeration of cargo holds

5 Air conditioning CP 02 CSs

21 Hrs


end exam on these units. 6 Ventilation

7 Noise and Vibrations CP 03 CSs

21 Hrs



8 Fuel CP 04 Students have to answer '1 of 1' SAQ in CA and




4.3.4 other auxiliaries, including refrigeration, air conditioning and ventilation systems


9 Lubrication CSs 21 Hrs



1 Refrigeration: Principles of refrigeration, overview of refrigeration cycles, different refrigeration systems, classifications

of refrigerators, uses of refrigeration at sea, cryogenic technology – definition, temperature range, insulation.

Different refrigerants, chemical formula, desired properties (general, physical, chemical, thermodynamic)

comparison, effect on environment, Montreal protocol, New refrigerants.

CP 01

2 Design and construction: Design and construction of various components of refrigeration plants, i.e. compressor,

condenser, evaporator, expansion valves, control and safety equipments.

3 Operation and maintenance: Operation and maintenance of refrigeration plants, control of temperature in different

chambers, charging of refrigerant/oil, purging of air, defrosting methods, trouble shooting.

4 Refrigeration of cargo holds: Refrigeration of cargo holds, brine system and its operation & maintenance, methods of air

circulation in holds, insulating materials, insulation., micro-organism, dead and live cargo, factors affecting refrigerated

cargo, container ship refrigeration, preparation for loading cargo, survey of refrigeration equipments.

5 Air conditioning: Necessity on board ships, different systems, control of room air temperature, humidity, noise, dust and

purity. Construction of duct & diffuser, fans, ventilation of accommodation, fire safety balancing of system. Heat load

calculation on refrigeration and air conditioning plant.

CP 02

6 Ventilation: Ventilation of engine room, pump room, CO2 and battery rooms, air change requirements, design

considerations, maintenance.

7 Noise and Vibrations: Elements of aerodynamics and hydrodynamics sound, Noise Sources on Ships and noise

suppression techniques, Noise level measurement. Various modes of vibration in a ship (i.e free, forced, transverse,

axial, torsional – their sources and effects), Resonance and critical speed, Structure borne, air borne vibration, Anti

vibration mountings of machineries, De-tuners, Dampers with reference to torsional vibrations dampers, use of

torsiographs.

CP 03

8 Fuel: Source of supply, Study of primary Fuels, Coal, Petroleum, Natural Gas, Classification of Fuels. Treatment of Fuels

for combustion in Marine I.C.E. and Steam Plants, Residual fuels, Emulsified Fuels, Merits and demerits of such fuel in

marine engines.

CP 04 9 Lubrication: Theories of lubrication, types of lubricants and their Properties Suitability of Lubricants for various uses;

solid and fluid lubricants. Additive Oils and their specific use. Terminology used in Lubrication systems. Loading pattern

of various bearing in marine use and lubrication system adopted. Different types of bearing used for marine machineries.

L.O. analysis & monitoring Engine through report.


Title Author

Edition Year

ISBN Publisher





2nd Edition 0-7506-2530-9 Butterworth Heinemann


7th Edition 0-7506-4398-6 Butterworth Heinemann

T11062–TB3


T11062–RB1

T11062–RB2

T11062–RB3

T11062–RB4


T11062-CD1



T11062-WL1

Note:

1. The above books are used to prepare the subject material.




3. The teaching material is also upgraded accordingly. It is also required to refer to various other websites and books for latest



T11063- Marine Ship Repair, Maintenance of ER Machineries &

Dry Docking





4 Level UG



01 V61 T11063 Marine Ship repair, Maintenance of ER Machineries & Dry Docking 4 85 120 100 TH












1. Safety measures to be taken for repair and maintenance of machineries in Engine room of a Merchant Navy ship.

2. Have knowledge of maintenance and repair such as dismantling, adjustment and assembly of machineries of engine room.

Special Note:


5. UNITS


1 Lathe Machine, Gas cutting, manual metal arc

welding CP 01 CSs

22 Hrs


end exam on these units. 2 Tools used in ER

3 Fastening Safe working practices as per SMS

4 Maintenance & Repair of valves.

CP 02 CSs

21 Hrs



5 Types and application of packing

6 Filters

7 Boilers


8.0 Appropriate use of hand tools and measuring instruments for fabrication and repair on board.

9.0 Maintenance and repair of shipboard machinery and equipment.


8 Centrifugal, reciprocating, screw & Gear

Pumps CP 03 CSs

21 Hrs



9 Heat Exchangers

10 Air Compressors

11 Turbocharger

12 Maintenance of Diesel Engines CP 04 CSs

21 Hrs


end exam on these units. 13 Dry Docking


1 Lathe Machine: Purpose of center lathe, construction and functions. Name of parts, Type and application of various

cutting tool bit, cutting speed. Precautions before, during and after working on Lathe machine.

Gas cutting: Oxygen & Acetylene gas cylinders used on board, Equipments: Pressure regulators for O2 & C2H2 cylinders,

Flame arrestors, Gas cutting torch, Cable connectors, Procedure of Gas cutting. Brazing of Brass & silver.

Manual Metal Arc Welding: Principles of Arc welding, Equipments – Welding machine, Electrode holders, coated

Electrodes. Welding accessories – Electrode holders, Cables, Face covers. Precautions to be taken before starting, during

and after welding in Engine room, Hot work Precautions and Hot work permit. Common faults in welding, Welding of

cast Iron. Specifications for carbon steel pipes for ordinary piping. Copper tube fittings.

CP 01 2 Tools used in Engine Room: Types of Spanners, Adjustable angle wrench, Socket wrenches, Pliers, Hammers, Mallets,

Hole punches, Gasket and washer cutter, Tube cutter, Gear and wheel puller, Screw drivers, Screw clamps, Chisels,

Punches, Vernier caliper, Packing hook, Scissors, Chain hoist, Wire slings. Stud extractors.

3 Fastening: Identification of types of thread fasteners. Tightening procedures of nuts and bolts in correct sequence on a

flange / machinery.

Safety measures to be taken for repair and maintenance of machinery in Engine room - to be identified through proper

risk assessment. Checks to be based on SMS.

4 Maintenance & Repair: Examination of valves, seats spindles and glands, Grinding and facing up of valve, Measure bend

of a valve / spindle, Maintenance and facing up of sluice valve, Precautions for grinding and facing up of valve and seat. Sling Wire rope - Safe working load of sling wire rope, Slinging a load in ER. Repair breakage on a steel pipe in Engine room, Alignment of flange holes of a pipe line. Removal of seized bolts and nuts on flanges

CP 02 5 Types and application of packing

Types of flanges. Emergency repairs to stop leakages from pipe lines in engine room. Types of threads used on ship, Removal of broken studs or bolts and tapping.

6 Boilers: Cleaning and inspection of fire side of a boiler. Maintenance of water side of a boiler. Restoration of boiler after repair / maintenance. Repair of firebrick wall of a furnace.

7 Filters: Precautions to be taken before dismantling and after assembly of filters in Engine room, Dismantling and examination of various parts of filters in Engine room.

8 Centrifugal, reciprocating, screw & Gear Pumps: Assembling and dismantling of various pumps in Engine room,

Clearances between various parts of pump, Alignment between pump and motor. Installation and removal of Ball

Bearing, Extraction of pump coupling, renewal of gland packing of a pump. Mechanical seals of a pump. Adjustment of a

v-belt.

CP 03 9 Heat Exchangers: Precautions before starting maintenance work on Heat Exchangers, Dismantling and Examination of

various parts for leakage, corrosion, erosion and fouling, plugging and replacement of tubes, means of reducing

corrosion.

10 Air Compressors: Precautions before starting maintenance work on Air compressors, Dismantling and examination of

various parts, Suction and Delivery valves and their maintenance, Maintenance of relief valves, bursting discs, cooling

tubes and cooling passages, drains. Dismantling and examination of Piston and rings.

11 Turbo-charger: Dismantling of air filter, air casing, impeller, volute, diffuser, nozzle ring, rotor and bearings. Examination

of all parts for wear and tear of all parts. Reassemble and checks and clearances


12 Maintenance of Diesel Engines: Dismantling and examination of all parts of wear and deterioration including Pistons,

piston rings, liners, bearings, valves, cooling passages. Crankshaft alignment, maintenance of cylinder head mountings

like Air starting valves, fuel injectors, relief valves, suction and exhaust valves. Dismantling and examination of various

parts of Fuel injection pumps, Fuel pump timings.

CP 04 13 Dry Docking: Preparations in Engine room before dry-docking of vessel – repair list. Precautions during dry dock,

Requisitions of spares and stores etc. Precautions before a vessel enters dry-docks, Maintenance of stern tube

bearings, Propeller shaft sealing equipments, rudder – pintle clearances. Maintenance of sea water suction and

overboard valves. Various jobs done during dry dock, Power supply during Dry-docking – electric shore supply

connection. Shore Cooling water connection.


Title Author

Edition Year

ISBN Publisher




T11063–TB1 Elements Workshop technology, Vol I & II Hajra Choudhary

2009 Media Promoters Publishers

T11063–TB2 Operation & maintenance of Machinery in Motorships N.E.Chell

1999 IMarEST

T11063–TB3


T11063–RB1

T11063–RB2

T11063–RB3

T11063–RB4


T11063-CD1


T11063-WL1

Note:

1. The above book are used to prepare the subject material.




3. The teaching material is also upgraded accordingly. It is also required to refer to various other websites and books for latest



T11064- Seamanship, Commercial Geography & ISPS





4 Level UG



01 V61 T11064 Seamanship, Commercial Geography & ISPS 4 51 120 100 TH












Chartering of ships, voyage planning.

