Mech Final Syl Btech

8/11/2019 Mech Final Syl Btech

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B. Tech Degree

MECHANICAL ENGINEERING

SYLLABUS

FOR

CREDIT BASED

CURRICULUM

(For Students of 3rd & 4thSemester)

DEPARTMENT OF MECHANICAL ENGINEERING

NATIONAL INSTITUTE OF TECHNOLOGY

AGARTALA - 799055

INDIA


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3rd

Semester

Code No. Subject Name L T - P Cr.

UME03B03 Applied Thermodynamics-1 3-1-0 4

UME03C12 Mathematics-III 3-1-0 4

UME03B04 Materials Science & Engineering 3-1-0 4

UME03C13 Applied Electrical & Electronics Engineering 3-1-0 4

UME03B05 Fluid Mechanics-I 3-1-0 4

UME03P11 Workshop Practice - III 0-0-3 3

ME-305 Fluid Mechanics - I Lab 0-0-2 2

UME03P13 ME Lab - I 0-0-3 3

UME03P14 Applied Electrical & Electronics Lab 0-0-2 2

Total 15-5-10 30


3/44

ME-301 APPLIED THERMODYNAMICS-I (3-1-0) 4

1. Definition: Thermodynamic system, control volume, Thermodynamic properties, processes,cycles, homogenous and heterogeneous system, thermodynamic equilibrium, quasi-static process.

Work Transfer, pdv work, Indicator diagram, free expansion, path function.

2. First Law Of Thermodynamics: Quantity of energy and its measurement. First Law Energyequation for closed and open loop system under SSSF and USUF condition ; Application of First

Law Energy equation to thermodynamic system components such as boiler, turbine, compressor,

nozzle, expander, pump, condenser; First Law efficiency; First Law analysis of combustion

process.

3. Second Law Of Thermodynamics :Quality of energy and its measurements; Reversible andirreversible processes; Entropy and its significance; Principle of increase of entropy of the

universe; Carnot cycle; Clausius inequality; Application of second law to various thermodynamic

system;

4. Combination of First and Second Law :First and second law combined, reversible adiabatic

work in a steady flow system, unsteady flow, control system analysis, control volume analysis,

Entropy and disorder, Availability and irreversibility; Second Law analysis of combustion process

5. Properties of pure substances : Pure substances, p v; p t; t s and h s diagrams; Steam

tables; charts of thermodynamic properties, dryness fraction of liquid vapour mixtures. Reactive

mixtures and combustion.

6. Introduction of I.C.Engine: Introduction, classification of I.C.Engine, Engine component, The

four stroke cycle, Valve timing, Valve and valve mechanism, Spark ignition four stroke cycle,carburetor, air-fuel mixture, compression ignition four stroke engine, diesel four stroke engine, fuel

pump & injector, injection nozzle, comparison of four stroke and two stroke engine.

References:

1. Nag, P.K.,Engineering Thermodynamics, 3rd ed., Tata McGraw-Hill, 2005

2. Cengal, Y.A and Boles, M.A, Thermodynamics: An Engineering Approach, 5th ed., McGraw

Hill, 2006.

3. Rajput, R.K.,Thermal Engineering

4. Ballaney, P.L.,Thermal Engineering, Khanna Publishers.


4/44

M-301 MATHEMATICS III (3-1-0) 4

1. Mathematical Series: Fourier Series; Half- Range series; Harmonic analysis. Solution in

Series Differentiation and integration of infinite series; Series solution of differentialequations; Bessel and Legendre equations, their series solution, elementary properties of

Bessel functions and Legendre polynomials.

2. Complex Variables:Functions of complex variables; Exponential; Trigonometric; Hyperbolic

and logarithmic function; Differentiation; Analytic function; Cauchy Riemann equations;

Conjugate functions; Introduction to two dimensional potential problem; Conformal

transformations; Schwartz- Christoffel transformational; Cauchys integral theorem; Taylors

and Laurents expansion; Branch points; Zeros; Poles and residues; Simple problem on

contour integration.

3.

Boundary Value Problem: Equations for vibration of strings; Heat flow and electricaltransmission lines; Laplaces equation in cylindrical, Cartesian, polar and spherical polar

coordinates; Solution by separation of variables.

4. Integral Transforms:Fourier integral theorem; Fourier transforms; Convolution theorems;

Inversion theorems for Fourier and Laplace transforms; Simple applications of these

transforms to onedimensional problems.


5/44

ME-302 MATERIAL SCIENCE & ENGINEERING (3-1-0) 4

1. Structure of Materials: Crystalline structure of solids; Concept of unit cell and space lattice;Miller indices; Crystal structure determination by X-ray diffraction ,optical method, Crystal

structure of ferrous and non ferrous metals; Crystal imperfection

2. Plastic Deformation:Mechanism of plastic deformation; Role of dislocation; Slip and Twinning;Strain hardening and recrystallisation; Elementary cause and treatment of creep fatigue and

fracture.

3. Phase Diagram: Phase and Phase equilibrium; solidification of pure metals and alloys; Phasediagrams; Eutectic, eutectoid; Peritectic and peritectoid systems; Allotropy of iron and Fe-C

diagrams.

4. Heat Treatment Introduction and purpose of heat treatment; T-T-T curve and micro constituentsin steel heat treatment process like hardening, tempering, normalizing, annealing; Electrical,

magnetic and optical properties of materials; Surface treatment processes.

5. Engineering Materials:Ferrous ;Pig iron ,Blast furnace, Cast iron, Cupola, steel, steel makingprocess, Carbon and alloy steel and their coding; Nonferrous; Aluminum; Copper Nickel;

Chromium; Zinc; Lead; Tin; Tungsten etc. and their alloys .Classification; Structure; General

properties and application of polymers, Ceramics and composites.

References:

1. Rajendra & Marikani, Materials Science Tata McGraw-Hill Publications.

2.

Hazra Chowdhury, Workshop Technology I Media Promoters & Publishers.

3. Donald S.Clark,and Wilbur R. Varney, "Physical Metallurgy for Engineers", East-West

Press Private limited.


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UME 305 APPLIED ELECTRICAL & ELECTRONICS ENGINEERING (3-1-0) 4

Asynchronous Machines: Three phase induction motor-Principle of operation-Cage and Slip ring rotors.

Torque-Slip Characteristics-Equivalent circuit-Starting and speed control.Single phase induction motors-Types-Applications-Universal Motor.

SELECTION OF DRIVES: Electric drives-Individual and group drives- Factors governing selection of

drives-Motors for domestic uses.

Cranes, Lifts, General Factory, Textile Mill, Paper Mill, Mining Work, Cement Mill, Machine tools, Belt

Conveyors, Ships, Refrigeration and Air conditioning.

Amplifier Circuits-RC Coupled, Transformer coupled, Direct coupled; Differential Amplifiers

Inverting and Non-inverting amplifiers; Differentiator- Multiplier-Divider, Comparator; VI and IV

converter;

Digital Circuits: D/A and A/D-Types; Sample and Hold Circuit-Multiplexers, De-multiplexers, Decoder

and Encoders.

