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Name Of Faculty : Mr. Pradeep Kuhar ( Theory )
Discipline : CIVIL
Semester : 6th
Subject : DCS-II
Lesson Plan Duration: 15 Weeks( from January 2018 to April 2018)
Work Load (Lecture/Practical) per week (in Hours ) :Lectures 04
Theory
Week Lecture day Topic
1st 1st Continuous Beams-Basic assumptions
2nd Moment of inertia,settlements, Modification of moments
3rd Moment of inertia, settlements, Modification of moments,
4th Moment of inertia, settlements,Modification of moments
2nd 1st Maximum moments and shear, beams curved in plan-analysis for torsion
2nd Maximum moments and shear, beams curved in plan-analysis for torsion
3rd Maximum moments and shear, beams curved in plan-analysis for torsion
4th Redistribution of moments for single andmulti-span beams
3rd
1st Redistribution of moments for single and multi-span beams
2nd Design examples
3rd Design examples
4th Flat slabs and staircases-Advantages of flat slabs, general design considerations
4th
1st Flat slabs and staircases-Advantages of flat slabs, general design considerations
2nd Approximate direct design method, design of flat slabs, openings in flat slab
3rd Approximate direct design method, design of flat slabs, openings in flat slab
4th Approximate direct design method, design of flat slabs, openings in flat slab
5th 1st Design of various types of staircases
2nd Design examples
3rd Design examples
4th Foundations-Combined footings, raft foundation
5th
6th 1st Foundations-Combined footings, raft foundation
2nd Design of pile cap and piles, underreamed piles
3rd Design of pile cap and piles, underreamed piles
4th Design examples
7th 1st Design examples
2nd Water Tanks, Silos and Bunkers-Estimation of Wind and earthquake forces, design requirements
3rd Water Tanks, Silos and Bunkers-Estimation of Wind and earthquake forces, design requirements
4th Water Tanks, Silos and Bunkers-Estimation of Wind and earthquake forces, design
requirements
8th 1st Rectangular and cylindrical underground and overhead tanks, Intze tanks, design considerations
2nd Rectangular and cylindrical underground and overhead tanks, Intze tanks, design considerations
3rd Rectangular and cylindrical underground and overhead tanks, Intze tanks, design considerations
4th Design examples
9th 1st Design examples
2nd Silos and Bunkers-Various theories
3rd Bunkers with sloping bottoms and with high sidewalls
4th Design examples
10th 1st Design examples
2nd Prestressed Concrete-Basic principles, classification of pre-stressed members
3rd Prestressed Concrete-Basic principles, classification of pre-stressed members
4th Various prestressing systems
11th 1st Losses in pre-stress, initial and final stress conditions,
2nd Analysis and design of sections for flexure and shear, load balancing concept
3rd IS Specifications
4th End blocks-An lysis of stresses
12th 1st Magnel's method, Guyon's method, Bursting and spalling
stresses
2nd Design examples
3rd Building Frames-Introduction
4th Member stiffnesses, Loads, Analysis for vertical and lateral loads
13th 1st Torsion in buildings, Ductibility of beams
2nd Design and detailing for ductility
3rd Design examples
4th Design examples
14th 1st Yield Line Theory-Basic assumptions, Methods of analysis, yield line patterns and failure mechanisms
2nd Yield Line Theory-Basic assumptions, Methods of analysis, yield line patterns and failure mechanisms
3rd Analysis of one way and two way rectangular and non-rectangular slabs
4th Analysis of one way and two way rectangular and non-rectangular slabs
15th 1st Effect of top corner steel in square slabs
2nd Effect of top corner steel in square slabs
3rd Design examples
4th Design examples
Name Of Faculty : Mr. Sandeep ( Theory )
Discipline : CIVIL
Semester : 6th
Subject : Geology
Lesson Plan Duration: 15 Weeks( from January 2018 to April 2018)
Work Load (Lecture/Practical) per week (in Hours ) :Lectures 04
Theory
Week Lecture day Topic Practical day Topic
1st 1st Definition, object, scope.
Day 1 Study of Physical properties of minerals.
2nd sub division of geology, geology around us.
3rd The interior of the earth. Importance of geology in Civil Engineering projects.
4th The external and internal geological forces causing changes,
2nd 1st weathering and erosion of the surface of the earth.