ISPS codes

IMO conventions

Special Note:



1 Difference between Domestic and Foreign

trade CP 01 CSs

13 Hrs


end exam on these units. 2 Major Shipping Routes, Ports

3 Chartering of ships CP 02 CSs

12 Hrs



4 Organisational structure

5 Voyage planning and estimation

6 Marine insurance

CP 03 CSs

13 Hrs



7 P&I clubs

8 Commercial Shipping practices

9 Registration of Ships

10 IMO Conventions


18.0 Maintain the conditions set forth in a ship security plan. Recognition of security risks and threats. Undertake

regular security inspections of ship and proper usage of security equipment if any.


11 ISPS CP 04 CSs

13 Hrs


end exam on these units. 12 Seamanship


1 Difference between Domestic and foreign trade. Basic of International Trade:- Trade-theories. Free-Trade Vs

Protection. Balance of payments – components, causes of deficit, steps to correct deficit. Exchange-Rates:- Types,

determination

CP 01 2 Major Shipping Routes, Ports:- Types, Problems, factors for good port. Major ports of Indian and World. Port-pricing.

Pollution of water – causes and remedies. Deep-sea fishing, Major sea-fishing zones, Off-shore oil producing zones.

India’s overseas Trade and Economics Importance with reference to Economic zones.

Chartering of ships, Flag of convenience, Policy of protection and subsidy. Allocation of market resources in a wealth-

maximizing manner, Modern shipping Practice Marine vehicles and cargo, care of cargo against damage. Development

in shipping and cargo handling Multimodal transportation, factors affecting universal adoption. Liner and tramp

shipping services.

3 Chartering, Charter parties: Theory of freight rates and fares. Rate fixation machinery and government control.

Responsibilities of ship owners & charters. Tanker chartering. Freight rates & fares – various terms, influencing factors, market pricing.

CP 02

4 Organizational structure: Restructuring on the basis of functional coherence, ship management companies. Turn around strategy for sick shipping companies. Ownerships of vessels, shipping Company and its administration.

5 Voyage planning and estimation: Planning sailing schedules. Influencing factors, Voyage estimation, Manning of ships, engagement & discharge of crew, Economic factors.

6 Marine insurance: Underwriting and loss adjusting principles applied to Marine cargo insurance. Hull / Machinery

policy particular average. General average

CP 03

7 P and I clubs – making claims: Relation between Insurance premium, & non-conformity / condition of class. Economics

of new and second hand tonnage. Subsidies, procedure & implication of buying & selling new / old vessels.

8 Commercial Shipping practice: Manning of ships. Engagement and discharge of crew, O.L.B. Seaman’s welfare.

9 Registration of ship: ship's papers. Port Procedures. Pilot age, Flags of convenience, flags of discrimination and their

effects on shipping. Duties regarding pollution. Collision, Explosion fire etc. Vessels in distress. Shipping casualties

penalties under Merchant Shipping Act.

Marine Fraud : Genesis and prevention. Indian Shipping : Current scenario and few case studies.

Introduction to Maritime Law, Law of the sea, International Straits, Exclusive Economic zones, Territorial sea and

contiguous zone, International convention for control and management of Ships ballast water and sediments, 2004.

IMO

10 Conventions: UNCLOS 1982, COlREG, International convention on tonnage measurement of Ships, 1969. ITU Radio

11 ISPS: Maritime security levels, reporting procedures, drills and exercises, IMO circulars, Ship security plan and

contingency plans.

Security documentation, security threads, recognition of weapons, dangerous substances and devices, crowd

management and control, physical searches and inspections. Monitoring of restricted areas, controlling access to ship,

controlling access to restricted areas, monitoring of deck areas and areas surrounding the ship, general knowledge of

various types of security equipments and systems. Calibration of security equipments.

CP 04

12 Seamanship: Duties of seaman, watch structure, Ropes Vegetable and Manmade fibre, wires, practices of knots, Blocks

and tackles, Moorings, Anchorwork, Logs, flags, Life saving and Fire fighting appliances uses , Lifeboat, liferaft,Use of

Distress signals, Bad weather precautions.


Title Author

Edition Year

ISBN Publisher





T11064–TB1 Logistics Mgt.World Sea Trade, Krishaveni

81-7866-405-4 Himalaya Pub.

T11064–TB2 ISPS Code 2003 Bhandarkar publications

T11064–TB3


T11064–RB1 Seamanship Capt. Dinger

2009 Bhandarkar Publications

T11064–RB2

T11064–RB3

T11064–RB4


T11064-CD1


T11064-WL1

Note:


T11065- Marine Control Engineering & Automation





4 Level UG



01 V61 T11065 Marine Control Engineering & Automation 4 119 120 100 TH












1. Understand the operation of remote operation of machinery 2. Maintain the automatic regulators on board

Special Note:



1 Measuring devices-I 8 Hrs Students have to answer '1 of 1' SAQ in CA and


2 Measuring devices-II 8 Hrs

3 Transmitter, Converter and Controller 4 Hrs


4.1.7 Steering gear

4.1.8 Automatic Control Systems


4.2 Safety and emergency procedures for operation of propulsion plant machinery, including control systems.

6.1.3 Control systems:

6.1.3. a Various automatic control methodologies and characteristics

6.1.3.b Proportional–Integral–Derivative (PID) control characteristics and associated system devices for process control

6.1.2.b Flowchart for automatic and control systems

6.1.2.c Functions, characteristics and features of control systems for machinery items, including main propulsion plant operation control and steam boiler automatic controls

7.5.1 Monitoring systems

7.5.2 Automatic control devices


4 Control Systems 8 Hrs

5 PID Controller 8 Hrs



6 Control valve, Actuator and Positioner 6 Hrs

7 Automatic Control Systems 5 Hrs

8 Programmable Logic Controller (PLC) 9 Hrs

9 Marine boiler control 6 Hrs



10 Control of main machinery 8 Hrs

11 Bridge control 4 Hrs

12 Use of Instrumentation onboard 10 Hrs

13 Control System Theory 10 Hrs



14 Analysis of Control Systems 8 Hrs

15 Analysis of System Performance 10 Hrs


1 Measurement-I: Temperature (Thermometer, Thermistor, Thermocouple and Pyrometer) Level (Direct Methods) Describes the principle of a float-operated level-measuring device Describes the principle of a probe element Describes a displacement gauge (Inferential Methods) Explains the principle of inferential methods Describes a level sensor based on immersed resistors Describes a level indicator based on a bubbler system Describes a pneumercator gauge Pressure (manometers,simple water, wide-cistern or well ,inclined-tube mercury and pressure gauges Bourdon diaphragm-sealed gauge Schaffer,twin-bellows differential-pressure cell, strain gauge) Flow Measurement Quantity meters, Rate of flow meter, differential flow meter, variable area flow meter, vortex flow meter

CP 01

2 Measurement-II: Tachometers: AC and DC Electrical Tachometer, Shaft power meter, torductor Water Purity Meters: Salinity Indicator, pH meter etc. Oil in Water Monitor: Photoelectric Cell, smoke density detector, flame detector Viscosity Sensors, Oil Mist Detector, vibration monitor, Oxygen analyzer ,CO2 analyzer, explosive gas detector, salinity measurement, dissolved oxygen meter, pH meter .

3 Transmitter, Converter and Controller: Pneumatic Transmitters: Flapper Nozzle, Force Balance Transducer, Electro-Pneumatic converter. Electrical Transmitters, Variable Resistance, Variable Inductance, Variable Capacitance Transducer, V to I convertor Receiver: Synchros, potentiometric pen recorder, X-Y recorder

4 Control Systems: Introduction to Supervisory control and data acquisition , Distributed control system, Global positioning system, RADAR, Hull protection system

5 PID Controller:

P, PI, PD, PID controllers mode, Two step (On-Off) control, Modulating control, off set or Droop, Desired value, Controller: Electronic, Pneumatic and Hydraulic type, Stacked type, Electronic and pulse type controller, controller adjustments relays on-off cutoff switches, control system response: Distance, Velocity and transfer lags.

CP 02 6 Control valve, Actuator and Positioner:

Flow characteristics, turn down ratio ,types of control valves Diaphragm actuators, Piston actuators, Electro-Pneumatic actuators, Electro-Hydraulic actuators and Electric actuator control valve. Valve Positioner. Electrical and hydraulic servomotor Automatic Control Systems. Open loop, Closed loop system, Feedback control, Feed forward control, Cascade control, split range control and Ratio control system, Automation of Dual Fuel, water ingress alarm system, Draft reading control system, Ballast water management system

7 Programmable Logic Controller (PLC) : Sequential control, relay circuit unit, Architecture and simple programming of PLC generator; generator automatic control (GAC) (auto-synchro, load sharing, etc.) primary mover start/stop sequence controllable Pitch Propeller (CPP); auto load/blade angle control.


8 Marine Boiler Instrumentation: Automatic Combustion Control (ACC), burner control, Feed Water Control (FWC), Steam Temperature Control (STC) auxiliary machinery; purifier automatic control (automatic sludge discharge), temperature/level/pressure/viscosity control

CP 03

9 Control in main Machinery: Fluid flow of fuel oil, lubricating oil, cooling fresh water, cooling sea water systems in the diesel engine propulsion plant. Fluid flow of main steam, codensate water, feed water, lubricating oil systems in the steam turbine propulsion plant Control in main Machinery units , Jacket cooling water, Piston cooling water and scavenge air, Fuel oil viscosity control, working of control system during Maneuvering of direct Reversing Diesel Engine

10 Bridge control of main machinery: Bridge control of main machinery, Instrument for UMS classification.

11 Use of Instrumentation onboard: Ship Steering control system, block diagram of Ship Steering control system, block diagram of dynamic positioning system, Use of instrumentation onboard in power distribution/generation system, Explains flow charts indicating automatic control system for main engine, generator control system and others taking some of them as examples.