Practice on RC Coupled amplifier, OP Amp, Multiplexers and De-multiplexers, SCR and Applications,Power supply and regulator.


7/44

ME- 303 FLUID MECHANICS-I (3-1-0) 4

1. Properties of fluid: Mass and weight density, specific gravity, specific volume, viscosity andNewtons law of viscosity, Compressibility, Types of fluid, surface tension and capillarity.

2. Pressure and its measurement: Fluid pressure at a point and Pascals law, absolute, gauge andvacuum pressures, pressure variation in a fluid at rest, pressure measurement-Manometers and

Mechanical Gauges.

3. Hydrostatics: Total pressure and centre of pressure for horizontal, vertical , inclined planesurfaces and curved surfaces submerged in liquid. Total pressure and center of pressure on lock

gates.

4. Buoyancy and flotation:Buoyancy, center of buoyancy , metacentre and metacentric height andequilibrium of floating bodies, period of oscillation .Kinematics of flow: Types of fluid flow,

continuity equation in three dimensions, velocity potential function and stream function, forcedand free vortex flow.

5. Dynamics of flow: Eulers equation and Bernoullis equation ,application of Bernoullisequation-venturimeter, orifice-meter, and pitot tube.

6. Orifice and Notches: Flow through orifices, hydraulic coefficients, time of emptyinghemispherical and horizontal cylindrical tank through an orifice at its bottom. Discharge over

rectangular, triangular and trapezoidal notches, velocity of approach.

7. Laminar flow : Flow of viscous fluid through circular pipe-velocity distribution and averagevelocity, Hagen Poiseiulle formula, Kinetic energy correction and Momentum Correction factors ,

Navier-Stokes equation of motion.

8. Turbulent Flow: Reynolds experiment, Loss of head due to friction in pipes, Reynoldsexpression and Prandtl mixing length theory for turbulent shear stress.

References:

1.

Bansal, S.K., Fluid Mechanics & Hydraulic Machines Laxmi Publications.2.

Cengel, Y.A., Fluid Mechanics: Fundamentals & Applications (SI Units) Tata McGraw-

Hill Publications

3.

Jain, A.K., Fluid Mechanics Khanna Publishers.

4. Rajput, R.K., Fluid mechanics & Hydraulic machines 2/E S. Chand Publications.


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9/44

ME 306 M.E LAB. I

To draw & study crank, piston, connecting rod, rocker arm mechanism, cam & camshaft, push rod,

bearings.

To draw & study inlet valve, inlet manifold, exhaust valve, exhaust manifold.

To draw & study the model of 4 stroke single cylinder C.I engine.

To draw & study the fire tube boiler with accessories.

Calibration of Pressure gauge.

APPLIED ELECTRICAL & ELECTRONICS LAB.

Inverting Amplifier Using Op-Amp LM 741

Non-Inverting Amplifier Using Op-Amp LM 741

Adder Ckt. Using Op-Amp LM 741

Subtracter Using Op-Amp LM 741

Differentiator Using Op-Amp LM 741

Integrator Using Op-Amp LM 741

Starting of a single phase induction Motor

Starting of a three phase Induction Motor

Speed Control of a three Phase Induction Motor


10/44

4thSemester


UME04B06 Applied Thermodynamics - II 3-1-0 4

UME04B07 Strength of Materials 3-1-0 4

UME04B08 Fluid Mechanics - II 3-1-0 4

UME04B09 Manufacturing Technology I 3-1-0 4

UMEO4B10 Numerical Analysis & Computer Programming 3-1-0 4

UME04P15 Strength Of Materials Lab 0-0-2 2UME04P17 Manufacturing Technology I Lab 0-0-3 3

UME04P16 ME Lab II 0-0-3 3

UME04P18 NACP Sessional 0-0-2 2

Total 15-5-10 30


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ME-401 APPLIED THERMODYNAMICS-II (3-1-0)4

1. Ideal gas , properties of gases and mixtures of gases, enthalpy change of Ideal gas

,specific heat and entropy of gas mixture

2. Air standard cycles ,Otto-cycle, Diesel cycle, Limited pressure cycle, comparisonof Otto diesel and dual cycle, Brayton cycle, Stirling cycle and Ericsson Cycle

3. Reciprocating air compressor, single and multistage, Volumetric efficiency

4. Maxwells equation T-ds equation, Joule-Kelvin effect, Types of equilibrium.

5. Simple vapour cycles, Rankine cycle, actual Vapour cycle processes, comparison

of Rankine and Carnot cycle, Reheat cycle, Regenerative cycle, Binary vapour

cycles.

6. Reversed Heat engine cycles and heat pump, Bell Coleman cycle, Simple vapour

compression refrigeration cycle, Absorption refrigeration.

7. Properties of atmospheric air, Psychometric chart &processes.

References:

1. Nag, P.K.,Engineering Thermodynamics, 3rd ed., Tata McGraw-Hill, 2005

2. Cengal, Y.A and Boles, M.A, Thermodynamics: An Engineering Approach, 5th ed.,

McGraw

Hill, 2006.

3. Rajput, R.K.,Thermal Engineering

4. Ballaney, P.L.,Thermal Engineering, Khanna Publishers.


12/44

ME-302 STRENGTH OF MATERIALS (3-1-0) 4

1. Simple stresses and strains:Stress, strain, types of stresses, elastic limit, Hooks

law, Analysis of bars of varying sections, law of superposition, composite bar,thermal stress,thermal stresses in composite bars, elongation of bar due to its own

weight, stress-strain diagram.

2. Elastic constants: Introduction , longitudinal & lateral strain, Poissons ratio,

volumetric strain for rectangular bar, Bulk Modulus , Principle of complementary

shear stress, Relation between various elastic constants .

3. Principle stresses and strain : Introduction, Principle planes and principle

stresses, methods for determining stresses on oblique section, Analytical method,

Graphical method, Mohrs circle, use of Mohrs circle to find Principle stresses.

4. Strain Energy and Impact Loading: Introduction, Resilience, proof resilience,

Modulus of Resilience, expression for strain energy stored in a body for differentloading conditions and shear stress.

5. Shear force and Bending moment: Introduction, different types of beams andloads, S.F & BM diagram for a cantilever, Uniformly distributed load, Simply

supported beam for various types of loading, relation between load, shear force

and Bending moment diagram.

6. Torsion of shafts: Introduction , Basic assumptions, Derivation of shear stressproduced in a circular shaft subjected to torsion, Max. torque transmitted by a

circular and hollow circular shaft. Polar modulus , strength of a shaft and

tensional rigidity, composite shafts, combined bending and torsion. Strength of a

shaft of varying cross section.

7. Thin and Thick cylinder: Introduction ,Thin cylindrical vessel subjected to

internal pressure, expression for circumferential and longitudinal stress in thincylinder , stresses in thick cylindrical shells, stresses in compound thick cylinder.