Day 2 Identfication of rocks forming silicate and ore minerals.
2nd Geological work of ice, water and winds.
3rd Soil profile and its importance
4th
Earthquakes and volcanoes.
3rd 1st Definition and mineral and rocks
Day 2
Recognition of rocks.
2nd Classification of important rock forming minerals
3rd Classification of important rock forming minerals
4th simple description based on physical properties of minerals.
4th 1st simple description based on physical properties of minerals.
Day 3 Files checking.
2nd
Rocks of earth surface, classification of rocks.
3rd
Mineral composition, Textures, structure.
4th
origin of Igneous, Sedimentary and Metamorphic rocks.
5th 1st Aims and principles of stratigraphy.
Day 4 Use of clinometers compass and Bruton compass for measurement dip and strike of formations.
2nd Standard geological/
stratigraphical time scale with its sub division and a short description based on engineering uses of formation of India.
3rd Standard geological/ stratigraphical time scale with its sub division and a short description based on engineering uses of formation of India.
4th Forms and structures of rocks.
6th 1st Bedding plane and outcrops,
Day 5 Geological cross sections and study of geological maps.
2nd Dip and Strike. Elementary ideas about fold, fault, joint and unconformity and recognition on outcrops.
3rd Dip and Strike. Elementary ideas about fold, fault, joint and unconformity and recognition on outcrops
4th Importance of geological structures in Civil Engineering projects.
7th 1st Hydrogeology, aquifers,water table
Day 6 Files checking.
2nd springs and Artesian well
3rd aquifers, ground water in engineering projects.
4th Artificial recharge of ground water,
8th 1st Elementary ideas of geological investigations.
Day 7 Study of models of geological structures and out crops patterns of different types of rocks and land forms.
2nd Remote sensing techniques for geological and hydrological survey and investigation.
3rd Uses of geological maps
4th interpretation of data, geological reports.
9th 1st Interpretation of data, geological reports.
Day 8 Files checking
2nd Artificial recharge of ground water
3rd Hydrogeology, aquifers,water table
4th Physio graphic division in India,
10th 1st simple description based on physical properties of minerals.
Day 9 viva
2nd Suitability of foundation sites
3rd Stability of foundation
sites.
4th Stability abutments.
11th 1st Suitability of abutments.
2nd Geological conditions
Day 10 Revision first
experiment.
3rd Geological conditions and their influence on the selection, location of dams.
4th Types of dams,
12th 1st Types of dams,
Day 11 Revision of
second
experiment.
2nd Design of dams
3rd Design of dams
4th Design of dams
13th 1st Design of dams
2nd Types of reservoirs
Day 12 Files checking.
3rd Types of reservoirs
4th Design of reservoirs
14th 1st Types of tunnels Day 13 viva
2nd Types of tunnels
3rd Types and design of highways,
4th Types and design of highways
15th 1st Types and design of
bridges.
Day 14 Files checking.
2nd Types and design of
bridges.
3rd Class Test-3
4th Assignment checking.
1st Definition, object, scope.
Name Of Faculty : Mr. Sudhir ( Theory )
Discipline : CIVIL
Semester : 6th
Subject : Geotechnology
Lesson Plan Duration: 15 Weeks( from January 2018 to April 2018)
Work Load (Lecture/Practical) per week (in Hours ) :Lectures 03
Theory
Week Lecture day Topic Practical day Topic
1st 1st Stability of slopes Day 1 Grain Size Analysis-Hydrometer method
2nd Causes of failure, factors of safety
3rd slopes types of failures of finite slopes
2nd 1st analysis of finite slopes-mass procedure, method of slices, effect of pore pressure
Day 2 Shrinkage- Limit Determination
2nd Fellinius method to locate centre of most critical slip circle, friction circle method, Tayler's stability number
3rd slope stability of earth dam during steady seepage
3rd
1st Braced Cuts Day 3 Relative Density of Granular Soils
2nd Depth of unsupported vertical cut
3rd sheeting and bracing for deep excavation,
4th
1st movements associated with sheeting, and bracing
Day 4 Consolidated Drained (CD) Triaxial Test
2nd modes of failure of braced cuts
3rd pressure distribution behind sheeting
5th 1st Cofferdams Day 5 Consolidated Undrained (CU) Triaxial Test with Pore Water Pressure Measurement
2nd Introduction, types of cofferdams
