SEMESTER-5 Code No. Course Title L T P M C

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SEMESTER
-
5

Code
N
o.

Course T
itle

L

T

P

M

C

THEORY

07ME501

THERMAL ENGINEERING
-
II

3

1

0

100

2

07ME502

COMPUTER AIDED MANUFACTURING

3

0

0

100

2

07ME503

DESIGN OF MACHINE ELEMENTS

3

1

0

100

2

07ME504

DYNAMICS OF MACHINERY

3

1

0

100

2

07ME505

HYDRAULICS

& PNEUMATICS SYSTEMS

3

0

0

100

2

07ME506

MICROPROCESSORS & CONTROL SYSTEMS

3

0

0

100

2

PRACTICAL

07ME5L1

COMPUTER AIDED MANUFACTURING
LABORATORY

0

0

3

100

2

07ME5L2

KINEMATICS & DYNAMICS LAB

0

0

3

100

2

07ME5L3

MICROPROCESSORS & CONTROL SYSTEMS
LABOR
ATORY

0

0

3

100

2


Total

18

3

9

900

18




SEMESTER
-
6

Code
N
o.

Course
T
itle

L

T

P

M

C

THEORY

07ME601

FINITE ELEMENT ANALYSIS

3

1

0

100

2

07ME602

DESIGN OF TRANSMISSION SYSTEM

3

1

0

100

2

07ME603

AUTOMOBILE ENGINEERING

3

0

0

100

2

07ME604

POWER PLANT

ENGINEERING

3

0

0

100

2

07ME605

HEAT AND MASS TRANSFER

3

1

0

100

2

07ME606

ECONOMICS & FINANCE

3

0

0

100

2

PRACTICAL

07ME6L1

SIMULATION & ANALYSIS LABORATORY

0

0

3

100

2

07ME6L2

HEAT POWER LABORATORY

0

0

3

100

2

07ME6L3

COMPREHENSION LABORATORY AN
D MINI
PROJECT

0

0

4

100

2


Total

18

3

10

900

18



5
th

Semester





THERMAL ENGINEERING


II


3

1

0

100



UNIT

I

COMPRESSIBLE FLOW


FUNDAMENTALS


9

Energy and momentum equations for comp
ressible fluid flows, various regions of flows,
reference velocities, stagnation state, velocity of sound, critical states, mach number, critical
Mach number, types of waves, Mach cone, Mach angle, effect of Mach number on
compressibility.


UNIT

II

FLOW
THROUGH VARIABLE AREA DUCT


9

Isentropic flow through variable area ducts, T
-
s, h
-
s diagrams for nozzle and diffuser flows, area
ratio as a function of Mach number, mass flow rate through nozzles and diffuser
s, effect of
friction in flow through nozzles.


UNIT III

FANNO AND RAYLEIGH FLOW

9

Flow in constant area ducts with friction (Fanno flow)
-

Fanno curves and Fanno equation,
variation of flow properties, variation of Mach number with duct length.

Isother
mal flow with friction in constant area ducts


clow in constant a牥a ducts with heat
t牡nsfe爠⡒ayleigh flow⤬ oayleigh line and oayleigh flow equationI va物ation of flow p牯pe牴iesI
maximum heat t牡nsfe爮


UNIT IV

NORMAL SHOCK


9

Governing equations, variation of flow parameters like static pressure, static temperature,
density, stagnation pressure and entropy across the normal shock, Prandtl
-
Meyer equation,
imposs
ibility of shock in subsonic flows, flow in convergent and divergent nozzle with shock,
normal shock in Fanno and Rayleigh flows, flows with oblique shock (elementary treatment
only).


UNIT V

PROPULSION

9

Aircraft propulsion
-

types of jet engines
-
energy

flow through jet engines, study of turbojet
engine components
-
diffuser, compressor, combustion chamber, turbine and exhaust systems,
performance of turbo jet engines
-
thrust, thrust power, propulsive and overall efficiencies, thrust
augmentation in turbo j
et engines, ram jet and pulse jet engines.



