1

Engineering Graphics (Academic Year 2012-2018)

Course coverage and Instructions:

Introduction to Engineering Graphics [PPT] - Different types of Instruments and their uses (video Lecture), Types of Lines [Assignment sheet]

Curves - Ellipse and parabola by Rectangular/Oblong Method, Ellipse by Eccentricity method, Involute, cycloid, spiral [Assignment sheet]

Projection - points, lines [Assignment sheet], planes [Assignment sheet]-source from internet

Orthographic Projection [Assignment Sheet]-source from internet

Projection of solids-Prism, Pyramid, cone and cylinder-source from internet

Section of solids and development of surfaces-cone, cylinder. Prism and pyramid [Assignment sheet]-source from internet

Isometric Projections [Assignment sheet]-source from internet

References:

1. Engineering Drawing - N D Bhatt

2. Engineering Graphics - S C Sharma & Naveen Kumar

3. Engineering Drawing - P S Gill

4. Engineering Drawing with Auto-CAD - Parvez, Khan & Khalique

Text Book: N.D.BHATT (Fifty-first edition-2012)

2

Fluid Machines (2012-2017)

Introduction, Classification and field of application of fluid machines.

Jet Striking Plates- Jet striking flat plate and curve plate; calculation of force, energy and efficiency exerted by jet on plate [PPT].

Water Turbines: Theory of Rotodynamic Machines- Euler's Equation, components of energy transfer, Classification-Impulse and Reaction Turbines, Construction, Operation, Head and efficiencies, Power calculation and governing of Pelton [PPT] [Problems] , Kaplan [PPT] [Problems] and Francis turbines [PPT] [Problems]; Draft tube; Surge tank.

Application of dimensional analysis in fluid machines - Unit quantities and Specific speed [Problems].

Centrifugal Pumps: Types; Heads and efficiencies; Construction of impeller and casing; Multi-stage pumps; Specific speed; Model testing; Characteristic curves; NPSH; Cavitation; Selection of centrifugal pump [Problems].

Reciprocating Pumps: Classification with constructional details; Theory; Indicator diagram; Effect of acceleration of piston; Effect of friction in pipes; Air vessel and its effects; NPSH, Rotary Positive Displacement Pumps: Types and constructional details [Problems].

Reciprocating air compressors: Construction; Indicator diagram; Effect of clearance; Efficiencies; Multi-stage air compressors. Rotary compressors, Centrifugal Compressor and Fans: Types, Construction, Operation and power calculation. [Problems].

Selection steps and testing procedure of fluid machines.

References:

1. Fluid Mech. through problems-R J Garde

2. Hyd. & Fluid Mech. -J. Lal

3. Fluid Mech. -Streeter &Wilie

4. Fluid Mech. -I H Shames

5. Fluid Mech -Som and Biswas

6. Fluid Mech. And Fluid Power Engg. -D.S.Kumar

3

Fluid Mechanics Lab

1.   To determine the coefficient of discharge, contraction & velocity of an orifice

2.   To determine the coefficient of discharge of venturimeter

3.   To verify the Bernoulliʹs Theorem

4.   To determine the Losses in pipe friction

5.   Friction factor in pipe flow

6.   To determine the discharge coefficient for a V-notch.

4

Kinematics of Machines (2014, 2017-2019)

Kinematic pairs, inversion, mobility and range of movements, degree of freedom, equivalent mechanism.

MechAnalyser software (Downloads - MechAnalyzer)

Displacement, velocity analysis, I-Centre method

Acceleration analysis of planar linkages.

Lower Pair Mechnism, Dimensional synthesis for motion. Simple Mechanism, Devis and Ackermann steering mechanisms, Hooke joint. Mechanical Couplings

Cam profiles: [video] Velocity, Acceleration, Synthesis.

Types of gears [video], different terminology : module, law of gearing [video], motion and synthesis of simple gear, reverted and planetary gear trains.

Clutches: Types, Analysis.[video]

Brakes: Types, Analysis. [video]

Dynamometers: rope brake, Prony Brake, etc

Weightage of Marks: MID SEM syllabus: 32 Marks, END SEM syllabus: 48 Marks; (MID: END=4:6); Class Tutorial/Quiz/surprise test/Attendance (or combined): 20 Marks = Total 100 Marks

MID SEM EXAMINATION: OUT OF 60 Marks

END SEM EXAMINATION: OUT OF 100 Marks (MID SEM syllabus: 20 Marks, END SEM syllabus: 80 Marks)

No option will be provided in the MID and END question paper.