References:

1. Ramamurtham, S., Strength of Materials, Dhanpat Rai & Sons, 1974.2. Khurmi, R.S., Strength of Materials, Khanna Publishers.

3. Beer, Johnston., Mechanics of Materials, Tata McGraw-Hill Publications


13/44

ME-403 FLUID MECHANICS-II (3-1-0) 4

1. Dimensional and Model Analysis: Dimensions of fundamental and derived

quantities, Dimensional Homogeneity, Reyleighs method and Buckinghams ofpie-theorem, Simlitude, dimensionless, Model Laws, classification of models.

2. Flow through Pipes: Major and minor losses of energies in pipes, Hydraulicgradient and total energy lines, flow through pipes in series, equivalent pipe, Flow

through parallel pipes, Power transmission through pipes and nozzles, water

hammer.

3. Flow in open channel:Uniform flow through open channels, Chezys formula,

Most economical sections of channel. Non-uniform flow-specific energy andspecific energy curve, critical depth and critical velocity, minimum specific

energy, hydraulic jump.

4. Boundary Layer Theory: Laminar and Turbulent boundary Layer thickness,

Vonkarmans momentum equation, Total drag due to Laminar and turbulent

layers on flat plate, separation of boundary layer and its control.

5. Forces on submerged bodies: Drag and lift on a stationary body by flowing

fluid, expression for drag and lift and dimensional analysis, stream lined and Bluffbodies, Drag on a sphere and cylinder, Terminal velocity of a body, lift on a

airfoil.

6.

Compressible flow of Gas dynamics: Thermodynamic relations, continuityequation, Bernoullis equation and momentum equation, velocity of sound in

fluid, Mach no. propagation of pressure waves in a compressible fluid-Mach

angle, zone of action and silence, stagnation properties, Area-velocity relationshipfor compressible flow, flow of compressible fluid through nozzles-maximum

mass flow rate and its variation, mass flow rate of compressible fluid through

venturimeter,pito-static tube. Normal and oblique shock waves.

References:

1. Bansal, S.K., Fluid Mechanics & Hydraulic Machines Laxmi Publications.

2.

Cengel, Y.A., Fluid Mechanics: Fundamentals & Applications (SI Units)Tata McGraw-

Hill Publications3. Jain, A.K., Fluid Mechanics Khanna Publishers.

4. Rajput, R.K., Fluid mechanics & Hydraulic machines 2/E S. ChandPublications.


14/44

ME 404 Manufacturing Technology I (3-1-0) 4

1. Types of production & production processes, product configuration & Manufacturing

requirements.

Casting of ferrous & Non-ferrous metals including Die Casting, Loam moulding,

Investment casting, Centrifugal casting, Continuous casting.

2. Pattern Making & Moulding :- Types of pattern, Pattern material, Pattern making tools

and allowances, Moulding sands and their properties, Sand Testing.

3. Joining Methods :- Welding, Brazing & Soldering, welding processes like fusion

welding, electric arc welding, gas welding, Resistance welding, TIG, MIG, Submergedarc welding, friction welding,, Newer welding methods.

4. Mechanical working of metals :- Hot working, Hot rolling, Piercing or seamlesstubing, Drawing, Deep drawing, Hot spinning, Extrusion.

Cold working, cold rolling, cold drawing, cold bending, cold spinning, cold extrusion,

squeezing, peening, sizing, coining and hobbing, Electro hydraulic forming,Metallurgical aspects.

5. Smithing and Forging :- Heating devices, forging temperatures, hand tools and

appliances, smith forging operations, forging process, hand forging, power forging,

impression die forging, drop hammers, press forging, machine or upset forging, high

energy rate forging (HERF), Fibrous structure of forging: grain flow, defects in forging,advantages & limitations.

6. Powder Metallurgy :- Process description, manufacture of metal powders, Blending ofpowders, compacting, presintering, sintering, secondary operations, isostatic pressing,

metal injection moulding, products of powder metallurgy, advantages of the process,

disadvantages & limitations.

7. Other Methods :- Explosive fabrication, magnetic pulse forming, electroforming, hard

facing, sheet metal work, computers in metal forming technology, CAD/CAMtechnology.

References:

1. Hazra chaudhury, S.K, Elements of workshop technology Vol -1

2. Jain, R.K., Production Technology

3. Dieter, George E., Mechanical Metallurgy,4. Methods & Process in Manufacturing by E. Paul Gegarmo & Others.


15/44

ME405 NUMERICAL ANALYSIS AND COMPUTER PROGRAMMING (3-1-0) 4

Numerical Analysis: Approximation and round off errors; Truncation errors

and Taylor series.Determination of roots of polynomials and transcendental equations by Newton-

Raphson, Secant and Barstows method.Solution of linear simultaneous algebraic equations by Gauss elimination andGauss- Siedel iteration methods.

Curve fitting; Linear and non-linear regression analysis.

Backward; Forward and central difference relations and their uses in numerical

differentiation and integration; Application of different relations in the solutionof partial differential equations.

Numerical solution of ordinary differential equations by Euler; modified Euler

Runge-Kutta and predictor-corrector method.

Computer Programming:Introduction to computer programming in C and C++

languages: Arithmetic expressions; Simple programs ( The emphasis should bemore on programming techniques rather than the language itself. The C

programming language is being chosen mainly because of the availability of

the compiler, books and other reference materials.

Example of some C programs; Dissection of the program line by line; Concept

of variables; Program statement and function calls from the library.C datatypes: int, char, float etc.

C expressions, arithmetic operations, relational and logic operations.

C assignment statements, extension of assignment to the operation; C primitive

input output using getchar and putchar; exposure to the scanf and printffunction.

C statements; conditional execution using if, else etc.( Optionally switch andbreak statements should be mentioned)

Concepts of loop; Example of loops in C using for-while and do-while(

Optionally continue may be mentioned)

One dimensional arrays and example of iterative programs using arrays; 2-darrays; Use in matrix computations.

Concept of sub-programming; Functions; Example of functions; Argument

passing mainly for the simple variables.

Pointers, relationship between arrays and pointers; Argument passing usingpointers.

Array of pointer; Passing arrays as arguments.

Strings and C string library.Structure and unions; Defining C structure; Passing structure as arguments (

Program examples)

File I/O; Use of fopen, fsanf and fprintf routines.

References.

1. Kandasamy, P., Thilagavathy, K., and Gunavathy, S., NumericalMethods, S.Chand


16/44

ME 406 STRENGTH OF MATERIALS LAB.

To determine hardness of material with the help of the following methods

i) Rockwell ii) Brinell iii) Vickers etc.

To determine the impact strength of materials with the help of pendulum type impact

testing machine.

To determine tensile properties of ductile material with the help of Universal testingmachine (UTM).

Top determine the compressive properties of non-ductile materials with the help of UTM.

To determine the compressive strength of bridle materials with the help of compressivetesting machine.

Various types of non-destructive testing.

Creep testing & fatigue testing.