LECTURE


:

45



TUTORIAL


:

-


TOTAL


:

45


REFERENCES

1

Yahya.S.M., ‘Fundamentals of Compressibl
e flow” , New Age International (P) Ltd., New
aelhiI NVVSK

O

偡t物chKeKlosthvizenI

Willam E.Carscallen, “Compressible fluid flow”, McGraw
J
eillI NVVTK

P

Cohen. H., Rogers R.E.C and Sravanamutoo, “Gas turbin
e theory”,AddisonWesleyLtd.,
ㄹ㠷

4

Ganesan .V.,
“Gas Turbines”, Tata McGraw
J
eillI kew aelhiINVVV

5

Rathakrishnan.E, “ Gas Dynamics” , Prentice Hall of India, New Delhi,

2001

6

Zucker,R.D. and Biblarz,O., Fundamentals of Gas Dynamics,2
nd

ed., John Willey, 2002











COMPUTER AIDED MANUFACTURING

3

0

0

100



UNIT

I

CAD/CAM INTERFACE


5

Current trends in Manufacturing Engineering
-
Group Technology
-
Design for Manufacturing and
Assembly
-
Total approach to product development
-
Concurrent Engineering
-
Rapid prototyping

Introduction to CAD/CAM software pac
kages
.


UNIT

II

FUNDAMENTALS OF CNC MACHINES

10

CNC Technology
-
Functions of CNC Control in Machine Tools
-
Classification of CNC systems
-
Contouring System
-
Interpolators, open loop and closed loop CNC systems
-
CNC Controllers,
Hardware features
-
Direct Numer
ical Control (DNC systems).


UNIT III

CONSTRUCTIONAL FEATURES OF CNC MACHINES

8

Design considerations of CNC machines for improving machining accuracy
-
Structural
members
-
Slide ways
-
Sides linear bearings
-
Ball screws
-
Spindle drives and feed drives
-
work
ho
lding devices and tool holding devices
-
Automatic Tool changers. Feedback devices
-
Principles of Operation
-
Machining Centres
-
Tooling for CNC machines.


UNIT IV

PART PROGRAMMING FOR CNC MACHINES


10

Numerical control codes
-
Standards
-
Manual Programming
-
Can
ned cycles and subroutines
-
Computer Assisted Programming, CAD/CAM approach to NC part programming
-
APT language,
machining from 3D models.


UNIT V

COMPUTER AIDED PROCE
SS PLANNING AND DATA

BASE FOR
CAM

12

Process planning
-

role of process planning in CAD
/CAM integration
-

approaches to computer
aided process planning
-
variant approach and generative approaches.

Development of databases
-
database terminology
-

architecture of database systems
-
data
modeling and data associations
-
relational data bases
-

dat
abase operators
-

advantages of
data base and relational database. Emerging Challenges in CAD/CAM, product Data
management
-
Product Modeling
-
Assembly and Tolerance Modeling.




LECTURE


:

45


TUTORIAL


:

-



TOTAL


:

45


REFERENCES

1

Ibrahim Zeid.” CAD
-
CAM Theory and Practice”, Tata McGraw
-
Hill Publishing Co.Ltd., 1988.

2

Mikell.P.Groover “Automation, Production Systems and computer integrated
ma
nufacturing”, Pearson Education 2001

3

Yoram Koren,” Computer Control of Manufacturing Systems”, McGraw
-
Hill Book Company,
1986.

4

Mc Mahon and J.Browne, “CAD/CAM”, Addison
-
Wesley, 1998

5

P.Radhakrishnan,”Computer Numerical Control”, New Central Book Ag
ency, 1992

6

G.T.Smith,” CNC
-
Machining, Techniques
-
Vol.1,2 & 3”, verlag, 1992.

7

S.Kant Vajpayee,”Principles of Computer Integrated Manufacturing”, Prentice Hall of India
Ltd., 1999






DESIGN OF MACHINE ELEMENTS



3

1

0

100



UNIT

I

STEADY STRE
SSES AND VARIABLE ST
RESSES IN MACHINE
MEMBERS

9

Introduction to the design process
-

factor influencing machine design, selection of
materials based on mechanical properties, Fits and Tolerances, Preferred numbers


Direct, Bending and torsional stre
ss equations


Impact and shock loading


calculation
of principle stresses for various load combinations, eccentric loading


Design of curved
beams


crane hook and ‘C’ frame
-

Factor of safety
-

theories of failure


stress
concentration


design for va
riable loading


Soderberg, Goodman and Gerber
relations.