References:

1.      Theory of Machines-S.S.Rattan (Text Book)

2.      Theory of Machines and Mechanisms-John Uicker, Gordon Pennock, Joseph Shigley

3.      Theory of Machines-Khurmi and Gupta

5

Kinematics of Machines Lab

1.    Coefficient of friction between sliding belt (rope) and a fixed pulley

2.    Efficiency of a screw jack by raising & lowering conditions [video link]

3.    Cam profile and follower movement [video link]

4.    Coriolli's component of acceleration

5.    Speed of gear in the output shaft of a compound gear train

6

Optimization theory (M.Tech.) (2014-2018)

Basic Concepts: optimal problem formulation. Single variable optimization algorithms: bracketing, region elimination, point estimation, and gradient based methods, root finding.

Multivariable optimization algorithms: unidirectional search [MATLAB Program], direct search methods: simplex search [MATLAB Program], gradient based methods: Cauchy's Steepest Descent method [MATLAB Program].

Constrained optimization algorithms: Transformation Method, penalty function method, sensitivity analysis, Linear Programming [MATLAB Program], Non Linear Programming [MATLAB Program].

Nontraditional optimization algorithms: Genetic algorithms [MATLAB Program], Artificial Neural Network [MATLAB Program].

Multi-Objective Optimization: Introduction to linear and nonlinear multi-objective problems, Use of Evolutionary Computations to solve multi objective optimization

Computer programming practice in MATLAB [MATLAB examples].

Text /References: 

1.    S.S. Rao, Engineering Optimization: Theory and Practice, New Age International Publishers, 2006. 

2.    S.Bradley, A.Hax, T.Magnanti, Applied mathematical programming. Addison Wesley, 1977.

3.    Rardin  L. Ronald, Optimization in operations research, Prentice Hall. 1997.

4.    Strang and Gilbert, Introduction to applied mathematics, Wellesley-Cambridge press, 1986.

5.    K.Deb, Optimization for engineering design: algorithms and examples. Prentice Hall of India, New Delhi, 1996.

6.    C.Balaji, Essentials of Thermal System Design and Optimization, Ane Books Pvt. Ltd., 2011.

7.    K.Deb, Multiobjective optimization using Evolutionary Algorithm. Wiley. 2001.

8.    MATLAB, https://in.mathworks.com/help/

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Computational Lab (Programming in MATLAB etc.) (M.Tech.)

1.    Modelling and Simulation

2.    Optimization

3.    PID Stabilising and Tracking

4.    Parameter Tuning

5.    Coupled Dynamics Analysis

6.    Dynamics Decoupling

7.    Model Identification

8.    Nonlinear, adaptive and overwhelming control

9.    Fault diagnosis

10. Different waveform generations in MATLAB

8

Machine Drawing (2013-2017, 2019)

Basics of Engineering Drawing [PDF] and Instrument Handling [video].

Revisions: Projection of Points, lines and planes, True lengths of lines and true shapes of planes, Projection of Lines and Planes to auxiliary planes. Revision on Projection and section of solids to various planes and true shapes of sectioned surface. Inter-penetration of solids and their projections. Surface development of solids and its uses.

Drawing of different types of nuts, bolts, rivet and welding joint, [1] thread [2].

Drawing of Keys [video], Cotters and Pins.

Assembly drawing of Gib [video] and cotter joint [video], Knuckle joint [video], universal joint. [keys]

Assembly/part drawing of simple machine and engine parts: Coupling [video], Bearing [video].

Assembly/part drawing of screw jack [video].

Assembly/part drawing of Non return Valves [video], eccentric, large and small end of connecting rod, piston head.

Assembly/part drawing of Spark Plug.

Example of Industrial Drawing on Firefighting centrifugal Pump

9

Machine Design Lab - MCC 14203 (2019)

1.    Design of Cotter Joint [problem]

2.    Design of Bush pin type flexible coupling [problem]

3.    Design of Plammer block [Steps]

4.    Design of Screw Jack [problem]

5.    Design of Hydrostatic bearing [problem]

10

Dynamics of Machine Lab - MCC 15201 (2020)

1.    Experimental verification of the gyroscopic couple

2.    To balance the masses statically and dynamically of a single rotating mass system (4 rotor)

3.    To study the performance of Porter, Proell and Hartnell Governor [video link]

4.    To study the modes of vibrations can and frequency of whirling shafts

5.    To study the cam dynamics [video link]

6.    To study the undamped free vibration of spring mass system

7.    To study the forced damped vibration of spring mass system

8.    To study the longitudinal vibration of helical coiled spring

9.    To study the forced vibration of simply supported beam for different damping.

10. To study the pressure profile of lubricating oil at various conditions of load and speed for Epicyclic Gear Train

11

Applied Mechanics Lab - MEC 204 (2020)