ME 407 MANUFACTURING TECHNOLOGY I LAB. (0-0-3)3

Making a grind sand mould

Melting & pouring to get cast product.

Making a bolt head by smith forging.

Making a chain by forge welding.

To make a cylinder connector with sheet metal.

Sheet matel work of a) A 10 cm dia right cone cut by a 450inclined passing through mid

axis, height of the cone is 16 cm (b) Making a kerosene oil cane with the following

measurement.

To study different mechanical properties after annealing, normalizing & hardening heat

treating.

Making articles with cold spinning.


17/44

ME 408 ME LAB II (0-0-3)3

To study the functioning of multi-cylinder engine.

To draw & study the function of clutch mechanism, braking mechanism & gear box.

To study the functioning of two stroke SI engine.

To study with sketches fuel injection, power flow circuits, water flow circuits of I C

engine.

To draw & study water tube boiler.

To draw & study steam engine.

ME 409 NMCP SESSIONAL (0-0-2)2

Laboratory work based on the syllabus of the subject ME 405.


18/44

B. Tech Degree


SYLLABUS

FOR

CREDIT BASED

CURRICULUM

(For Students of 5th & 6thSemester)



AGARTALA - 799055

INDIA


19/44

5thSemester


UME05B11 Refrigeration & Air Conditioning 3-1-0 4

UME05B12 Machine Design I 3-1-0 4

UME05B13 Theory of Machines- I 3-1-0 4

UME05B14 I.C. Engines 3-1-0 4

UME05B15 Manufacturing Technology II 3-1-0 4

UME05B16 Turbomachinery 3-1-0 4

UME05P19 Manufacturing Technology II Lab 0-0-3 3

UME05P20 I.C Engine Lab 0-0-3 3

UME05P21 Machine Design I Sessional 0-0-2 2

UME05P22 Refrigeration & Air Conditioning Lab 0-0-3 3

Total 18-6-11 35


20/44

ME 501 REFRIGERATION & AIR CONDITIONING (3-1-0) 4

Principles of Refrigeration & Refrigeration cycle: Reversed Carnot Cycle, Steam Jet

Refrigeration System, Refrigerants-Designation and trade name, Physical, Chemical &

Thermodynamic properties of principal refrigerants. Vapour Compression Refrigeration Cycle.

Deviation from actual cycle. Air Refrigeration Systems-Bell-Coleman Cycle, evaporation &bootstrap evaporation type, T-S & p-h diagrams, COP.

Absorption System of Refrigeration: Electrolux Refrigerator. Refrigeration EquipmentsTypes of Compressors, Condensers & Evaporators. Flash chamber multi compressor, multi

evaporator, production of load, temperature. Electric control. Surface requirements for

evaporators & condensers. refrigeration piping, materials, moisture removal.

Refrigeration controlsliquid refrigerant control automatic & thermostatic expansion valves,

float valves, section line controls.

Application of Refrigerationice making, food preservation, household refrigerators, coldstorage.

Psychrometrics: Atmospheric air, air and humidity, terms and calculation, psychrometric

chart, air humidity processes, humidification &dehumidification, By-pass factor, summer and

winter air load, housing system.

Comfort air conditioning: effective temperature, comfort chart, ventilation requirements.

Solar Radiation: Distribution of solar radiation, direct and diffuse radiation, earth sun angles

and their relationships, direct solar radiation on a vertical, horizontal, inclined surface, heat gainthrough glass, effect of shading devices, heat transfer in building structures through walls and

roofs. Empirical methods to evaluate heat transfer through walls and roofs, infiltration, passive

heating and cooling of building. Air distribution system, basic theory, air duct losses, design of

air duct system, air delivery and distribution.Air conditioning systems: unit conditioners, central air conditioning, control of air conditioning

apparatus, space cooling load calculation, heat transmission through barriers, solar radiation,

infiltration, occupants, electric lights &appliances, product load, outside air and ventilation,SHR By-pass factor, ADP, refrigeration load. Fluid flow and pressure loss, equivalent length

system & duct design, air distribution system, basic control system. Solar heating and cooling,

air conditioning through solar system, building designs for air conditioning

References:

1.

Arora,C.P.,Refrigeration and Air Conditioning,2nd ed., Tata McGraw-Hill2000.2. Ananth Narayanan, Basic Refrigeration & Air Conditioning, Tata McGraw-Hill3. Khurmi, Gupta, Refrigeration and Air Conditioning,S. Chand Publishers


21/44

ME-502 MACHINE DESIGN I (3-1-0)4

1. Fundamentals of Machine Design Design philosophy,Various considerations in machine

design .Design Procedure, Common engineering materials, I.S.I. specification on steels.

2. Stresses in machine elements: Types of Simple stresses , Stress strain relationship,

Factor of safety.

3. Design for Strength : Design for static loading, Theories of failures, Stress Concentration

Factors, Design for variable loading,

4. Fasteners: Types of fasteners, Design of Cotter and knuckle joint, Design of Key, Coupling

:Types ,use, Design procedure, working principle of rigid and flexible rubber-bushed couplings.

5. Design of Permanent Joints: Rivets, Types and use of rivet joint , Types and efficiency,

design procedure, Welded joint. Bolted Joint.

6. Power Screws: Power Screw, drives and their efficiency, Design of power screws

7. Design of Shaft:shaft and its design based on strength, Design of shaft for variable load and

based on stiffness, Combined bending and Twisting moment.

8. Springs: Introduction to Design of Helical Springs Design of Helical Springs for Variable

Load Design of Leaf Springs

References:

1. Shigley, J.E.,Mechanical Engineering Design, 5th ed., McGraw-Hill, 1989.

2. Bhandari, V.B., Design of Machine element Tata McGraw-Hill

3. Bhandari, V.B., Introduction to Machine Design Tata McGraw-Hill

4. Khurmi, R.S., Gupta, J.K., A Text book of Machine Design S. Chand Publication.

ME-503 THEORY OF MACHINES - I (3-1-0) 4


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1. Machine and mechanism: Definition, Mechanism and Machine, Link, Kinematic Pair,Degrees of freedom, Kinematic chain, Various types of joints, Degrees of freedom for plain

Mechanism, Inversion, Different types of kinematic chain and their inversions.

2. Velocity and acceleration in mechanism Analysis of Reciprocating Engine mechanismand Four bar mechanism; Relative velocity method; Velocity and acceleration in Four bar,

Slider crank Mechanism; Instantaneous center Method, Kennedys Theorem, Mechanical

Advantage, Coriolis Acceleration Component, Synthesis of Mechanism, Pantograph, Scott-Russel indicator diagram, Daris and Ackermenn steering mechanism, Hooksjoint.

3. Belt, Rope and Chain drive.

4.

Brakes and Dynamometers Introduction, Types of Brakes (Simple Block, Band, Band&Block brake), Breaking of a Vehicle, Dynamometer, Absorption and transmission

Dynamometer.