12 Control System Theory:

Laplace Transform, Mathematical representation of systems using differential equations of Mechanical, Electrical, Thermal and Liquid level systems, Transfer Function, Block diagrams representation, signal flow graph, Concept of Stability, Routh &Hurwitz criterion etc.

CP 04

13 Analysis of Control Systems: State variable analysis, state variables, state space models from transfer functions, controllability, observability

14 Analysis of System Performance: Time response analysis of control systems. Type and order of the systems Transient response specifications. Time response of first order and second order systems, Effect of feedback on time constant, overall gain, stability and disturbance, Lead and Lag compensator circuits


Title Author

Edition Year

ISBN Publisher




T11065–TB1 Automation and Control System VikramGokhale N. Nanda

2004 Bhandarkar

T11065–TB2 Instrumentation Measurement and Analysis NakraChaudhry

Second TATA Mc GrawHill

T11065–TB3 Mechanical Measurements and Control R V Jalgaonkar

2005 Bhandarkar


T11065–RB1 Reed’s Instrumentation and control system. Vol-10 Leslie Jackson


T11065–RB2 Modern Control Engg. K. Ogata

Fourth Pearson Education

T11065–RB3 Process control instrumentation Technology C. Johnson

Fourth PHI

T11065–RB4 Industrial Instrumentation and Control S K Singh

second Tata Mc Graw Hill

T11065–RB5 Electrical and Electronic Measurements and Instrumentation A K Sawhney

2006 DhanpatRai&Co


T11065-CD1


T11065-WL1

Note:


T11066- Marine Electrical Technology -II





4 Level UG



01 V61 T11054 Marine Electrical Technology -II 4 102 120 100 TH












1. Understand the working principles of various electrical machineries on board.

Special Note:


5. UNITS


1 Maintenance of alternators CP 01 CSs

25 Hrs



2 Circuit breakers, motors

3 starters

4 Distribution system: AC,DC CP 02 CSs

27 Hrs



5 Cables, earth faults

6 Emergency Batteries

7 Detection of Electrical Malfunction. CP 03 CSs

25 Hrs



8 Internal communication on Board.

9 High voltage installations



6.1.1.d High voltage installations



7.3 Fault detection


10 Protective devices for marine machinery. CP 04 CSs

25 Hrs


end exam on these units. 11 Insulation


1 Maintenance:

Need for maintenance, Explanation of breakdown maintenance, planned maintenance, condition monitoring.

Maintenance of Alternators:

Maintenance routines carried on alternators, precautions necessary before commencing work on alternators. List of

parts to be inspected, their common faults and necessary remedial action. Tests and records values of Insulation

resistance.

Maintenance routines carried on circuit breakers, precautions to be taken before maintenance routines carried on circuit

breakers. Defects and corrective action to be taken on circuit breakers.

CP 01

2 Maintenance on cage electric motors:

paying particular attention to damp, condensation, air flow, dust, oil. Complete overhaul of motor – changing of bearings

3 Maintenance of Starters:

Maintenance carried out on starters and controllers with specific reference of casings, corrosion and bonding,

contactors, magnetic faces, pitting, overheating, spring forces. Connections cables and leads. Correct operation of

starters, when in use.

4 Distribution system:

Maintenance checks carried on Transformer. Explanation faults like open-circuit, earth fault and short circuit. Estimation

of current flowing during faulty condition. Earth fault instruments. Care necessary when maintaining exposed water tight

fitting and portable hand lamps on board. Routine maintenance of lighting circuits and fittings.

CP 02

5 Cables: Fitting cables through glands in terminal box, earthing armoring as appropriate. Measuring resistance of a cable.

Temporary repairs to insulation of a cable. Reaction of electric cables to fire. Maintenance of cables.

Circuts: M/E Turning gear, E/R crane control, Bilge pump, Main air compressor, Boiler, oil transfer pump, Fire pump,

Supply/Exhaust fan, Auto C/O St.By pump.

6 D.C.Electrical system (Emergency Batteries): Testing of emergency lights and back-up power supply lines for the ship’s

propulsion machinery. Maintenance carried out on batteries taking all necessary precautions. Gases given off when

recharging a lead-acid battery. Emergency lights on emergency switch board and on emergency battery circuit.

7

Detection of Electric Malfunction and measures to prevent damage: Over-current relays and principles of

operation. Advantages and disadvantages of high-rupturing-capacity fuses. Protection provided against short circuits and

small overloads. Preferential trips, overload protection of generators and of motors. Reverse power protection. Use of

Transformers for switchboard instruments. Voltage and current transformer circuits and safe procedure on working on

such circuits.

CP 03 8 Internal communication system on board: Operation of all internal communication. Communication instruments

between Engine room, bridge and steering room. Communication between bridge and Engine room.

9 High voltage installation: Special characteristics and features of installations in comparison with less than 1000 volts.

Safety Precautions to be taken while handling high voltage system. Rules and regulations with respect to high voltage

installations. Earthling and insulation of high voltage system. Uses on board ship.

10 Protective devices: Explanation of main engine and generator shut down such as Over-speed, lubricating oil low

pressure. Boiler shut down such as Low water level, flame failure etc. Purifier shut down.

CP 04 11 Insulation : Leakage in cable, insulating resistance, insulating materials, Importance of ventilation.



Title Author

Edition Year

ISBN Publisher




T11066–TB1

Marine Electrical Technology, Included:1-6, 8,10,11,13-15, 17-26 Excluded:7,9, 12, 16 Elstan A. Fernandes

II 2004

81-7366-538-9 Shroff Publishers & Distributors

T11066–TB2 Practical marine electrical knowledge. Included : Ch 1 to 8 Excluded: nil Dennis.T.Hall

II 1999

85609 182 1 Witherby & Co Ltd, London.

T11066–TB3


T11066–RB1

T11066–RB2

T11066–RB3

T11066–RB4


T11066-CD1


T11066-WL1

Note:


T11067- Boiler Chemical Lab.





4 Level UG



01 V61 T11067 Boiler Chemical Lab.. 2 34 60 50 PR












1. Understand and maintain the water quality of a boiler within the desired values.


4.1.4 Marine boilers

4.3.2 Steam Boiler and its associated system


1 To determine hardness content of the sample of boiler water in P.P.M. -- in terms of CaCo3

34 Hrs

2 To determine Chloride content of the sample water in P.P.M. in terms of CaCo3

3 To determine Alkalinity due to Phenolphthalein

4 To determine Phosphate Content of the sample of water.

5 To determine dissolved oxygen content of the sample of water

6 To determine sulphate content of the given sample of water.

7 To determine Ph-Value of the given sample.

8 To demonstrate the use of AgNO3 for qualitative evaluation of Salinity

9 Techno Commercial What are the factors that increase the cost of a water tube boiler over a fire tube boiler?

10 What are the advantages of welded tube ends versus expanded tube ends?

11 How will you define the full scope of external cleaning, to enable firms to correctly quote for your job?


Title Author

Edition Year

ISBN Publisher





T11067–TB1 Marine steam Boiler JH Milton

- Sterling Books Depot

T11067–TB2 Marine Boiler Third Edition GTH Flanagan

1990 Bulterworth Heinemann

T11067–TB3


T11067–RB1 Operator’s Manual Boiler Manufacturer

- By Boiler Manufacturer

T11067–RB2

T11067–RB3

T11067–RB4


T11067-CD1


T11067-WL1


T11068 - Marine Control & Engineering Lab.





4 Level UG



01 V61 T11068 Marine Control & Engineering Lab. 2 51 60 50 PR












1. Understand remote operation and maintain such equipments on

board.


4.1.7 Steering gear

4.1.8 Automatic Control Systems.


4.2 Safety and emergency procedures for operation of propulsion plant machinery, including control systems.

6.1.3 Control systems:

6.1.3. a Various automatic control methodologies and characteristics

6.1.3.b Proportional–Integral–Derivative (PID) control characteristics and associated system devices for process control

6.1.2.b Flowchart for automatic and control systems

6.1.2.c Functions, characteristics and features of control systems for machinery items, including main propulsion plant operation control and steam boiler automatic controls

7.5.1 Monitoring systems


9.7 The interpretation of piping, hydraulic and pneumatic diagrams


1 Description of basic engine functions and their simulation introduced in Auto-Chief-II system of Nor-Control. 51 Hrs

2 Manual method of engine operation for engine room station.


3 Engine Operation from Remote stations –i.e. engine control room and Navigation bridge.

4 Safety and interlocks in UMS-ships and effect of malfunction to main engine auxiliaries.

5 Electronic logic circuits in remote control stations.

6 Simulation of engine functions in logic circuits.

7 Study and adjustments of logic circuits for remote control operation of main engine and trouble shooting.

8 Interfacing Input / Output interfacing and pneumatic interfacing in the system.

9 Role of classification societies with reference to UMS-Ships.

10 Operation of Automatic Viscosity Controller and maintaining a specific viscosity of a given fuel.

11 Operation of an Automatic flow controller and measuring the flow from in a given pipe.

12 Operation and utility of a 3 Term (P + I + D) Pneumatic controller.

13 To study the functioning of a Mist Detector and checking the alarm when the Pre-set value is exceeded.

14 Study the operation of fire detection unit using Ionization chamber type detector.

15 CNC & VMC machines, microprocessor controlled DC & Ac machines, SCADA.

16 Study of different Hydraulic and Pneumatic components used onboard

17 Study of calibration and testing of different gauges

18 Study of automation of any one or two example using a PLC


Title Author

Edition Year

ISBN Publisher




T11068–TB1 Automation and Control System Vikram Gokhale N. Nanda

2004 Bhandarkar

T11068–TB2 Instrumentation Measurement and Analysis NakraChaudhry

Second TATA Mc-GrawHill

T11068–TB3


T11068–RB1 Reed’s Instrumentation and control system. Vol-10 Leslie Jackson


T11068–RB2 Modern Control Engg. K. Ogata

Fourth Pearson Education

T11068–RB3 Process control instrumentation Technology C. Johnson

Fourth PHI

T11068–RB4 Instrumentation Engineers Handbook Vehicular Instrumentation/Transducer committee

2005 Range Commanders Council


T11068-CD1


T11068-WL1


Semester 07 T11071- STCW & Class IV Preparation - I





4 Level UG



01 V61 T11071 STCW & Class IV Preparation - I 4 51 120 100 TH












1. Keep a safe watch on running machineries of a ship. 2. Have knowledge of IMO conventions

Special Note:


5. UNITS


1 STCW Convention and watch keeping in

Engine room. CP 01 CSs

13 Hrs


end exam on these units. 2 Requirement for watch keeping duties.