Part-I: Venue- SOM Lab (Any 4 experiments+ 1 Project) - provisional

1.    Tensile Strength Testing of a given mild steel on UTM

2.    Compressive Strength testing of a given specimen on UTM

3.    Hardness testing of given specimen using Rockwell and Vickers / Brinell testing

4.    Torsional rigidity test of shaft

5.    Young's Modulus (E) of M.S and Timber beam by flexure of beam method.

6.    Impact testing on Impact testing Charpy and Izod.

7.    Project

Part-II: Venue- KOM Lab (4 experiments+ 1 Project) - provisional

8.    Coefficient of friction between sliding belt (rope) and a fixed pulley

9.    Efficiency of a screw jack by raising & lowering conditions [video link]

10. Cam profile and follower movement [video link]

11. Coriolli's component of acceleration

12. Speed of gear in the output shaft of a compound gear train

13. Project

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Machine Design Lab - MCC 15204 [Manual] (2020)

1.    Design of Journal Bearing

2.    Design of Spur Gear [video link]

3.    Design of Helical Gear

4.    Design of Bevel Gear [video link]

5.    Design of Worm Gear

6.    Design of Flywheel

7.    Selection of Rolling Element Bearing from Manufacturer's Catalogue

8.    Selection of V Belt Drive

9.    Selection of Chain Drive

13

Fluid Machines - MEC 206 (2021)

Syllabus almost same as Fluid Machines, mentioned above.

Only additional content is -

Introduction (history of fluid machines)

Compressible and incompressible flow [PPT]

14

Thermodynamics and Fluid Mechanics Lab - MEC 205 (2021)

1. Determination of Calorific value of solid/liquid fuel (Bomb calorimeter) [Video link]

2. Volumetric analysis of pollutants in flue gas by Orsat apparatus

3. Performance study of Single cylinder 4-S Petrol Engine

4. Performance study of single Cylinder 4-s Diesel Engine

5. Jouleʹs experiment for mechanical equivalent work [Video link]

6. Darcyʹs friction coefficient

7. Verification of Bernoulliʹs theorem

8. Reynoldʹs apparatus for laminar and turbulent flow

9. Determination of Cd, Cv, and Cc

15

Turbomachinery - MED 545 (2022)

Introduction: History of Turbomachinery [PPT], Classification of turbomachinery [PPT]

Turbomachinery units and laws: Work and efficiencies in Turbomachines, compressible and incompressible flow [PPT], Thermodynamics of fluid flow [PPT],

Dynamics of fluid flow, Theory of rotodynamic machines [PPT]

Incompressible flow machines: Hydraulic Turbines: Impulse turbine: Pelton turbine [PPT], Reaction Turbine: Kaplan turbine (axial) [PPT], Francis turbine (radial) [PPT], the effect of size on turbomachine efficiency, cavitation

Dimensional Analysis: Principle of Similarity, [PPT]

Wind turbine and Hydrokinetic turbine: classification, aerofoil concept, power generation equation, design and performance [PPT]

Incompressible flow machines : Pumps: Classification, Heads and efficiencies; Construction of impeller and casing; multi-stage pumps; Specific speed; slip factor; Model testing; Characteristic curves; NPSH; Cavitation; Selection of centrifugal pump and axial pump. [PPT]

Compressible flow machines : Radial compressors: stage velocity diagram, enthalpy entropy diagram, optimum design at inlet, stage losses and efficiency, performance characteristics [PPT]

Compressible flow machines : Axial flow compressors: stage velocity diagram, enthalpy entropy diagram, stage losses and efficiency, Performance characteristics [PPT]

Compressible flow machines: Gas Turbine: Axial flow Turbine, Radial Turbines, stage velocity diagram, enthalpy entropy diagram, stage losses and efficiency, Performance characteristics [PPT].

Power-Transmitting Turbomachines: Working Principle of a Power-Transmitting Turbomachine, Analysis of Power-Transmitting Turbomachines, Fluid Coupling, Torque Converter

16

MCC 18202 Energy conservation Management Lab (2022) - guest lecture

Experiment No. 5: To determine efficiency of a hydrokinetic turbine [Video Link]

17

MEC 210 Heat Transfer and Fluid Machines Lab

Study on impact of jet on different blade [Video link]

Performance study of Pelton Turbine, constant discharge [Video link], constant speed [video link]

Performance test on Francis turbine [Video link]

Performance study of Kaplan Turbine [Video link]

Performance test on Centrifugal pump test rig

Study of Air compressor

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