5. Gears and Gear TrainIntroduction, Gear classification and Terminology, Law of Gearing,Velocity of sliding, Forms of teeth, length of Arc & path of contact, Interference, Minimum

number of teeth required to avoid interference, Types of Gear Train, Velocity ratio in

different Gear train arrangement, Epicyclic Gear train, compound Epicyclic Gear train.

6. Cams: Introduction; Types of followers; Cam profile Nomenclature; various types of

motion of the follower-Uniform motion, Simple Harmonic, Uniform Acceleration and

Retardation, Cycloidal; Cam profile construction for various types of followers.

References:

1. Shigley, J.E., Vicker Jr., J.J., Theory of Machines and Mechanisms,

McGraw-Hill, 1995.

2. Rao, J.S. and Dukkipati, R.Y.,Mechanism and Machine Theory, 2nd ed., Wiley Eastern Ltd.,

1995.

3. Rattan, S.S., Theory of MachineTata McGrawHill Publications.

4. Khurmi, R.S., Gupta, J.K., Theory of MachineS. Chand.

ME-504 I.C ENGINE(3-1-0) 4


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1. Basic types of engines, air standard cycle, fuel air cycles, actual cycles, losses in actual

engine operation, mep, thermal efficiency. Desirable characteristics of fuels for I.C. engines.

Octane number, cetane number, performance numbers. Properties of air-petrol mixtures.

2. Elementary carburetor, complete carburetor, petrol injection.

3. Diesel injection system, fuel pump, fuel injectors and nozzles.

4. Battery ignition system, Magneto injection system, Electronic ignition system using contract

breaker, ignition system and spark advance.

1. Theories of combustion in S.I and C.I. engine, methods of reduction of detonation and

knock.

2. Combustion chamber types in S.I. and C.I. engine, Supercharging, Scavenging of I.C.

engines, two stroke S.I and C.I. engines.

3. Lubrication of I.C. engines, properties of lubricating oils, lubricating systems, cooling of I.C

engines, air and water cooling systems.

4. Fundamentals of free piston and rotary engines, performance and testing of I.C. engines,Pollutant emission- formation and control.

References:

1. Ganesan, V., Internal Combustion Engines, 2nd ed., Tata McGraw-Hill, 2003.

2. Sharma, Mathur,. Internal Combustion Engines, Dhanpat Rai & Sons.

3. Crouse, Anglin., Automotive Mechanics Tata McGraw-Hill

4. Kirpal Singh,Automotive Engineering, Vol. I & II, Standards Publishers, New Delhi,

2002.

ME-505 MANUFACTURING TECHNOLOGY II (3-1-0) 4


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1. Classification of metal removing processes and machines.

2. Mechanics of Metal cutting : Geometry of single point cutting tool and tool angles. Tool

nomenclature in ASA, ORS and NRS And interrelationship. Mechanism of chip formation

and types of chips, Chip breakers. Orthogonal and oblique cutting, cutting forces and powerrequired, Theories of metal cutting. Thermal aspects of machining and measurement of chip

tool interface temperature. Friction and metal cutting.

3. Machinability : Concept and evaluation of machinability, tool life, mechanisms of tool

failure, Tool life and cutting parameters, machinability index, Factors affecting

machinability.

4. Cutting Fluid :Types , Selection and application methods.

5. General Purpose Machine Tools: Constructional; details of lathe, drilling, milling, shaping

and planning machines. Tooling, attachments and operations performed , selection of cuttingparameters, Calculation of forces and time for machining. Broaching operation.

6. Capstan and turret lathes single and multiple spindle automates, operations planning and

tool layout.

7. Abrasive Processes: Abrasives natural and synthetic , manufacturing nomenclature.

Selection of grinding wheels, Wheel mounting and dressing. Machines for surface andcylindrical grinding, their constructional details and processes.

8. Surface Finishing Honing Lapping and superfinishing, polishing and buffing processes.

9. Screw threads and gear manufacturing methods.

10.Non- Conventional machining: Benefits, general applications and survey of non-

conventional machining processes. Mechanisms of metal removal, tooling and equipments,

process parameters, surfacre finishing obtained, and specific application of EDM,LBM,EBM,ECM,USM,AJM processes.

References:

1. Jain R.K., Production Technology, Khanna Publishers, 2001

2.

Hajra Choudhry,Elements ofWorkshop Technology, Vol II Dhanpat Rai & Sons, 1992.3. HMT Production Technology, Tata Mc Graw-Hills Publishing Co. Limited, 1994.

4. Chapman, W.A.J., Workshop Technology, Vol - II, Oxford & IBH Publishing Co. Ltd.,

1986.


25/44

ME 506 TURBOMACHINERY (3 - 0 - 0) 3

Hydraulic turbines; Pelton, Francis, and Kaplan turbines - Turbine efficiencies - Cavitation inturbines.

Centrifugal pumps; theory, components, and characteristics - Cavitation - Axial flow pumps -

Pump system matching.

Centrifugal and axial flow compressors; slip, surging and chocking.

Steam turbines; basic cycle, impulse and reaction turbines - Gas turbine; basic cycle and multi-

staging - Power and efficiency calculations.

Cascade Theory.

References:

1. Dixon, S.L., Fluid Mechanics and Thermodynamics of Turbomachinery,

5th ed., Butterworth- Heinemann, 2005.

2. Sayers, A.T.,Hydraulic and Compressible Flow Turbomachines, CBLS,

2003.

3. Ganesan, v., Gas Turbines, 2nd ed., Tata McGraw-Hill, 2003.


26/44

ME 507 MANUFACTURING TECHNOLOGY II LAB(0-0-3) 3

Laboratory work based on the subject ME-505.

ME 508 I . C ENGINE LAB. (0-0-3) 3

To study the functioning of injector & injector pump of C. I engine with sketches.

To study the functioning of carburetor of S.I engine with sketches.

To study the functioning of ignition system of SI engine with sketches

To study the lubrication system of I C engine with sketches.

To study the cooling system of I C engine with sketches

To find the brake power, brake specific fuel consumption, brake thermal efficiency of CI engine &

draw the performance curve.

ME 509 MACHINE DESIGN I SESSINAL (0-0-3)3

Sessional work based on the syllabus of the subject ME 501.

ME 510 REFRIGERATION & AIR CONDITIONING LAB (0-0-3)3

Mini air-conditioning tutor

Refrigeration cycle test rig.

Study of open type reciprocating compressor used in refrigerator.

Study reciprocating sealed compressor.

Study of thermostatic switch used in refrigerator, water cooler, air-conditioner and testing of therefrigerator thermostic switch.

Study of open type vapor compression system refrigeration unit.

Study of a vapor absorption refrigeration unit.