3rd design and lateral stability of braced cofferdams
6th 1st design and lateral stability of braced cofferdams
Day 6 Consolidation Test
2nd design and lateral stability of braced cofferdams
3rd design and lateral stability of braced cofferdams
7th 1st design data for Cellular cofferdams
Day 7 Consolidation Test
2nd stability analysis of cellular cofferdams on soil and rock
3rd stability analysis of cellular cofferdams on soil and rock
8th 1st inter-lock stresses
Day 8 Standard Penetration Test
2nd inter-lock stresses
3rd Cantilever Sheet Piles
9th 1st Purpose of sheet piles Day 9 Dynamic Cone Penetration Test
2nd cantilever sheet piles
3rd depth of embedment in
granular soils-rigorous method Simplified procedure
10th 1st depth of embedment in granular soils-rigorous method Simplified procedure
Day 10 Models Plate-Load Test
2nd depth of embedment in granular soils-rigorous method Simplified procedure
3rd cantilever sheet pile
11th 1st Penetrating clay
2nd limiting height of wall
3rd limiting height of wall
12th 1st Anchored Bulkheads Methods of design, free earth support method in cohesionless
2nd free earth support method in cohesive soils
3rd fixed earth support method in cohesionless soils-Slum's equivalent beam method
13th 1st fixed earth support method in cohesionless soils-Slum's equivalent beam method
2nd Soil Stabilization
3rd Soil improvement, shallow compaction, mechanical treatment, use of admixtures
14th 1st lime stabilization cement stabilization, lime fly ash stabilization
2nd dynamic compaction and consolidation, Bituminous stabilization, chemical stabilization, pre-
compression
3rd lime pile and column, stone column, grouting reinforced earth
15th 1st Basics of Machine Foundations Terminology, characteristics elements of a vibratory systems, analysis of vibratory motions of a single decree freedom system-undamped free vibrations
2nd undamped forced vibrations, criteria for satisfactory action of a machine foundation, degrees of a freedom of a block foundation, Barken’s soil spring constant
3rd Barken's method of a determining natural frequency of a block foundation subjected to vertical oscillations
Name Of Faculty : Mr. Sunil ( Theory )
Discipline : CIVIL
Semester : 6th
Subject : IE-I
Lesson Plan Duration: 15 Weeks( from January 2018 to April 2018)
Work Load (Lecture/Practical) per week (in Hours ) :Lectures 04
Theory
Week Lecture day Topic
1st 1st Regulation works: Canal lulls-necessity and location
2nd Development of falls, design of cistern clement
3rd Roughening devices, Principal of design of Sarda type fall
4th Design of straight Glacis fall
2nd 1st Off-take alignment, cross-regulator and distributor}' head regulators
2nd Devices to control silt entry into the off-taking channel
3rd Silt ejector, canal escapes, types of escapes
4th Cross drainage works: Classification and their selection
3rd
1st Fondamentals of hydraulic design aspects of aqueducts
2nd Fondamentals of hydraulic design aspects of aqueducts
3rd Syphon aqueducts, super passage
4th Syphon aqueducts, super passage
4th
1st Canal syphon and level crossing
2nd Design of transitions
3rd Design of transitions
4th Bligh's creep theory
5th 1st Khosla's method of independent variables
2nd Use of Khosla's curves, various corrections
3rd Silt excluders
4th Storage Headworks: Types of dams, selection of a site
5th Gravity dam-two dimensional design
6th 1st Forces acting, stability criterion
2nd Forces acting, stability criterion
3rd Elementary profile of a dam
4th Elementary profile of a dam
7th 1st Cutoffs and drainage galleries
2nd Arch dams-constant angle and constant radius arch dam
3rd Arch dams-constant angle and constant radius arch dam
4th Simple design and sketches
8th 1st Most economical angle
2nd Earth dam
3rd Earth dam
4th Design principles, seepage through earth dams
9th 1st Design principles, seepage through earth dams
2nd Seepage line, control of seepage
3rd Design of filters
4th Spillways and Energy Dissipations: Essent ial
requirements of spillway
10th 1st Spillways and Energy Dissipations: Essent ial requirements of spillway
2nd Spillway's capacity
3rd Types of spillways and their suitability
4th Ogee spillways
11th 1st Chute, side channel, shaft and syphon spillways
2nd Chute, side channel, shaft and syphon spillways
3rd Energy dissipation below spillways
4th Stilling basins
12th 1st USBR and I..S.