3 Engineering watch procedures during

emergencies CP 02 CSs

13 Hrs


end exam on these units. 4 Planned Maintenance system (PMS) for

machinery

5 Minimum requirement (certificates and STCW

courses) for Ratings of Engine Room watch. CP 03 CSs

13 Hrs


end exam on these units. 6 Engineering watch General.


1.1 Maintain a Safe Engineering watch

6.2 Planned Maintenance system


7 Watch on Fuel & Lub. Oil arrangements.

Watch on Boilers.

CP 04 CSs

12 Hrs




1 STCW Convention and watch keeping in Engine room: Standard of Training Certification and Watch-keeping for sea farers international Conference of 1978, modifications under STCW 1995, Latest amendments under STCW 2010 (Manila amendments)

CP 01 2 Requirement for watch keeping duties: Basic principles to be observed in keeping a engineering watch. Familiarization

of equipments/machineries is required while joining a ship by an engineer under STCW95. Requirement for watch keeping duties, Criteria for composing the engine room watch. Scope of Watch keeping, Requirements standards for Fitness of duty (fatigue, rest period under STCW 1995 and 2010 manila amendments).

3 Engineering watch procedures during emergencies: Requirement for certification, Requirement for training in

firefighting and fire prevention- theoretical, practical, Duties and responsibilities concerning safety and protection of

environment. Physical training and experience in watch keeping routine. Watch on Main and aux machinery, Pumping

systems, Generating plant.

CP 02

4 Planned Maintenance system (PMS) for machinery: Engineering watch procedures during emergencies (Stoppage of

main Engine, Black out, Fire in ER, Grounding, Collision), Elementary First aid (for burns, shock, inhalation of smoke).

5 Minimum requirement (certificates and STCW courses) for officers and Ratings of Engine Room watch: Special

requirement (certificates and STCW courses) for engineer officers for class IV, II & I Engineers on cargo ships and oil Tankers. Details of operational guidance for In-charge of an engineering watch.

CP 03

6 Engineering watch (underway) General: Taking over watch, Periodic checks of machinery, Engine room log book, Preventive repair and maintenance [Planned Maintenance system (PMS) for machinery]. Engineering watch concerning navigation in congested water and during restricted visibility and calling the attention of the Chief Engineer Officer by Watch keeping officer.

7 Watch on Fuel & Lub. Oil arrangements. Watch on Boilers: Watch on Fuel and Lub Oil arrangements – Bunkering,

Transfer, Purification. Watch during Maneouvering, Watch during Anchorage and in Port. Engineering Watch

(Unsheltered anchorage) Conditions to be ensured. Watch-keeping (in port) Watch arrangements; Taking over the

watch; Keeping a watch. Protection against Pollutions. Documents maintained / required in Engine room. Precautions to

be taken before entering enclosed spaces on a vessel . Basic safe working practices to be followed on cargo ships /

tankers. Safety and Emergency procedures for operation of propulsion plant Machinery –Procedures of watch keeping in

case of Main Engine auto-slow down. Procedure of change-over to Emergency Steering.

Ship operation - Documents required for repair and maintenance of Main Engine and Auxiliary Engine, Emergency

operations; Training of other personnel’s on board, Requirement of continued up-dating of proficiency, Precautions to

be taken before hot work in ER.

CP 04


Title Author

Edition Year

ISBN Publisher




T11071–TB1

STCW Code & Convention-95. (Include: only those topics which are mentioned in the above syllabus)

IMO, London.

T11071–TB2 Course material

T11071–TB3


T11071–RB1

T11071–RB2

T11071–RB3

T11071–RB4


T11071-CD1



T11071-WL1

Note:

The above book is used to prepare the subject material.

Details are taken from various books as well as from IMO websites for latest amendments in IMO conventions.




T11072- Tanker Operations





4 Level UG



01 V61 T11072 Tanker Operations 4 68 120 100 TH












1. Principles of Safe Tanker Operations

Special Note:

4. UNITS


1 Introduction to Oil tankers CP 01 CSs

17 Hrs



2 Basic Physics & Hazards of Petroleum General precautions

3 Enclosed space entry & Gas indicators

4 Operational Pollution & ODME CP 02 CSs

17 Hrs



5 Tanker Construction

6 Cargo Pumps

7 Loading, Discharging, cargo heating CP 03 CSs

17 Hrs



8 Tank cleaning & COW Purging and Gas freeing

9 MARPOL Annex I , SOPEP

10 Inert Gas System CP 04 CSs

17 Hrs


end exam on these units. 11 Vapour Emission control


1 Introduction to Oil tankers : Tanker types as per cargo carried and size, Tanker terminology.

CP 01

2 Basic Physics & Hazards of Petroleum General precautions : Flammability, Charge accumulation, electrostatic discharge, fire triangle, Source of ignition, hot work, Hazards (health) of Petroleum. General precautions - Clothing, Smoking & naked lights, Use of hand tools, power tools, repairs, hot work.


3 Enclosed space entry & Gas indicators: Hazards in enclosed space, Precautions before entry into enclosed space, pump room entry. Multi gas detector, Explosive meter, Portable oxygen analyzer, Tank scope.

4 Operational Pollution & ODME: Causes of marine pollution, Operational marine pollution, ODME, ORB entries.

CP 02

5 Tanker Construction: Tanker types Single hull, Double hull, tankers with deep well pumps, Level gauges.

6 Cargo Pumps: Centrifugal pump theory, Vacuum-strip system, steam reciprocating stripping pump, Screw pumps, Deep-well pumps, eductors.

7 Loading, Discharging, cargo heating:

Tanker operations, Loading, Discharging, Ballasting, Deballasting, Cargo heating.

CP 03 8 Tank cleaning & COW:

Tank cleaning, Crude oil washing operation and check lists. Purging & gas freeing.

9 MARPOL Annex I, SOPEP.

10 Inert Gas System:

General arrangement of IG plant, production and deck distribution systems – Scrubber, recirculation line/valve, main control valve, IG blowers, deck seal, IG vent valve, P/V valve, P/V breaker, starting up and shutting down procedure of IG plant, Various methods of IG generation ( boiler uptake & IGG), Fixed oxygen analyzer.

CP 04

11 Vapour Emission control: Vapour emission control system.


Title Author

Edition Year

ISBN Publisher




T11072–TB1

Safe Oil Tanker Operations K.D.Mistree & B.K.Sharma

5th edition 2009

Marinez

T11072–TB2 Basic Introduction to Oil, Chemical, LPG & LNG Tanker Handbook K.D.Mistree

1st Edition June 2011

Marex

T11072–TB3


T11072–RB1 Manual of oil tanker operations Solly

T11072–RB2 ISGOTT Witherby & Company Ltd

T11072–RB3

T11072–RB4


T11072-CD1


T11072-WL1

Note:

The above books are used to prepare the subject material.




T11073- Ship-in-Campus - 1





4 Level UG



01 V61 T11073 Ship-in-Campus - 1 2 85 60 50 TW+PR












1. Understand functioning of auxiliaries and systems for main

propulsion plant and diesel generators 2. Operate different types of pumps and compressors 3. Understand a safe engineering watch.

4. Overhaul different types of pumps, compressors and valves.


Competency No. 1 :

Maintain a safe Engineering Watch

1.1

Thorough Knowledge of Principles to be observed in keeping in engineering watch, including. Duties associated with taking over and accepting a watch. Routine duties undertaken during a watch. Maintenance of the machinery space logs and the significance of the readings taken. Duties associated with handing over a watch.

1.2 Safety and emergency procedures, change-over of remote/automatic to local control of all systems.

1.3

Safety precautions to be observed during a watch and immediate actions to be taken in the event of fire or accident with particular reference to oil systems.

Competency No. 4

Operate main and auxiliary machinery and associated control systems

4.1

Basic construction and operation principles of machinery systems, including marine diesel engine, marine boiler, shafting installations including propeller, other auxiliaries including various pumps, air compressor, purifier, freshwater generator, heat exchanger, refrigeration, air conditioning and ventilation systems.

4.2

Safety and emergency procedures for operation of Propulsion plant machinery, including control systems

4.3

Preparation, operation, fault detection and necessary measures to prevent damage for the following machinery items and control systems


Competency No. 5

Operate Fuel, Lub oil, Ballast and other Pumping systems and associated control systems.