27/44

6thSemester


UME06B17 Machine Design II 3-1-0 4

UME06B18 Mechanical Vibrations 3-1-0 4

UME06B19 Heat & Mass Transfer 3-1-0 4

UME06B20 Industrial Engineering & Operation Research 3-1-0 4

UME06B21 Mechanical Measurement 3-1-0 4

UME06P23 Heat & Mass Transfer Lab 0-0-3 3

UME06P24 Machine Design-II Sessional 0-0-2 2

UME06P25 Metrology & Mechanical Measurement Lab 0-0-3 3

UME06P26 F.M Lab-II 0-0-2 2Total 15-5-10 30


28/44

ME-601 MACHINE DESIGN-II(3-1-0) 4

1.Fatigue consideration in design

-Variable load- basic concept, Patterns of load or stress variations, S-N curve-fatigue strength and endurance limit, Factors influencing fatigue, Effect of stressconcentration and fatigue stress concentration definition and its estimation from geometric stress

concentration factor , Goodman and Soderberg's relations,design for infinite life and finite life,Methods for design of members under combined (steady and variable) loading conditions,

Worked out examples on fatigue design problems

2.Design of gear tooth

Gears-types and application and gear terminology ,Analysis of forces on spur, and helicalgears,Bending and contact stress in gear tooth,Lewise equation for design,Dynamic loading and

wear-Buckingham equations for design,Force analysis on bevel and worm gears ,Designapproach for bevel gears- equivalent tooth,Design of fixed ratio gear box- general design

procedure, Determination of bearing reaction due to gear forces.

3.Design of sliding and journal bearings

Types of lubrication- hydro dynamic, hydro static and EHD lubrication, Petroff'sequation and the bearing characteristic number,Lubrication regimes- boundary and film

lubrication, Hydro dynamic bearings- Pressure distribution-eccentricity and minimum film

thickness,Reynolds equation,Heat generation and thermal equilibrium.

4.Design/analysis of Brakes clutches and fly wheels

Brakes and clutches -need and functioning, Plate clutches- design for uniformpressure and wear, brake-design/analysis, Flywheel- Coefficient of fluctuation of speeds,fluctuation of energy, energy stored in flywheel. Stresses on flywheel ring, arms, Design ofshafts, hub and Key. Design of flywheel.

References:

1. Shigley, J.E.,Mechanical Engineering Design, 5th ed., McGraw-Hill, 1989.


3. Bhandari, V.B., Introduction to Machine Design Tata McGraw-Hill



29/44

ME-602 MECHANICAL VIBRATION (3-1-0)4

1. Undamped free vibration of single degree of freedom system, damped free vibration,forced vibration of single degree of freedom system, resouance, forced vibration withconstant harmonic excitation, forced vibration with rotating and reciprocating unbalance.

2. Forced vibration with excitation of support, forced vibration with coulomb damping&viscous, damping. Determination of equivalent viscous damping from frequency-response

curve. Vibration isolation and transmissibility.

4 Two degrees of freedom system. Transverse vibration of shafts.

5. Critical speed of shaft.

6. Torsional vibration- Single rotor, two rotor, and three rotor system.

7. Forced torsional vibration with a geared system. Vibration measuring instruments-

seiosmometer, accelerometer.

References:

1. Grover, G.K., Mechanical Vibrations



4. Rao, J.S. and Gupta, K., Introductory Course on Theory and Practice of MechanicalVibration,New Age International Pvt. Ltd., 1984.

5. Thomson, W.T., Theory of Vibration with Applications, CBS publishers, New Delhi,

1990.


30/44

ME-603 HEAT AND MASS TRANSFOR (3-1-0)4

1. Introduction :Various methods of heat transfer, Fouriers, Newtons and StefanBoltzmans Law. Combined modes of heat transfer, thermal diffusivity, overall heat

transfer coefficient.2. Conduction :The thermal conductivity of solids, liquids and gases, factor influencing

conductivity, measurement. The general differential equation of conduction. Onedimensional steady state conduction, linear heat flow through a plane and composite wall,

tube and sphere, critical thickness of insulation. Effect of variable thermal conductivity.Conduction with heat sources, heat transfer from rods heated at one both ends. Heat

transfer from fins of uniform cross-section. Errors of measurement of temperature inthermometer wells.

3. Convection (Forced) :Introduction, laminar boundary layer equations on a flat plate andin a tube, laminar forced convection on a flat plate and in a tube, simple Reynolds

analogy. Dimensional analysis of forced convection, empirical relationship for forced

convection.4. Convection (Natural) :Dimensional analysis of natural convection; empirical

relationship for natural convection. Convection with phase change. Description of

condensing flow. A theoretical model of condensing flow. Boiling heat transfer,Empirical relationships for convection with phase change.

5. Heat Exchangers :Different types of heat exchangers; Determination of heat exchangerperformance, Heat exchanger transfer units, Analysis restricted to parallel and counter

flow heat exchanger. Effectiveness, NTU.6. Thermal Radiation :Introduction, absorption and reflection of radiant energy, Emission,

Radiosity and irradiation, Black and non-black bodies, Krichoffs law; intensity ofradiation, radiation exchange between black surface, geometric configuration factor, grey

body relation exchange between surfaces of unit configuration factors. Grey body relationexchange between surfaces of unit configuration factors. Electrical analogy to simple

problems. Non-luminous gas radiation. Errors in temperature measurement due toradiation.

7. Introduction to Mass Transfer : Mass and mole concentrations, molecular diffusion,eddy diffusion, Molecular diffusion from an evaporating fluid surface, Introduction to

mass transfer in laminar and turbulent convection, Combined heat and mass transfer, thewet and dry bulb thermometer.

References:

1. Incropera, F.P. and Dewitt, D.P., Fundamentals of Heat and Mass Tran5fer, 5th ed.,

John

Wiley,2002.

2. Holman, J.P., Heat Tran5fer, 9th ed., McGraw-Hill, 2004.

3. Ozisik, M.N., Heat Tran5fer -A Basic Approach, McGraw-Hill, 1985.

4. Cengel, Y.A., Heat Tran5fer -A Practical Approach, McGraw-Hill, 1998.

5. Rajput, R.K., Heat & Mass Transfer Khanna Publishers.


31/44

INDUSTRIAL ENGINEERING & OPERATION RESEARCH (3-1-0)4

Industrial Engineering :-

Concept of Industrial Engineering- its role & applications, Operation Research, Work study :

time & motion study, Method study , Principles of motion economy, Workplace layout, Stop

watch time study, SIMO chart, Man-machine chart, Therbligs, PMTS, MTM, Worksampling.

Organisation: -

Organisation structures, Types, Principles of organization structures, Features of variousOwnerships, Company formations- its management and finance, Public limited & private limited

company.

Material Management: -

Functions of material management, Inventories- its types, Just In Time (JIT) inventory, Concept

of EOQ & EBQ, Simple EOQ model with and without stock outs, Simple EOQ model withvarying demand and production, P- type & Q- type of inventory policies, Selective inventory

control like ABC, VED, SDE techniques etc.Production Planning & Control:-

Functions and role, Value analysis, Exponential smoothing constant and moving average methodin demand and production forecasting, Break even analysis.

Quality Management:-

Quality vs reliability, Quality maintenance and quality assurance, SQC technique, Acceptance

sampling, Concept of TQM, ISO Standards.