2nd USBR and I..S.
3rd Stilling Basins
4th Stilling Basins
Name Of Faculty : Mr. Naveen ( Theory )
Discipline : CIVIL
Semester : 6th
Subject SEWAGE AND TREATMENT
Lesson Plan Duration: 15 Weeks( from January 2018 to April 2018)
Work Load (Lecture/Practical) per week (in Hours ) :Lectures 04
Theory
Week Lecture day Topic Practical day Topic
1st 1st Importance of sanitation,
Day 1 Based on course work corresponding to Environmental Engineering
2nd Systems of sewerage - separate
3rd combined and partially separate. Quantity of sanitary sewage and variations
4th Shapes of sewer- circular and egg shaped
2nd 1st Design of sewers, self cleansing Velocity and slopes, Construction and testing of sewer lines
Day 2 Sampling and analysis of water test like hardness, chloride, sulphate phosphate, D.O, PH, connectivity
2nd Sewer materials, joints and appurtenances.
3rd Sewage collection from houses and buildings,
4th
general principal for design of a sanitary plumbing system
3rd 1st Traps function and types
Day 2
File checking
2nd System of plumbing, testing of house sewer
3rd sanitary fittings and other accessories
4th ventilation of house drainage
4th 1st waste water recycling in building
Day 3 Sampling and analysis of waste water Like D.O ,B.O.D ,C.O.D, Suspended solid
2nd
Quality parameters- BOD, COD
3rd
Solids, D.O., Oil & Grease, tests
4th
Sewage disposal
5th 1st Class test
Day 4 Measurement of noise level
2nd type relative advantage and disadvantage of various sewage disposal system Indian
3rd Standards for disposal effluents into inland
surface sources and on land
4th Bangalore method and Indore method of sewage disposal
6th 1st Disposal of sewage by dilution - self-purification of streams
Day 5 Total suspended particulate matters
2nd Sewage disposal by irrigation
3rd Digestion and disposal of primary and secondary sludge
4th Moisture content
7th 1st sludge digestion process
Day 6
2nd Factors affecting
File checking
3rd Objectives of sewage Treatment, classification of treatment process
4th Preliminary treatment -screening and grit removal units
8th 1st Skimming tanks,
Day 7
2nd Theory and design aspects of sedimentation
Sulphation rate in water samples
3rd coagulation, merit and demerits of coagulation
4th Class test
9th 1st Secondary treatment- Biological Filtration
Day 8
2nd Trickling Filter, High rate Trickling Filter advantage and disadvantages
Fluoride measurement in water samples
3rd miscellaneous type of filter, Humus tank, activated sludge process
4th aeration tanks, secondary sedimentation tanks
10th 1st Stabilization pond
Day 9
2nd oxidation pond, Oxidation ditches
File checking
3rd aeration lagoons
4th anaerobic stabilization units
11th 1st septic tank and Inhoff tank
2nd Sludge Digestion UASB process sequence and efficiencies of conventional treatment units
Day 10 viva
3rd Sludge Digestion UASB process sequence and efficiencies of conventional treatment units
4th Sludge Digestion UASB process sequence and efficiencies of conventional treatment units
12th 1st Process Design of a complete sewage treatment plant, Examples
Day 11 High volume and handy sampler s
2nd Examples
3rd Examples
4th Examples
13th 1st Noise Pollution- Definition and introduction
File checking
2nd Effect of Noise, characteristics of sound and it’s measurement
Day 12
3rd level of noise , noise rating system and standards
4th source of noise their levels and controls
14th 1st Air pollution –Definition of air pollution
Day 13
2nd Effects of air pollution, Dispersion of air pollution in atmosphere
Viva
3rd Effects of air pollution, Dispersion of air pollution in atmosphere
4th Effects of air pollution, Dispersion of air pollution in atmosphere
15th 1st Dispersion Day 14 Viva
models and equations
2nd Dispersion models and equations
3rd Air pollution controls.