UNIT

II

DESIGN OF SHAFTS AND

COUPLINGS

9

Design of solid and hollow shafts based on strength, rigidity and critical speed


aesign of keys
and key ways
J

aesign of 物gid and flexible couplings


fnt牯duction to gea爠 and shock
abso牢ing couplings
J

design of knuckle jointsK


UNIT III

DESIGN OF FASTNERS A
ND WELDED JOINTS

9

Threaded fastners
-

Design of bolted joints including eccentric loading


aesign of welded joints
fo爠p牥ssu牥 vessels and s
t牵ctu牥s
J

theo特 of bonded jointsK

⡒iveted joints
J

self studyF


UNIT IV

DESIGN OF SPRINGS AN
D LEVERS



9

Design of helical, leaf, disc and torsional springs under constant loads and varying loads


Concent物c to牳ion sp物ngs
J

䉥llev
ille sp物ngs


aesign of ieve牳


UNIT V

DESIGN OF BEARINGS A
ND FLYWHEELS

9

Design of bearings


sliding contact and rolling contact types.


Cubi c mean l oad



Desi gn of j our nal bear i ngs


Mckees equat i on


Lubr i cat i on i n j our nal bear i ngs


cal cul at i on of bear i ng di m
ensi ons


Desi gn of f l ywheel s i nvol vi ng st r esses i n r i m and
ar m.


Note:
(Use of P S G Design Data Book is permitted in the University examination)



LECTURE


:

45


TUTORIAL


:

15



TOTAL


:

60


REFERENCES

1

Norton R.L, “Design of Machinery”, Tata McGraw
-
Hill Book Co, 2004.

2

Orthwein W, “Machine Component Design”, Jaico Publishing Co, 2003
.

3

Ugural A.C, “Mechanical Design


An Integral Approa
ch, McGraw
-
Hill Book Co, 2004.

4

Spotts M.F., Shoup T.E “Design and Machine Elements” Pearson Education, 2004.

STANDARDS

1

IS 10260: Part 1: 1982 Terms, definitions and classification of Plain bearings Part 1:
Construction.

2

IS 10260: Part 1: 1982 Te
rms, definitions and classification of Plain bearings Part 2: Friction
and Wear.

3

IS 10260 : Part 1 : 1982 Terms, definitions and classification of Plain bearings Part 3 :
Lubrication






DYNAMICS OF MACHINERY

3

1

0

100



UNIT

I

FORCE ANALYS
IS


9

Applied and constraint forces
-
static equilibrium conditions
-
two, three force members


equations
of motion
J

dynamic fo牣e analysis
J

ine牴ia fo牣e and ine牴ia to牱ue


D’Alemberts principle
J

the
p物nciple of supe牰osition
J

dynamic analysis in 牥cip牯cating engines


gas fo牣es
J

equivalent
masses
J

bea物ng loads
J

c牡nk shaft to牱ue
J

tu牮ing moment diag牡ms
J

fly wheels



Coefficient
of fluctuation of ene牧y and speed teight of flywheel 牥qu
i牥d


UNIT

II

BALANCING


9

Static and dynamic balancing
-

balancing of rotating masses
-

balancing of single and multi
-
cylinder engines
-

balancing of reciprocating masses
-

partial balancing in locomotive engines
-

balancing linkages
-

balancing machin
es
-
inline and V
-
engines


UNIT III

CONTROL

MECHANISMS


9

Governors
-

types
-

centrifugal governors
-

gravity controlled and spring controlled centrifugal
governors characteristics


stability
J

sensitiveness
J

ntingI isoch牯nisms
J
effect of f物ction
J

cont牯lling fo牣e dy牯scopes
J

gy牯scopic fo牣es and to牱ues
J

gy牯scopic stabilization
J

gy牯scopic effects in automobilesI ships and ai牰lanes


UNIT IV

LONGITUDINAL VIBRATION


9

Undamped free vibration of si
ngle degree of freedom system
-

simple pendulum, compound
pendulum
-
springs in series, springs in parallel and combinations. Damped free vibration of single
degree of freedom system, types of damping
-
viscous damping, critically damped, under damped
system.
Logarithmic decrement. Forced vibration of single degree of freedom system
-

constant
harmonic excitation, steady state vibration, magnification factor, vibration isolation and
transmissibility.