Plant Layout :-

Location factors, Principles and design, Types of layout, Tools & technique.

Plant Maintenance :-

Break down, Scheduled and Preventive maintenance, Steps in preventive maintenance, TPMconcept.

Operational Research:-

Concept of O.R, Methods of O.R, Concept of optimization, Linear programming, simplex

method Transportation problem, Queuing theory. Decision theory, Integer programming,Revised simplex method, network techniques (PERT & CPM), theory of games, Simulation

Technique.

Reference Books:

1. Industrial Engineering & Production By M. Mahajan, Dhanpat Raj & SonsManagement Publication

2. Industrial Engineering & Management By O.P. Khanna, Dhanpat Raj & Sons3. Industrial Engineering & Management By Bunga & Sharma, Khanna Publishers

4. Work Study ILO5. Operation research --- Taha.

6. Operation Research Hira Gupta.


32/44

ME-604 MECHANICAL MEASUREMENT (3-1-0)4

1. Introduction : Introduction to measurement and measuring instruments, Generalised

measuring system and functional elements, units of measurement, Static and dynamicperformance characteristics of measurement devices, Calibration , concept of error,sources of error, statistical analysis of errors.

2. Sensors and Transducers :Types of sensors, types of transducers and their

characteristics.

3. Measurement of displacement and angular velocity

4. Measurement of pressure : Gravitational, Directing acting, elastic and indirect typepressure transducers, Measurement of very low pressure.

5. Strain Measurement :Types of strain gauges and their working, strain gauge circuits ,

Temperature compensation, Strain rosettes

6. Temperature Measurement:By thermometers, bimetallic, Thermocouples, thermistorsand pyrometers.

7. Measurement of Flow : Obstruction meters, Variable head meters, Hot wire and

magnetic meters, Ultrasonic flow meters etc.

8. Vibration and Noise measurement : Seismic Instruments, Vibration pick ups and

decibel meters .

9. Limits, Fits & Tolerence: Introduction to various fits, limits & tolerances, Indian

standards of fits & tolerances & grades, gauge design, taylors principle of gauge design,wear allowances, measurement of concentricity & loabed surfaces.

References:

1. Engineering Metrology by R.K. Jain2. Mechanical Measurement by Backwith & Buck

3. Mechanical Measurement & Instrumentation by D.L.Kumar.

4.

Mechanical Measurement & Instrumentation by R.K.Rajput.


33/44

ME 605 HEAT & MASS TRANSFER LAB (0-0-3) 3

Study of heat transfer through composite wall.

Study of heat transfer through lagged pipe.

Study of heat transfer through fin.

Study of un-steady state of heat transfer.

Study of heat transfer in forced convection

Study of heat transfer in natural convection.

Heat transfer study in parallel flow, counter flow heat exchanger walls.

Study of heat transfer through fin tube heat exchanger.

Heat transfer study shell & tube heat exchanger.

Study of critical heat flux in boiling.

Determination of Stefen-Boltzmann constant experimentally.

ME 606 MACHINE DESIGN-II SESSIONAL (0-0-2)2

Sessional work based on the syllabus of the subject ME 601.

ME 607 METROLOGY & MEASUREMENT LAB. (0-0-3)3

Use of Micrometer for measuring Go-Not Go plug gauge

Use of vernier for measuring piston.

Use of different angle measuring instruments for measuring taper plug gauge.

Measurement of V Block with the help of vernier height gauge.

Measurement of V Block by Dial indicator set up.


34/44

Measurement of different elements of screw threads.

Measurement of different elements of gear.

ME 608 F.M LAB- II (0-0-2)2

Determination of co-efficient of discharge of flow nozzle meter.

Determination of co-efficient of discharge of Triangular notch, Rectangular notch

Determination of impact of jet.

Performance of Pelton Turbine.

Performance of Frencis Turbine.

Performance of Kaplan Turbine.


35/44

B. Tech Degree


SYLLABUS

FOR

CREDIT BASED

CURRICULUM

(For Students of 7th & 8thSemester)



AGARTALA - 799055

INDIA


36/44

7thSemester


UME07B22 Thermal Power 3-1-0 4

UME07B23 Dynamics of Machine 3-1-0 4

UME07B24 Manufacturing Technology-III 3-1-0 4

UME07B25 Elective-I 3-1-0 4

UME07B26 Elective (Open) 3-1-0 4

UME07P27 Mechanical Vibration Lab 0-0-3 3

UME07P28 Project & Thesis 0-0-3 3

Total 15-5-6 26


37/44

ME-701 THERMAL POWER (3-1-0) 4

GENERATORS

1. Combustion equipment for burning coal, fuel bed combustion, mechanical

strokers, pulverized coal firing system-its advantages & disadvantages-burners &furnaces. Fluidized bed combustion.

2. Boiler-mounting & accessories, fire tube boilers, water tube boilers-La Mont

boiler, Loeffler boiler-Benson Boiler. Drum internals, steam drum separation,

water wall, air preheater, economizer, super-heater & electrostatic precipitators,steam generator, losses & heat balance.

3. Principle of circulation-natural forced circulation, drafts-natural, forced, induced

& balanced drafts, pressurized fluidized bed boiler. Flow through nozzle, nozzle

shape, critical pressure ratio, maximum flow, effect of friction in nozzle flow

under-expansion & over-expansion in nozzle, super saturated flow throughnozzle.

STEAM TURBINE

1. Principles of action of turbines, classification. Flow through impulse turbine

blading, velocity diagram, blade efficiency, optimum velocity ratio, multistage &its advantages, velocity compounded impulse, reheat factor, internal efficiency.

State point locus.

2. Flow through reaction turbine blading, velocity diagram, degree of reaction, blade

work, blade height. Stage efficiency, optimum velocity ratio, axial thrust inreaction turbine, number of parallel exhausts.

3. Back pressure turbines, pass-out turbines, mixed-press turbine. Losses in turbines,principles of turbine governing.

References:

i) Thermal Power - P.L. Balaney.

ii) Gas Turbine V. Ganesan.

iii) Thermal Engineering Khurmi & Gupta.


38/44

ME-702 DYNAMICS OF MACHINE(3-1-0) 4

1. Inertia Force Analysis In Reciprocating Parts : Introduction , D-Alemberts

principle, Velocity and Acceleration of the piston- Analytical & graphical, Torque

in the crankshaft neglecting inertia and friction; Various forces acting on thereciprocating part considering friction and inertia but neglecting weight of the

connecting rod , Correction couple ,Dynamically Equivalent system , Torque on

crankshaft considering weight of connecting rod.

2. Gyroscope: Principle of gyroscope couple; Effect of gyroscope couple andcentrifugal force on vehicle taking a turn ; Stabilization of sea vessels.

3. Turning Moment Diagram and Flywheel:- Turning moment diagram fordifferent types of Engines Fluctuation of energy and speed ;Flywheel; Flywheel

Rim dimensions ; Operation of flywheel in punching press .