5.2 & 5.3

Operation of Pumping system, routine pumping operations, operation of Bilge, ballast & Cargo pumping systems and Oily water separator requirement and operation:

Manage fuel, lubrication and ballast operations

5.4 Operation and maintenance of machineries, including pumps and piping systems.

Competency No.7

Maintenance and repair of electrical and electronic equipment

7.1

Safety requirements for working on ship board electrical systems, including the safe isolation of electrical equipment required before personnel are permitted to work on such equipment.

7.2

Maintenance and repair of electrical system equipment, switch boards, electric motors, generators and DC electrical systems and equipment.

7.3 Detection of electric malfunction, location of fault and measures to prevent damage


7.5 Function and performance tests of the following equipment and their configuration

7.5.1 Monitoring system


7.5.3 Protective devices

7.6

Interpretation of electrical and simple electronic diagrams Manage trouble shooting, restoration of electrical and electronic control equipment to operating condition

7.7

Practical knowledge: Trouble shooting of electrical and electronic control equipment and monitoring systems. Function test of electrical, electronic control equipment and safety devices.

7.8 Software version control

Competency No. 9:

Maintenance and repair of ship board machineries and equipment

9.1

Safety measures to be taken for repair and maintenance, including the safe isolation of shipboard machinery and equipment required before personnel are permitted to work on such machinery or equipment.

9.4

Maintenance and repair such as dismantling, adjustment and re-assembling of machinery and equipment

Competency No. 11

Maintain seaworthiness of the ship

11.2 Ship construction

11.2.1 General knowledge of the principle structural members of a ship and proper names of the various parts

5. Practical Activities UN Name of Practical Activity CST

1 Location of different machineries in ship-in -campus.

85 Hrs

2 Trace out piping systems of main engine (1) Lub oil system (2) JCW system (3) Starting air system (4) Fuel oil system (5) Control air system (6) Cylinder lub oil system (7) Rocker arm lub oil system

3 Trace out piping systems of auxiliary engine


(1) Lub oil system (2) JCW system (3) Starting air system (4) Fuel oil System (5) Rocker arm lub oil system

4 Trace pipe lines of compressed and control air system

5 Trace out pipe lines of sea water system

6 Trace out pipe lines of Bilge and Ballast system, and Fuel oil Bunker system

7 Trace out pipe line of Domestic Fresh water system

8 Trace out Fuel and Lub oil Purifier pipe lines in ship-in-campus

9 Set the Fuel oil transferring system and transfer fuel from storage tanks (DB/Wing tanks) to fuel oil settling tank.

10 Set the Lub oil transferring system and transfer lub oil from storage tanks to main engine sump tank.

11 Prepare Engine room Bilge system and transfer bilges into Bilge holding tank.

12 Prepare Ballast system and carry out ballasting and de-ballasting operations.

13 Prepare the system and pump out bilge holding tank through oily water separator.(15PPM) system.

14 Carry out greasing of Pumps, Motors and system valves.

15 Identify different types of ships

16 Identify different structural parts of a ship

17 Identify DB tanks and coffer dams

18 Identify different structural members of a ship


Title Author

Edition Year

ISBN Publisher




T11073–TB1 Study Material – Ship in campus

T11073–TB2

T11073–TB3


T11073–RB1

T11073–RB2

T11073–RB3

T11073–RB4


T11073-CD1


T11073-WL1







4 Level UG



















Competency No. 1 : Maintain a safe Engineering Watch

1.1



1.3


Competency No. 4 Operate main and auxiliary machinery and associated control systems

4.1


4.2 Safety and emergency procedures for operation of Propulsion plant machinery, including control systems

4.3


Competency No. 5 Operate Fuel, Lub oil, Ballast and other Pumping systems and associated control systems.

5.2 & 5.3





Competency No.7 Maintenance and repair of electrical and electronic equipment

7.1


7.2








7.6


7.7



Competency No. 9:


9.1


9.4 Maintenance and repair such as dismantling, adjustment and re-assembling of machinery and equipment

Competency No. 11 Maintain seaworthiness of the ship




1 Safety devices fitted on machineries, and their set points.

85 Hrs

2 Try out all safety alarms & trips provided on Aux. engine.

3 Try out all safety alarms & trips provided on Main engine.

4 Try out all safety alarms & trips provided on Air compressor.

5 Try out all safety alarms & trips provided on bilge well & other tanks.

6 Try out all safety alarms & trips provided on Oily water separator.

7 Try out fire alarms.

8 Understanding the operation and testing of Oil Discharge Monitoring System (ODMS).

9 Use of personal safety gears and tools

10 Understanding planned maintenance system

11 Routine maintenance schedule for various electrical equipment

12 Isolation of electrical equipment for carrying out maintenance

13 Carry out maintenance of main switch board

14 Withdraw and carry out maintenance of air circuit breaker (ACB)

15 Use of PPE (Personal Protection Equipment) and personal safeties

16 Prepare check list for carrying out major maintenance on machinery/equipment.

17 Follow safe working practices

18 Isolate the machinery electrically and from the systems.



Title Author

Edition Year

ISBN Publisher





T11074–TB2

T11074–TB3


T11074–RB1

T11074–RB2

T11074–RB3

T11074–RB4


T11074-CD1


T11074-WL1







4 Level UG




















1.1



1.3



4.1



4.3



5.2 & 5.3






7.1


7.2








7.6


7.7



Competency No. 9:


9.1







1 Understanding the duties of Engineering watch.

85 Hrs

2 Understanding the routine duties during watch.

3 Watch keeping on pumping system, checking the parameters.

4 Watch keeping on Auxiliaries.

5 Specification of Auxiliary Boiler

6 Identify different parts of Auxiliary Boiler and its associated systems

7 Trace out and draw Steam distribution system in ship-in-campus

8 Dismantle, identify parts and assembling of Fuel oil burner of Auxiliary Boiler

9 Dismantle, identify parts and assembling of Boiler safety valves

10 Dismantle, identify parts and assembling of Steam Condenser

11 Dismantle, identify parts and assembling of Boiler Main Steam stop valve

12 Dismantle, identify parts and assembling of Boiler Feed check valve

13 Dismantle, identify parts and assembling of Boiler gauge glass

14 Identifying parts and working of Steering Gear system

15 Specify details of Thrust block, Plummer blocks, Stern tube, Shafting and Propeller

16 Safety procedures to be followed for operation of Main Engine and Shafting

17 Emergency procedures to be followed in case of failure of Main Sea water pump, JCW pump and Main Air Compressor.

18 Prepare and start Auxiliary Boiler and raise steam from cold condition.

19 Carry out blow through of Boiler gauge glass


20 Carry out blow down procedure of Boiler

21 Shutting down Boiler


Title Author

Edition Year

ISBN Publisher





T11075–TB2

T11075–TB3


T11075–RB1

T11075–RB2

T11075–RB3

T11075–RB4


T11075-CD1


T11075-WL1







4 Level UG



01 V61 T11076 Ship-in-Campus-4 2 102 120 100 TW+PR

















1.1



1.3



4.1



4.3




5.2 & 5.3





7.1


7.2








7.6


7.7



Competency No. 9:


9.1







1 To know the specification and working of Main air compressor

85 Hrs

2 To get familiarized with starting and stopping of Main air compressor

3 Identify different parts of the dismantled suction and discharge valves of Air compressor

4 Safety devices fitted on Main air compressor

5 Mountings fitted on Main air reservoir

6 To know the specification of different types of Pumps in ship-in- campus

7 Identify different parts of the dismantled vertical Centrifugal pump

8 Identify different parts of the dismantled Reciprocating pump

9 Identify different parts of the dismantled Screw pump

10 Identify different parts of the dismantled multistage Centrifugal pump

11 Specifications of Purifiers

12 Dismantle, identify parts and assembling of Fuel oil /lub oil Purifier

13 Working principle of Fresh water Generator and identifying the parts

14 Identifying parts and working of Refrigeration plant

15 Identifying parts and working of Ventilation systems

16 Safety procedures to be followed for operation of Main Sea water pump, JCW pump, Lub oil pump and Air Compressors

17 Prepare the system and start Main Engine JCW pump


18 Prepare the system and start Main Engine sea water pump

19 Prepare the system and start Main Engine lub oil pump

20 Prepare the system and start Main Air Compressor

21 Prepare and start Emergency Air Compressor

22 Prepare the system and start Fuel oil / Lub oil Purifier

23 Prepare and start Emergency Generator.

24 Prepare and start Fresh Water Generator

25 Prepare and start the Waste oil Incinerator.

26 Prepare and start Refrigeration system

27 Prepare and start Ventilation system

28 Check rectify leaks in the system and change gland packing / mechanical seals of a Pump as required.

29 Dismantle, inspect parts, calibrate, overhaul and assemble the Vertical Centrifugal pump

30 Dismantle, inspect parts, calibrate, overhaul and assemble the Reciprocating pump

31 Dismantle, inspect parts, calibrate, overhaul and assemble the Screw pump

32 Dismantle, inspect parts, calibrate, overhaul and assemble the Multistage Centrifugal pump


Title Author

Edition Year

ISBN Publisher





T11076–TB2

T11076–TB3


T11076–RB1

T11076–RB2

T11076–RB3

T11076–RB4


T11076-CD1


T11076-WL1


T11077 - Fire Control Lab





4 Level UG



01 V61 T11077 Fire Control Lab. 2 85 60 50 PR












1. Control and extinguish fire

2. Will be able to operate life saving appliances


Competency No. 12 Prevent, control and fight fire on board

12.1 Fire prevention and firefighting appliances

12.1.1 Ability to organize fire drill

12.1.2 Knowledge of classes and chemistry of fire

12.1.3 Knowledge of firefighting systems

12.1.4 Action to be taken in the event of fire, including fire involving oil system

Competency No. 13 Operate life-saving appliances

13.1 Life saving

13.1.1

Ability to organize abandon ship drills and knowledge of the operation of survival craft and rescue boats, their launching appliances and arrangements and their equipment, including radio life - saving appliances, satellite EPIRBs, SARTs, immersion suits and thermal protective aids.