UNIT V

TRANSVERSE AND TORSI
ONAL VIBRATIONS



9

Transverse vibrations of beams
-
natural frequency
-

energy method
-

Dunkerly”s method. crit
ical
speed

whirling of shafts.

Torsional systems
-

natural frequency of two and three rotor systems, equivalent shafts,
geared
systems, Holzer’s
method, Signature Analysis.



LECTURE


:

45



TUTORIAL


:

15


TOTAL


:

60


REFERENCES

1

Rattan S.S, “Theory of Machines”, Tata McGraw
-
Hill Pub
lishing Company Ltd., New Delhi,
2007.

2

Rao J.S and Dukkipati R.V, “Mechanism and Machine Theory”, New Age International, New
Delhi
, 2007.

3

Thomas Bevan, “Theory of Machines” CBS Publishers and Distributers, 1984.

4

Ballaney.P.L ”Theory of Machines”,

Khanna Publishers,1990.

5

Shigley J.E. and Uicker J.J., "Theory of Machines and Mechanisms", McGraw
-
Hill, Inc., 1995
.

6

Sadhu Singh “Theory of Machines”, Pearson Education, 2002
.

7

Rao J.S and Gupta.K,”Introduction course on theory and practice of Mech
anical Vibrartions”,
Second edition, New Age International Publishers, 1999
.



HYDRAULICS AND PNEUMATIC SYSTEMS

3

0

0

100



UNIT

I

FLUID POWER SYSTEMS
AND FUNDAMENTALS

9

Introduction to fluid power, Advantages of fluid power, Application of fluid po
wer system. Types of
fluid power systems, Properties of hydraulic fluids


General types of fluids


Fluid power
symbols.

Basics of Hydraulics
-
Applications of Pascals Law
-

Laminar and Turbulent flow


Reynold’s
number


Darcy’s equation


Losses in pipe, v
alves and fittings.


UNIT

II

HYDRAULIC SYSTEM & C
OMPONENTS

9

Sources of Hydraulic Power: Pumping theory


Pump classification


Gear pump, Vane Pump,
piston pump, construction and working of pumps


pump performance


Variable displacement
pumps.

Flui
d Power Actuators: Linear hydraulic actuators


Types of hydraulic cylinders


Single acting,
Double acting special cylinders like tanden, Rodless, Telescopic, Cushioning mechanism,
Construction of double acting cylinder, Rotary actuators


Fluid motors, G
ear, Vane and Piston
motors.


UNIT III

DESIGN OF HYDRAULIC
CIRCUITS

9

Construction of Control Components : Director control valve


3/2 way valve


4/2 way valve


Shuttle valve


check valve


pressure control valve


pressure reducing valve, sequence

valve,
Flow control valve


Fixed and adjustable, electrical control solenoid valves, Relays, ladder
diagram.

Accumulators and Intensifiers: Types of accumulators


Accumulators circuits, sizing of
accumulators, intensifier


Applications of Intensifier


Intensifier circuit.


UNIT IV

PNEUMATIC SYSTEMS AN
D COMPONENTS


9

Pneumatic Components: Properties of air


Compressors


Filter, Regulator, Lubricator Unit


Air
control valves, Quick exhaust valves, pneumatic actuators.

Fluid Power Circuit Design
, Speed control circuits, synchronizing circuit, Penumo hydraulic circuit,
Sequential circuit design for simple applications using cascade method.


UNIT V

DESIGN OF PNEUMATIC
CIRCUITS

9

Servo systems


Hydro Mechanical servo systems, Electro hydraulic
servo systems and
proportional valves.

Fluidics


Introduction to fluidic devices, simple circuits, Introduction to Electro Hydraulic
Pneumatic logic circuits, ladder diagrams, PLC applications in fluid power control. Fluid power
circuits; failure and trou
bleshooting.