4th Class test 3
Name Of Faculty : Mr. Sanjay ( Theory )
Discipline : CIVIL
Semester : 6th
Subject : TE-II
Lesson Plan Duration: 15 Weeks( from January 2018 to April 2018)
Work Load (Lecture/Practical) per week (in Hours ) :Lectures 03
Theory
Week Lecture day Topic Practical day Topic
1st 1st Types of pavements. Flexible and rigid pavements
Day 1 Aggregate Impact Test
2nd Components of a pavement and their functions
3rd Factors affecting design of pavements
4th Design of thickness of a flexible pavement by Group Index method
2nd 1st CBR method (including latest IRC guidelines)
Day 2 Los-Angeles Abrasion Test on Aggregates
2nd Triaxial method and Burmister’s method
3rd Triaxial method and Burmister’s method
4th Examples
3rd
1st Westergaard’s theory Day 3 Dorry's Abrasion Test on Aggregates
2nd Westergaard’s theory
3rd Critical locations of loading
4th Load and temperature stresses
4th
1st Load and temperature stresses
Day 4 Deval Attrition Test on Aggregates
2nd Critical combination of
stresses.
3rd Critical combination of stresses.
4th IRC guidelines for determination of thickness of a rigid pavement
5th 1st IRC guidelines for determination of thickness of a rigid pavement
Day 5 Crushing Strength Test on Aggregates
2nd Joints: requirements, types, patterns
3rd Spacing of expansion and contraction joints
4th Functions of dowel and tie bars
6th 1st Functions of dowel and tie bars
Day 6 Penetration Test on Bitumen
2nd Brief introduction to earthwork machinery: shovel
3rd Hoe, clamshell,
7th 1st Dragline, bulldozers Day 7 Ductility Test on Bitumen
2nd Principles of field compaction of subgrade
3rd Compacting equipments
8th 1st Compacting equipments
Day 8 Viscosity Test on Bituminous Material
2nd Granular roads. Construction steps of WBM. WMM. Construction of cement concrete pavements
3rd Slip-form pavers, Basic concepts of the following: soil stabilized roads
4th Use of geo-synthetics, reinforced cement concrete pavements, prestress concrete pavements
9th 1st Roller compacted concrete pavements and fibre reinforced concrete pavements
Day 9 Softening Point Test on Bitumen
2nd roller compacted concrete pavements and fibre reinforced concrete pavements
3rd Various types of bituminous constructions. Prime coat
4th Tack coat, seal coat
10th 1st Surface dressing. Construction of BUSG
Day 10 Flash and Fire Point Test on Bitumen
2nd Premix carpet
3rd BM, DBM and AC
4th BM, DBM and AC
11th 1st Brief coverage of machinery for construction of bituminous roads: bitumen boiler, sprayer, pressure distributor
2nd Brief coverage of machinery for construction of bituminous roads: bitumen boiler, sprayer, pressure distributor
3rd Hot-mix plant, coldmix plant
12th 1st Tipper trucks, mechanical paver or finisher, rollers. Mastic asphalt. Introduction to various IRC and MOST specifications.
2nd Pavement failures. Maintenance operations. Maintenance of WBM, bituminous surfaces
and cement concrete pavements. Pavement evaluation
3rd Pavement failures. Maintenance operations. Maintenance of WBM, bituminous surfaces and cement concrete pavements. Pavement evaluation
4th Benkleman beam. Introduction to various types of overlays
13th 1st Surface drainage: types, brief design. Types of sub-surface drainage
2nd Surface drainage: types, brief design. Types of sub-surface drainage
3rd Special characteristics of hill Roads: geometrics, hair pin bends, construction of hill roads
4th Special characteristics of hill Roads: geometrics, hair pin bends, construction of hill roads
14th 1st Drainage of hill roads, maintenance problems of hill roads
2nd Need of economic evaluation. Highway user benefits and costs
3rd Methods of economic evaluation:
benefit cost ratio method, net present value method
4th Methods of economic evaluation: benefit cost ratio method, net present value method
15th 1st Internal rate of return method, comparison. Highway finance
2nd Internal rate of return method, comparison. Highway finance
3rd Sections of tunnels: advantages, limitations and suitability of each section
4th Sections of tunnels: advantages, limitations and suitability of each section
16th 1st Shaft. Pilot tunnel
2nd Driving tunnel in rocks: sequence of construction operations, full-face method, heading and bench method, drift method
3rd Driving tunnels in soft ground: sequence of construction operations, needle beam method
4th shield tunneling, compressed air tunneling
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