4. Governor: Simple functioning of a Governor, porter, Proell, Hartnell and spring

controlled , governor effect ,Power stability ; Inertia effects .

5. Balancing: Balancing of rotating masses in the same and different planes ; Static

& Dynamic balancing ; Balancing of masses; Sawing couple ; Hammer blow ,

tractive force , Primary and secondary balancing of a Locomotive and Internalcombustion Engine; Balancing of V-Engines ; Balancing machines.

References:

1. Shigley, J.E., Vicker Jr., J.J., Theory of Machines and Mechanisms,

McGraw-Hill, 1995.

2. Rao, J.S. and Dukkipati, R.Y., Mechanism and Machine Theory, 2nd ed., Wiley

Eastern Ltd.,

1995.



ME 703 MANUFACTURING TECHNOLOGY III (3-1-0) 4


39/44

Processing of advanced materials; Generative Manufacturing Processes: rapid

prototyping, general features and classifications, CAD and GMP software, creation of

layers, building of metallic objects, considerations for adopting RP technology.

Definition and classification of automation; High-volume production systems- transfermechanisms, transfer lines; NC production systems- features of DNC, CNC and adaptive

control; Robotics- anatomy, control system, programming and applications.

FMS: work stations, material handling, computer control, planning; group technology;AGV system; Automated Inspection and Testing - principle and methods, sensor

technologies, machine vision.

CIM: CAD, CAM, CAPP and their integration.Assembly systems and line balancing; Production economics.

References:

1. Jain R.K., Production Technology, Khanna Publishers, 2001

2. Hajra Choudhry, Elements of Workshop Technology, Vol II Dhanpat Rai &

Sons, 1992.3. HMT Production Technology, Tata Mc Graw-Hills Publishing Co. Limited, 1994.

4. Chapman, W.A.J., Workshop Technology,Vol - II, Oxford & IBH Publishing Co.

Ltd., 1986.

ME 705 MECHANICAL VIBERATION LAB (0-0-3) 3

Laboratory work based on the subject ME-702

ME 706 PROJECT & THESIS


40/44

8thSemester


UME08B27 Compressible Flow & Jet Propulsion 3-1-0 4

UME08B28 Advanced Machine Design 3-1-0 4

UME08C14 Behavioral Science & Management 3-1-0 4

UME08B29 Elective-II 3-1-0 4

UME08B30 Elective (Open) 3-1-0 4

UME08P29 Thermal Power Lab 0-0-3 3

UME08P30 Project & Thesis 0-0-3 3

UME08P31 Grand Viva Voce 0-0-3 3Total 15-5-9 29


41/44

ME-801 COMPRESSIBLE FLOW & JET PROPULSION (3-1-0) 4

Adiabatic flow, Rayleigh line & pressure ratio, temperature ratio, heat added to the

system. Adiabatic flow friction factor, Fannoline, normal shock & oblique shock,

Prandtl-Meyer flows. Governing equations for inviscid-compressible flows - Static andstagnation properties - Speed of sound and Mach number. Isentropic flow through

variable area passage ducts - Choking of flow. Normal and oblique shocks - Prandtl-

Meyer flows. Fanno flow - Rayleigh flow.

Fundamentals of jet propulsion - Propulsion cycle - Power and efficiency calculations -Turbojet, turbofan, and turboprop engines - Fundamentals of rocket propulsion.Ramjet

engine, Pulse-jet engine, Turbo-jet engine, Turboprop engine, Thrust equation, Ram

efficiency, Thermal efficiency of turbo-jet engine, Propulsion efficiency, Overall

efficiency of a propulsive system. Introduction to rocket propulsion. Performance,difference of the Air breathing engine & Rocket engine, Rocket propellant.

References:

1. Yahya, S.M., Fundamentals of Compressible Flow with Aircraft and Rocket

Propulsion, 3rd ed., New Age International Publishers, 2003.

2. Oosthuizen, P.H. and Carscallen, W.E., Compressible Fluid Flow, McGraw-Hill,

1997.

3. Zucker, R.D. and Biblarz, 0., Fundamentals of Gas Dynamics, 2nd ed., John Wiley,


42/44

ME 802 ADVANCE MACHINE DESIGN (3-1-0)4

1.Optimization Technique for Design.Optimization,Optimum design, Methamatical Methods of optimization,Johnsons

Method of Optimizaton.

2.Design of Principal partsDesign of Crankshaft, Connecting rod, Cylinder, Cylinder head,Piston

3.Belt DrivesFlat Belt Drives, Types,Belt materials,Belt slip and Creep, Design procedure of Flat and

V-belt

4. Design of Material Handling System.

Material Handling System, Design principles, Design of Convayer belt,wire ropes.

5. Design of Gear box.

Design of general purpose Gear box, Automobile Gear box, Machine tool Gear box,

6. Cams

Basic curves, Cam size Determination, Calculating Cam profile, Advanced curves,

References:



3. S.P.Patil.,Mechanical System DesignJaiko publishinh House.


43/44

HU 801 BEHAVIORAL SCIENCE & MANAGEMENT (3-1-0) 4

Organisational Behaviour

Attitude, Personality, Leadership Process and Style, Perception, Motivation Theory,

Performance Appraisal.

Organisation Structure

Organization Structure and Chart, Power and Authority, Delegation of Authority,Centralisation and Decentralization, Formal and Informal Organisation,Organisational

Change and Development.

Industrial RelationCollective Bargaining, Conflict Management, Group Behaviour, Trade Unions,

Grievance Handling, Participative Management, Training and Development,

Labour Relation

Labour Wealfare, Social Security, Social insurance, Safety and Health, Wage and SalaryAdministration, Discipline, Labour Legislation, Factories Act,1948.

Reference Books:

1. Industrial Relation, S.S.Khanka, S.Chand and Sons.

2. Organisation Behaviour, L.M.Prasad, S.Chand and Sons.3. Personnel Mangement, C.B.Memoria,Himalaya Publication.

4. Organisational Behaviour, K.Devis, Tata McGraw Hill.

5. Organisational Behaviour, F.Luthans, Tata McGraw Hill.6. Personal/Human Resource Mnagement, S.P.Robins & D.A.Decenzo, PHI

ME-804 THERMAL POWER LAB. (0-0-3) 3

Laboratory work based on the subject ME 801.

ME-805 PROJECT & THESIS (0-0-3)3

ME 806 GRAND VIVAVOCE (0-0-3)3


44/44

List of Departmental Electives (Mech. Engg.)

1. Machine Tool2. Computational Fluid Dynamics (CFD)

3.

Automobile Engineering4.

Quality Engineering & Management5.

Aerodynamics6. Industrial Tribology7.

Finite Element Method (FEM) in Engineering.8. Industrial Hydraulics9. Laser Technology10. Mechanics of Compressible Fluid11. CAD/CAM12.

Gas Dynamics & Jet Propulsion13. Special welding & casting Technique14.

Optimization Method in Engineering.15.

Computational Heat Transfer

Documents

Mech Final Syl Btech