LECTURE


:

45



TUTORIAL


:

0


TOTAL


:

45


TEXT BOOKS

1

Anthony Esposito, “Fluid Power with Applications”, Pearson Education
2000

2

Majumdar S.R., “Oil Hydraulics”, Tata McGraw
-
Hill, 2000.



REFERENCES

1

1.

Majumdar S.R., “Pneumatic systems


Principles and maintenance”, Tata McGraw Hill,
1995


2

Anthony Lal, “Oil hydraulics in the service of industry”, Allied publishers, 19
82
.

3

Harry L. Stevart D.B, “Practical guide to fluid power”, Taraoeala sons and Port Ltd. Broadey,
1976

4

Michael J, Prinches and Ashby J. G, “Power Hydraulics”, Prentice Hall, 1989
.

5

Dudelyt, A. Pease and John T. Pippenger, “Basic Fluid Power”, Pren
tice Hall, 1987.

























COMPUTER AIDED MANUFACTURING (CAM)

LABORATORY

0

0

3

100



LIST OF EXPERIMENTS

1

Manual part programming (Using G and M Codes) in CNC lathe

1.1

Part programming for Linear and Circular interpolation, Chamfering a
nd
Grooving

1.2

Part programming using standard canned cycles for Turning, Facing, Taper


turning and Thread cutting
.


2

Manual part programming (using G and M codes) in CNC milling


2.1

Part programming for Linear and Circular interpolation and

Contour motions.


2.2

Part programming involving canned cycles for Drilling, Peck drilling, and



Boring.



3

Computer Assisted Part Programming
-

APT Programming Language Part

Programming using APT and
other NO Programming languages



4

Exposure to Component Modeling and C
L data generation using CAD/CAM
Software like Unigraphics, pro/E, edge CAM etc.,

1.


NC code generation using CAD/CAM software
-
Post processing for


standard CNC control like FANUC, SINUMERIC etc.,

2.

Study of Surf
ace Machining
-

Multi
-
Axis Machining.

3.

Study of Rapid proto typing and tooling processes



Total No of periods



:

60






















KINEMATICS & DYNAMICS LABORATORY

0

0

3

100



LIST OF EXPERIMENTS

1

Kinematics of 4 bar mechanisms


Slider

crank and Crank Rocker Mechanism

2

Kinematics of Universal Joints

3

Kinematics of Gears


Spur, Helical, Bevel and Worm

4

Kinem
atics of Gear Trains


Simple, Compound, Epi
-
cyclic and Differential

5

Governors
-

Determination of sensitivity, effort, etc. for Watt, Porter, Proell, Spring
controlled Governors

6

Cam
-

Study of jump phenomenon and drawing

profile of the cam.

7

Motorized Gyroscope
-
Verification of laws
-
Determination of gyroscopic couple.

8

Whirling of shaft
-
Determination of critical speed of shaft with concentrated loads.

9

Balancing of reciprocating masses.

10

Balancing of rotating mas
ses.

11

Determination of moment of inertia by oscillation method for connecting rod and
flywheel.

12

Vibrating system
-

Spring mass system
-
Determination of damping co
-
efficient of single
degree of freedom system

13

Determination of influence co
-
efficien
ts for multidegree freedom suspension system

14

Determination of transmissibility ratio
-

vibrating table.

15

Determination of torsional frequencies for compound pendulum and flywheel system
with lumped Moment of inertia.

16

Transverse vibration

free
-

Beam. Determination of natural frequency and deflection of
beam.


Total No of periods



:

45














6
th

SEMESTER



FINITE ELEMENT ANALYSIS


3

1

0

100



UNIT

I

Introduction


7


Historical background



Relevance of FEA to design problems, Application to the continuum


Discretisation


Matrix approach, Matrix

algebra


Gaussian elimination


Governing equations
for continuum


Classical Techniques in FEM


Weighted residual method


Ritz method,
Galerkin method


UNIT

II

One dimensional problems

12


Finite element modeling


Coordinates and shape functions


Potential energy approach


Element matrices and vectors


Assembly for global equations


Boundary conditions


Higher
order elements
-

Shapes functions


Applications to axial loadings of rods


Extension to plane
trusses


Bending of beams


Finite element formulation of stiffness matrix and load vectors


Assembly to Global equations

boundary conditions


Solutions and Post processing
-

Example
Problems.