5. Practical Activities UN Name of Practical Activity CST

1 Trace out Fire pipe lines in ship-in-campus 85 Hrs

2 Specification of Main Fire pump and Emergency Fire pump


3 Operate Main and Emergency Fire pump and demonstrate water spray and jet using fire hose and nozzles

4 Operation of portable Foam Extinguisher and re-charging

5 Operation of portable CO2 Extinguisher

6 Operation of portable Dry Chemical Powder (DCP) extinguisher and re-charging

7 Operation of Fixed Fire extinguishing system(CO2 total flooding system)

8 Carry out “Fire drill” in machinery space

9 Extinguish oil fire by using Portable Fire extinguisher

10 Donning of fireman’s outfit

11 Donning of Self Contained Breathing Apparatus (SCBA)

12 Charging of SCBA air cylinder

13 Identify different parts/contents in a Life raft and Inflate life raft

14 Donning of Life jacket

15 Lowering and hoisting of Life boat.

16 Donning of Immersion suit and Thermal protection suit


Title Author

Edition Year

ISBN Publisher





T11077–TB2

T11077–TB3


T11077–RB1

T11077–RB2

T11077–RB3

T11077–RB4


T11077-CD1


T11077-WL1


T11078- Technical Paper and Project - I





4 Level UG



01 V61 T11078 Technical Paper and Project - I 2 119 60 50 PW












1. Understand and select small project. Carry out feasibility study involving design, material availability. Get quotations; prepare comparative statements and making purchase orders.

Special Note:- A group of 4-5 cadets will perform a project activity, which involves following activity based on the knowledge and the skills acquired during the completion of the courses from semester 1 to semester 6

4. ACTIVITIES UN Details of activities

1. Selection of the projects & project Guide

2. Preparation of project Execution plan : time and resource Allocation

3. Guidance by the project guide, for the self study of relevant course topics and concepts by the student.

4. Self- study of relevant course topics and concepts by the student.

5. Preparation of project specifications by the student : For (1) user inputs(2) out puts for user (3) Environmental constraints (4) Other inputs (5) Other outputs ( 6) Other important processes

6. Guidance and approval by project guide for project specifications : For (1) user inputs (2) Outputs for user (3) Environmental constraints (4) Other inputs (5) Other outputs (6) Other important processes

7. Getting final approval from guide for design

8. Getting final approval from guide for budget

5. Detail Activities UN Name of Practical Activity CST

1. The “Project work” course envisages exposing the student to actual work environment, work practices during the implementation of a project. The aim is to imbibe in student the principal that working is learning. Learning and working are two sides of the same coin and thus, work experience enhances the learning.

85 Hrs 2. The project work must involve practical work related to all practical courses from semester 1 to semester 6.

3. Student are expected to work on “project work” for about 7 Hrs per week (About two hours in counseling session with project guide and 5 hours of self –study / work at the study center / workshops) Thus only those projects, demanding such study efforts on all those activities, listed above, should be selected.

4. The original design requirements are not essential, although highly encouraged. Hence, normally, projects should not be


repeated. The same project undertaken in recent, by past students, should be avoided. But it is most important that, students must put his independent study efforts on the projects. Thus, student should gain practical project execution knowledge about making some useful product, after he goes through all projects completion steps listed above.

5. There should be clear delegation of work and responsibilities among cadets and must be clearly stated in the project report.

6. The project should, if possible, have important bearing on same practical aspect preferably of marine application.

7. Projects to be completed at the institute only, but cadets may visit relevant industry / work shop


Title Author

Edition Year

ISBN Publisher




T11078–TB1 Any of the books for the courses completed during sem.1 to semester 6

T11078–TB2

T11078–TB3


T11078–RB1 Any connected reference books connected for the projects

T11078–RB2

T11078–RB3

T11078–RB4


T11078-CD1


T11078-WL1


Semester 08 T11081- STCW & Class IV Preparation - II





4 Level UG



01 V61 T11081 STCW & Class IV Preparation - II 4 34 120 100 TH












Keep a safe watch on running machineries of a ship.

Have knowledge of IMO conventions

Special Note:



1 Safety provisions provided on Machineries on

board.

CP 01 CSs

8 Hrs



2 IMO Shipboard Regulations & IMO

conventions

CP 02 CSs

10 Hrs



3 Ballast water Management, PSC and its

implications

CP 03 CSs

8 Hrs



4 Classification Societies & ISM Code. CP 04 CSs

8 Hrs




10.0 Ensure compliance with pollution prevention requirements.

15.0 Monitor compliance with legislative requirements



1 Safety provisions provided on Machineries on board: Safety of Ships Machinery: Safety provisions in Diesel Engines, Safety provisions in Boilers, Safeties on Air Compressor and in Air systems, Safeties on water pumps, oil pumps and their systems, Safeties on steering systems, Safeties on Deck cranes, winches and windlass, safeties on Electrical installations. Means of Escape on board. Regulations regarding steering gear systems, Requirement in UMS class vessels – Protection against flooding and control of propulsion Machinery.

CP 01

2 IMO Shipboard Regulations & IMO conventions: IMO Regulations of Ships - International Maritime organization, IMO

Conventions, Statutory certificates and documents to be provided on board for safe trading of vessel. Basic safety

concept on board a merchant vessel & Basic operational knowledge of the relevant IMO instruments like SOLAS,

MARPOL regulations (for Oil, Sewage, Garbage & Air), SOPEP. Basic Bilge pipe line system on board according to MARPOL

regulations. List of items recorded in Oil record book, , STCW, with latest amendments, how above instruments are

adopted under Explicit/Tacit acceptance procedures, how statutory/class certificates and documents obtained.

CP 02

3 Ballast water Management: Definition of flag state/port state. Port state control inspection, Scope of PSC, implication of

ship’s detention. Inspection of various certificates by PSC on board ship, List of LSA and FFA items likely to be inspected

by PSC. LOADLINE (Markings-Basic concept), Items verified by a surveyor for Load line surveys.

CP 03

4 Classification Societies & ISM Code: International association of classification societies, Classification Societies, Surveys

conducted by class. Continuous survey of machinery (CSM), Condition of Class, Special Surveys, IOPP survey,

intermediate and annual surveys to be conducted on ocean going ships. Safety Management system (SMS) - DPA, Issue

of Documents of compliance (DOC) for ISM Code, period of validity, Safety Management certificate (SMC) and

maintenance of SMC, Safety Checklists in ER like hot work permit checklist etc.

CP 04


Title Author

Edition Year

ISBN Publisher




T11081–TB1

STCW Code & Convention-95. (Include: only those topics which are mentioned in the above syllabus)

IMO, London.

T11081–TB2 Course material

T11081–TB3


T11081–RB1

T11081–RB2

T11081–RB3

T11081–RB4


T11081-CD1


T11081-WL1

Note:


Details are taken from various books as well as from IMO websites for latest amendments in IMO conventions.




T11082- Engine Room Resource Management and Leadership

Skills





4 Level UG



01 V61 T11082 Engine Room Resource Management and Leadership Skills 4 68 120 100 TH












Apply concepts of management.

Use the basic principles of psychology and management to communicate, make decisions work in a team and avoid conflict.

To manage engine room resources effectively.

Special Note:


Competency No.1 : Maintain a safe Engineering watch

1.4 Engine-room resource management

1.4.1 Knowledge of engine-room resource management principles, including:

1.4.1.1 Allocation, assignment, and prioritization of resources

1.4.1.2 Effective communication

1.4.1.3 Assertiveness and leadership

1.4.1.4 Obtaining and maintaining situational awareness

1.4.1.5 Consideration of team experience

Competency No. 16 : Application of leadership and team working skills

16.1 Working knowledge of shipboard personnel management and training

16.2 A knowledge of related international maritime conventions and recommendations, and national legislation

16.3 Ability to apply task and workload management, including:

16.3.1 Planning and coordination



1 Introduction to management.

CP 01 CSs

17 Hrs



2 Management on board the ship.

3 Task, workload management and risk assessment.

4 Decision making and organizational structure.

5 Related conventions and national legislations.

CP 02 CSs

17 Hrs



6 STCW conventions and code.

7 Obtaining and maintaining situational awareness.

8 Industrial psychology.

CP 03 CSs

17 Hrs



9 Communication, assertiveness and self-esteem.

10 Leadership and leaders.

11 Group and group conflict. CP 04 CSs

17 Hrs



12 Problem solving

13 Culture, authority and group behaviour.


1 Introduction to management. Definition of management, Types of Management activities - Planning, Organizing and Staffing, Directing and Controlling. The roles of company’s objectives and goals.

CP 01

2 Management on board the ship: Management policy with respect to ships, managerial issues on Operations; Finance; Communications. The company’s expectations for ship’s officers.

3 Task, workload management and risk assessment: define Planning. Types of planning – long range planning, intermediate planning, short – range planning. Importance of planning and use of resources for executing a job. Activities in planning process – official goals, development of plans, preparation of detailed plans including assessment, preparation of budget. Steps for effective planning: using established techniques, participative planning, communication with subordinates, simplicity of plans, and flexibility of plans, monitoring implemented activities, barriers in planning: support from upper management, communication to all, participation of all members, review and update of plans, sharing of information.

4 Decision making and organizational structure: Define decision making. Decision making under certainty, decision making under risk, decision making under uncertainty. Basic elements of organizational structure: work specialization based departmentation, pattern of authority, span of control, coordination of activities.