UNIT III

Two Dimensional Problems


Scalar Variable Problems

8


Finite element modeling


CST&LST elements


Element equations, Load vectors and
boundary conditions


Assembly


Applications to scalar variable problems such as torsion,
heat transfer etc.
-

Examples


UNI
T IV

Two Dimensional Problems


Vector Variable Problems



9

Vector Variable problems


Elasticity equations


Plane Stress, Plane Strain and Axisymmetric
problems


Formulation


element matrices


Assembly


boun
dary conditions and solutions
Exa
mples

UNIT V

Isoparametric Elements for Two Dimensional Problems

9


Natural coordinates, Iso parametric elements, Four node quadrilateral element


Shape
functions


Element stiffness matrix and force vector


Numerical integration
-

Stiffness
integrat
ion


Displacement and Stress calculations


Examples.



LECTURE


:

45



TUTORIAL


:

15


TOTAL


:

45


TEXT BOOKS

1

Chandrupatla T.R., and Bel
egundu A.D., “Introduction to Finite Elements in Engineering”,
Pearson Education 2002, 3
rd

Edition.

2

Logan D.L., “A First course in the Finite Element Method”, Third Edition, Thomson Learning,
2002

3

Rao S.S., “The Finite Element Method in Engineering”,

Pergammon Press, 1989.

4

David V Hutton “Fundamentals of Finite Element Analysis”2004. McGraw
-
Hill Int. Ed.

5

Robert D.Cook., David.S, Malkucs Michael E Plesha, “Concepts and Applications of Finite
Element Analysis” 4 Ed. Wiley, 2003.

6

Reddy J.N., “A
n Introduction to Finite Element Method”, McGraw
-
Hill International Student
Edition, 1985

7

O.C.Zienkiewicz and R.L.Taylor, “The Finite Element Methods, Vol.1”, “The basic
formulation and linear problems, Vol.1”, Butterworth Heineman, 5
th

Edition, 2000







DESIGN OF TRANSMISSION SYSTEMS

3

1

0

100



UNIT

I

DESIGN OF TRANSMISSI
ON SYSTEMS FOR FLEXI
BLE ELEMENTS




9


Selection of V belts and pulleys


selection of Flat belts and
pulleys


Selection of Transmission
chains and Sprockets. Design

of pulleys and sprockets


UNIT

II

SPUR GEARS AND PARAL
LEL AXIS HELICAL GEA
RS


9

Gear Terminology
-
Speed ratios and number of teeth
-
Force analysis
-
Tooth stresses
-

Dynamic
effects
-

Fatigue strength
-

Factor of safety
-

Gear materials


Module and Face
width
-
power
rating calculations based on strength and wear considerations
-

Parallel axis Helical Gears


Pressure angle in the normal and transverse plane
-

Equivalent number of teeth
-
forces and
stresses. Estimating the size of the helical gears.


UNIT I
II

BEVEL, WORM AND CROS
S HELICAL GEARS

9

Straight bevel gear: Tooth terminology, tooth forces and stresses, equivalent number of teeth.
Estimating the dimensions of pair of straight bevel gears.

Worm Gear: Merits and demerits
-

terminology. Thermal capaci
ty, materials
-
forces and stresses,
efficiency, estimating the size of the worm gear pair.

Cross helical: Terminology
-
helix angles
-
Estimating the size of the pair of cross helical
gears
.


UNIT IV

DESIGN OF GEAR BOXES




9

Geometric progression
-

Standard

step ratio
-

Ray diagram, kinematics layout
-
Design of sliding
mesh gear box
-
Constant mesh gear box.


Design of multi speed gear box.

UNIT V

DESIGN OF
POWER SCREWS
, CLUTCHES AND BRAKE
S



9

Types of screw threads used for power screws


Torque requirem
ents


Stresses in Power
screws, Design of Screw Jack.

Design of plate clutches

axial clutches
-
cone clutches
-
internal expanding rim clutches
-
internal
and external shoe brakes.