5 Related conventions and national legislations: objectives and aims of the Maritime Labour Convention, 2006 (MLC),

national legislations and implementation of national legislations, relevant regulations and recommendations.

16.3.2 Personnel assignment

16.3.3 Time and resource constraints

16.3.4 Prioritization

16.4 Knowledge and ability to apply effective resource management:

16.4.1 Allocation, assignment, and prioritization of resources

16.4.2 Effective communication on board and ashore

16.4.3 Decisions reflect consideration of team experiences

16.4.4 Assertiveness and leadership, including motivation

16.4.5 Obtaining and maintaining situational awareness

16.5 Knowledge and ability to apply decision-making techniques:

16.5.1 Situation and risk assessment

16.5.2 Identify and consider generated options

16.5.3 Selecting course of action

16.5.4 Evaluation of outcome effectiveness


6 STCW conventions and codes: Provisions in the MLC concerning conditions of employment, and compliance and enforcement, provisions in the STCW Convention and Code concerning responsibilities of seafarers and shipping industries, and fitness for duties for working on shipboard tasks.

CP 02 7 Obtaining and maintaining situational awareness: Definition and meaning of situational awareness Need for situational

awareness in merchant navy, Situational understanding, situational assessment and mental models, Models of situational awareness, Training for situational awareness. describes the process and importance of control systems to an organization, describes the following activities in the control process: Monitoring the environment, Determining direction, Assessing ongoing operations, Assessing the control system

8 Industrial psychology: Define industrial psychology. Aims of industrial psychology, Motivation and motivation theories,

Stress and anger management, controlling emotions. Employee behaviour: participation, effort, performance. Traits of personality types: risk takers, authoritarian, dogmatic, focus of control, tolerant of ambiguity, machiavelliansm, self monitoring. Goal setting: define goal, functions of goal, attributes of goals in achieving success. Specificness of goals, goal difficulty, goal effectiveness. Short term goal and long term goal. Setting achievable goals.

CP 03 9 Communication, assertive and self esteem: Define communication, Process of communication, Types of

communication: verbal, non – verbal, written, Barriers in communication, Importance of communication skills in merchant navy, Improving communication. Assertiveness and self esteem: Assertiveness: meaning and definition. Assertive communication, Characteristics of assertive people, Techniques of assertiveness, Assertiveness and merchant navy, Improving assertiveness.

10 Leadership and leaders: Leadership: definition and meaning, Theories of leadership, Leadership styles, Group leadership, Role of a leader, impact of leaders on subordinates, Importance of leadership on ships, Improving leadership qualities.

11 Group and Group conflict: define group. Stages of a group development: Membership, －Sub－grouping,

Confrontation, individual differentiation, Collaboration. The process of group meeting management, with regards to the following: Defining the group assignment, Planning the group effort, Organizing and staffing the committee, Direct and control the committee. Sources of organizational conflict: Task interdependence, goal incompatibility, Shared resources, departmental differences, Uncertainty, Reward system. Preventing group conflicts, organization goals over unit goals, Predictable and stable task structure, Efficient interdepartmental communication, Avoid “win-lose” situations, ineffective techniques of managing group conflict: No action, Delayed action, secrecy. The use of stringent rules and regulations to resolve conflicts.

CP 04

12 Problem solving: Define a problem, rules of problem solving, and five stages of problem solving: Define the problem: Generate alternatives, Evaluate and choose, Implement decision, Control decision. Habit and set in problem solving.

13 Culture, authority and group behaviour: Formal and personal authority, difference between “Large” and “Small” power distance culture within different nationalities. Importance of preplanning whenever carrying out major and/or critical jobs. Some important factors that may affect group behaviour, discipline and the amount of work done by the crew. Efficient method of establishing an open communication style on board that encourages challenges and appropriate responses from the team. The need for evaluation of outcomes effectiveness.


Title Author

Edition Year

ISBN Publisher




T11082–TB1

Introduction to Psychology Morgan, C.T., King, R.A, Weisz, J.R & Schopler, J.

Tata McGraw – Hill Edition

T11082–TB2

T11082–TB3


T11082–RB1

T11082–RB2

T11082–RB3

T11082–RB4


T11082-CD1


T11082-WL1

Note:


T11083 - Ship-in-Campus - 5





4 Level UG



01 V61 T11083 Ship-in-Campus - 5. 2 85 120 100 TW+PR












1. Detect electric malfunction and location of faults. Safely carry

out maintenance and repair works on shipboard electrical systems and equipments including safe isolation for the same.

2. Safely carry out dismantling, adjustment and reassembling of machineries and equipments including safe isolation for the same. 3. Use appropriate specialized tools and measuring instruments.


Competency No. 6 Operate electrical, electronic and control systems.

6.1 Basic configuration and operation principles of following Electrical, Electronic and Control equipment:


6.1.1.a Generator and distribution system

6.1.1.b Preparing, starting, paralleling and changing over of generator

6.1.1.c Electrical motors, including starting methodology


7.1


7.2









7.6 Interpretation of electrical and simple electronic diagrams Manage trouble shooting, restoration of electrical and electronic control equipment to operating condition

7.7 Practical knowledge: Trouble shooting of electrical and electronic control equipment and monitoring systems. Function test of electrical, electronic control equipment and safety devices.


Competency No. 8 Appropriate use of hand tools, machine tools and measuring instruments for fabrication and repair on board.

8.1 Characteristics and limitation of materials used in construction and repair of ship and equipment

8.2 Characteristics and limitation of processes used for fabrication and repair and repair



8.5 Safety measures to be taken to ensure a safe working environment and using hand tools, machine tools and measuring instruments

8.6 Use of hand tools, machine tools and measuring equipment

8.7 Use of various of various types of sealants and packing

Competency No. 9 Maintenance and repair of ship board machineries and equipment

9.2 Use of appropriate specialized tools and measuring instruments


9.10 Safe working practices

Competency No. 10 Ensure compliance with pollution prevention requirements.

10.1 Prevention of pollution of marine environment.

10.1.1 Knowledge of precautions to be taken to prevent pollution of marine environment

10.1.2 Anti-pollution procedures and all associated equipment

10.1.3 Importance of pro-active measures to protect marine environment (marine environmental awareness)


1 Understanding different types of Welding, their use and strength

85 Hrs

2 Identifying different types of hand tools and their uses

3 Safe working practices – Welding, Gas Cutting and Lathe Machines

4 Use of measuring tools and their calibrations

5 Understanding various types of joints and packing and their use. Cutting joints and packing as per requirement

6 Emergency/temporary repair using various sealants and compounds

7 Familiarization with various special tools required for carrying out de-carb of engine, various calibration instruments, peak pressure gauge and indicator diagram

8 Use hydraulic tool to open cylinder head nuts.


Title Author

Edition Year

ISBN Publisher





T11083–TB2

T11083–TB3


T11083–RB1

T11083–RB2


T11083-CD1


T11083-WL1







4 Level UG


























7.1


7.2






























1 Dismantle, inspect parts, overhaul, assemble and carry out testing of Fuel Injector

85 Hrs

2 Dismantle, inspect parts, overhaul and assemble Starting Air valve of Main Engine

3 Dismantle, inspect parts, overhaul and assemble Cylinder Head Relief valve of Main Engine.

4 Dismantle, inspect parts, overhaul and assemble Exhaust valve of Main Engine

5 Carry out inspection of crankcase and cam case of a Main Engine

6 Check and adjust tappet clearance of inlet and exhaust valve of Main Engine

7 Check crankshaft deflection of a Main Engine / Aux. Engine

8 Check Bottom End Bearing clearance of Main Engine / Aux. Engine

9 Carry out inspection and calibrate 2-stroke piston

10 Carry out inspection and calibrate 2-stroke liner

11 Dismantle, inspect parts, overhaul and assemble Fuel oil / Lub oil Purifier

12 Understanding Planned Maintenance system

13 Routine maintenance schedule for Main Engine

14 Routine maintenance schedule for Auxiliary Engine

15 Routine maintenance schedule for Main Air Compressor

16 Routine maintenance schedule for Purifier

17 Routine maintenance schedule for Pumps


Title Author

Edition Year

ISBN Publisher





T11084–TB2

T11084–TB3



T11084–RB1

T11084–RB2

T11084–RB3

T11084–RB4


T11084-CD1


T11084-WL1







4 Level UG



01 V61 T11085 Ship-in-Campus 7 4 85 120 100 TW+PR























7.1


7.2






























1 Auxiliary Engine survey

85 Hrs

2 Main Engine unit survey

3 Main Air Compressor survey

4 Auxiliary Boiler survey

5 Try out safety alarms and trips provided on Main engine and calibrate as per the requirement

6 Try out safety alarms and trips provided on Auxiliary engine and calibrate as per the requirement

7 Try out safety alarms and trips provided on Main Air Compressor and calibrate as per the requirement

8 Try out safety alarms and trips provided on Auxiliary Boiler and calibrate as per the requirement

9 E/R Bilge pumping system and procedure to pump out E/R bilges through OWS

10 Dismantling, cleaning and assembling of OWS (Oily Water Separator)

11 Operation of OWS

12 Operation of Waste Oil Incinerator

13 Filling up of “oil record book”

14 IOPP survey


Title Author

Edition Year

ISBN Publisher





T11085–TB2

T11085–TB3


T11085–RB1

T11085–RB2

T11085–RB3


T11085–RB4


T11085-CD1


T11085-WL1







4 Level UG


























7.1


7.2






























1 Familiarization of Main Switch Board and Motor panels in ship-in campus

102 Hrs

2 Explanation of basic double navigation light system

3 Understanding of Emergency Lighting system

4 Study and fault finding in Earth /ground fault detecting circuit

5 Study of switch gear

6 Study of relays

7 Study of air circuit breaker (ACB)

8 Study of miniature circuit breaker (MCB)

9 Differential trips on switch board

10 Connection of shore supply

11 Construction details of alternator

12 Dismantle and carry out maintenance of various DOL Starter panels

13 Dismantle, overhaul and assemble various electric motors

14 Dismantle, clean, check air between rotor and starter and assemble the alternator

15 Carry out maintenance on control equipment: Dismantle, clean and calibrate contactors and relays

16 Calibration of boiler water level switches (mobery) in hot and cold conditions

17 Carry out maintenance of OWS 15 PPM alarm

18 Carry out electrical maintenance on burners of auxiliary boiler and incinerator

19 Use of megger, multimeter Current clamp meter, live line tester and hydrometer

20 Maintenance of emergency batteries

21 Study of phase sequence relay

22 Study of earth leakage relay

23 Study of under voltage and over voltage relays

24 Study of reverse power relay

25 Study of overload relays



Title Author

Edition Year

ISBN Publisher





T11086–TB2

T11086–TB3


T11086–RB1

T11086–RB2

T11086–RB3

T11086–RB4


T11086-CD1


T11086-WL1


T11087- Power Plant Operation





4 Level UG



01 V61 T11087 Power Plant Operation 2 68 60 50 PR












1. Prepare and start main propulsion plant and diesel generators

2. Parallel and change over generators 3. Maintain a safe engineering watch. 4. Handle safety and emergency procedures for operation of propulsion plant machinery



1.1 Thorough Knowledge of Principles to be observed in keeping in engineering watch, including. Duties associated with taking over and accepting a watch. Routine duties undertaken during a watch. Maintenance of the machinery space logs and the significance of the reading taken. Duties associated with handing over a watch.


1.3 Safety precautions to be observed during a watch and immediate actions to be taken the event of fire or accident with particular reference to oil systems.


4.3 Preparation, operation, fault detection and necessary measures to prevent damage for the following machinery items and control systems

4.6 Start up and shut down Main propulsion and Auxiliary machinery, including associated systems. Operating limits of propulsion plant & the efficient operation, surveillance, performance assessment and maintaining safety of propulsion plant and Auxiliary machinery









1 Watch keeping on Main engine, checking the parameters.

68 Hrs

2 Watch keeping on Aux. engine, checking the parameters.

3 Significance of taking the readings and filling up of machinery log book.

4 Changeover of maneuvering controls from remote to local.

5 Changeover of remote / auto controls of generator, pumps, and compressor.

6 Watch keeping procedures in case of flooding

7 Emergency procedures in case of fire.

8 Emergency procedures in case of accident and pollution abatement.

9 Emergency procedures to be followed in case of failure of safety alarms and trips on Main Propulsion system

10 Emergency procedures to be followed in case of low lub oil pressure, high jacket water temperature, high exhaust temperature, alarm by crankcase oil mist detector and scavenge fire

11 Prepare Main Engine for starting.

12 Prepare and start Auxiliary Engine.

13 Prepare and start Steering Gear system

14 Detect fault and take necessary action for low lub oil pressure in Main engine / Auxiliary engine

15 Detect fault and take necessary action for high jacket water temperature in Main Engine /Auxiliary Engine.

16 Detect fault and take necessary action for high Exhaust temperature in Main Engine / Auxiliary Engine

17 Detect fault and take necessary action for low Lub oil pressure in Rocker arm system.

18 Detect fault and take necessary action for high Scavenge Air temperature

19 Take necessary measures for alarm raised by Oil Mist Detector on Main Engine.

20 List out the ranges and limits of parameters for Main propulsion plant

21 Prepare and start Main propulsion plant

22 Measure peak pressure of units in Auxiliary engine, note down fuel rack positions and Exhaust temperature.

23 Single phase distribution system of AC power

24 Three phase distribution system of AC power

25 Prepare, start and take generator on load from dead ship

26 Prepare, start and take Generators on parallel load. Change over load on incoming generator and stop the off loaded generator.


Title Author

Edition Year

ISBN Publisher





T11087–TB2

T11087–TB3


T11087–RB1

T11087–RB2

T11087–RB3

T11087–RB4


T11087-CD1


T11087-WL1


T11088 – Technical Paper and Project - II





4 Level UG



01 V61 T11088 Technical paper & project - II 2 153 60 50 TW+PR












1. Undertake small projects which involve the activities like design, preparation of bill of materials, procurement, manufacturing, testing etc. of the assemblies decided for the projects.

2. Explore solutions for the real problems, encountered in real life job, in the complete project execution from start to finish, by applying basic concepts, principles and skills.

Special Note: A group of 4-5 cadets will perform a project activity, which involves following activity based on the knowledge and the skills acquired during the completion of the courses from semester 1 to semester 7

4. PRACTICAL ACTIVITIES UN Name of Practical Activity

1 Set project specifications.

2 Development, fabrication and assembly of first prototype as per design.

3 Testing and trouble shooting of first prototype - 1

4 Testing and trouble shooting of first prototype – 2

5 Testing and trouble shooting of first prototype – 3

6 Testing and trouble shooting of first prototype - 4

7 Compare first prototype performance with set project specifications and prepare list showing problems, improvements needed with the help of project guide.

8 Make improvement in final prototype

Testing and trouble shooting of final prototype - 1

9 Testing and trouble shooting of final prototype – 2



12 Preparation of project report and all technical documents like schematic drawing, wiring diagrams, mechanical drawings, complete bills of materials, user instructions, photos, list of problems encountered and solutions and final submission of project report.


5. SYLLABUS UN Details of syllabus of Units

1 Maximum cadets per project should not exceed 10.

2 Each project guide may not be assigned more than 10 cadets.

3 Suggested scheme of chapters in project report 1. Chapter 1: Introduction: Background of the project, Need for the project, Brief idea of the project. 2. Chapter 2 : System Overview and Design: Present overview of the complete system. Use bloke diagrams, Specify design parameters for the system. Specify interfacing problems (if any) visualized before hand , and how to eliminate these. 3. Chapter 3: Module Design : Discuss individual parts (sib-part) in details, clearly indicating the scientific principles involved and design of each sub-circuit used in a project. 4. Chapter 4 : Testing and Troubleshooting: Discuss individual parts ( sub-parts) in details, clearly indicating the scientific principles involved and design of each sub-circuit used in a project. 5. Chapter 5: Result and Conclusions: Analyze the observations made in previous chapter. Discuss why the specifications were not met or the reasons for the failure, if any. Discussed the problems and difficulties encountered and how they were / can be eliminated. Discuss any extension work or modifications, which you want to suggest. 6. Chapter 6: References: List the books, magazines and data manuals used.

4 Project Report Format: 1. The project report should be printed on only right side of A4 (210mm x 297mm) Paper. There is no minimum or maximum page number limit for the “Project Report”, but report of minimum 15 – 20 page is expected. University Recommends only flexible binding for the “ Project Report” But, if student Wishes, he may also use spiral binding. 2. Margins should be as follows :-

Left margin: 40 mm

Right Margin: 20 mm

Top Margin : 20 mm

Bottom margin: 27 mm 3. Header should not be used. Footer, containing page number at the center should only be used, with footer margin of 25mm. 4. Text should be printed in font size of 12 point and at interline distance of 18 points. (That is 1.5 line spacing). Normally, figure should be embedded in the text, where their first reference occurs. But if necessary, figures may be grouped on separate pages. Figure should be numbered as `Fig C.F`, where `C` is chapter number and `F` is figure number. Figure number `F` ia reset back to 1 for each new chapter. 5. Page Sequence :(1) Cover page as per specimen 1 (2) Certificate page as per Specimen 2 (3) Acknowledgement page for the help offered by individuals and Institution (4) content page as per specimen 3. following suggested scheme of Chapters in project report then follows these first 4 pages.

6. SPECIMEN OF PAGES

Specimen 1 Project Title

Bachelor of Technology In

Marine engineering Submitted by Name student Project guide

Name of the project guide Name of the study center

Yashwantrao chavan Maharashtra Open university

2006

Specimen 2 Certificate

This is to certify that Mr / Mrs ………………………. ………… (PRN: ………………)

has successfully completed a project entitled “ …………………………………………..”

in partial fulfillment for the requirement of Bachelor of Technology in

Marine Engineering

Signature with Date

Project Guide SC Coordinator

Internal Examiner External Examiner

Specimen 3 Contents 1. Introduction 1.1 Background 1.2 Need for work 1.3 Brief Idea 2. System overview and design 2.1 Operation 2.2 Design parameter 2.3 System design 3. Module Design


3.1 Module 1 3.2 Module 2 3.3 Module 3 3.4 Testing and troubleshooting 4.1 Module 1 4.2 Module 1 4.3 Module 1 5. Result and conclusion 5.1 Further modification 5.2 Summary 6. Reference

6.

Submission Process: - Get project report approved by the respective project guide. Prepare 3 copies of the project report and duly signed by project guide and study center coordinator/ Principal / HOD. Submit two copies to the study center and retain one copy. Study center will present the project report to the examiner at the time of end semester examination of TME- 088 technical paper and project. Cadet should bring their own copy during this examination. External and internal examiner will sign all three copies of project report.


Title Author

Edition Year

ISBN Publisher




T11088–TB1 Any of the books for the courses completed during sem.1 to semester 6

T11088–TB2

T11088–TB3


T11088–RB1 Any connected reference books connected for the projects

T11088–RB2

T11088–RB3

T11088–RB4


T11088-CD1


T11088-WL1

End of Syllabus