LECTURE


:

45


TUTORIAL


:

30



TOTAL


:

75

Note
: (Usage of P.S.G Design Data Book is permitted in the University examination)


TEXT BOOKS

1

Juvinall R. C., Marshek K.M., “Fundamentals of Machine component Design”,


John Wiley
& Sons Third Edition, 2002.

2

Bhandari, V.B., “Design of Machine Elements”, Tata McGraw
-
Hill Publishing Company
Ltd., 1994.


REFERENCES

1

Maitra G.M., Prasad L.V., “Hand book of Mechanical Design”, II Edition, Tata McGraw
-
Hill,
1985

2

Shig
ley J.E and Mischke C. R., “Mechanical Engineering Design”, McGraw
-
Hill International
Editions, 1989

3

Prabhu. T.J., “Design of Transmission Elements”, Mani Offset, Chennai, 2000,

4

Norton R.L, “Design of Machinery”, McGraw
-
Hill Book co, 2004.

5

Hamroc
k B.J., Jacobson B., Schmid S.R., “Fundamentals of Machine Elements”, McGraw
-
Hill Book Co., 1999.

STANDARDS

1

IS 4460 : Parts 1 to 3 : 1995, Gears


Spur and Helical Gears


Calculation of Load
Capacity

2

IS 7443 : 2002, Methods of Load Rating of Worm G
ears

3

IS 15151: 2002, Belt Drives


Pulleys and V
-
Ribbed belts for Industrial applications


PH,
PJ, PK, Pl and PM Profiles : Dimensions

4

IS 2122 : Part 1: 1973, Code of practice for selection, storage, installation and maintenance
of belting for powe
r transmission : Part 1 Flat Belt Drives.

5

IS 2122: Part 2: 1991, Code of practice for selection, storage, installation and maintenance
of belting for power transmission: Part 2 V
-
Belt Drives.









































AUTOMOBILE

ENGINEERING

3

0

0

100



UNIT

I

VEHICLE STRUCTURE AND ENGINES

10

Types of Automobiles
-

Vehicle Construction


Chassis


c牡me and 䉯dy

ae牯dynamicsK
Components of 䕮gine


qhei爠 fo牭sI cunctions and jate物als
J

oeview of Cooling and
iub物cation syst
ems in 䕮gine


qu牢o Cha牧e牳


䕮gine 䕭ission standa牤s
J

䕭ission
Cont牯l by P

tay Catalytic Cont牯lle爠


䕬ect牯nic 䕮gine janagement 卹stemK



UNIT

II

ENGINE AUXILIARY SYSTEMS


10

Carburetor


basic type and working principle only
-

Electronic fue
l injection system


Single
point and MPFI Systems


Diesel Injection
-

CRDI System
-

Construction, Operation and
Maintenance of Lead Acid Battery
-

Electrical systems


Battery generator


Starting Motor and
Drives


Lighting and Ignition (Battery, Magneto

Coil and Electronic Type)
-

Regulators
-
cut
outs
.


UNIT III

TRANSMISSION SYSTEMS

10

Clutch


Types and Construction

Clutch Linkages
-

Gear Boxes, Manual and Automatic


Simple Floor Mounted Shift Mechanism


Over Drives


Transfer Box Fluid flywheel
-
Tor
que
converters


Propeller shaft


Slip Joint


Differential and Rear Axle


Hotchkiss Drive and
Torque Tube Drive


UNIT IV

STEERING, BRAKES AND SUSPENSION
SYSTEMS




10

Wheels and Tyres


Wheel Alignment Parameters
-

Steering Geometry and Types of steer
ing
gear box


Power Steering


Types of Front Axle


Suspension systems front and rear end
-

Conventional and air suspension


Braking Systems


Types and Construction


Diagonal
Braking System


Antilock Braking System.

UNIT V

ALTE
RNATIVE

FUEL AND ENER
GY
SOURCES

5

Use of Natural Gas, LPG, Biodiesel, Gasohol and Hydrogen in Automobiles


Concepts of
Electric
and Hybrid Vehicles, Fuel Cells and Air powered vehicles


Note:

Practical training in dismantling

and assembling of Engine parts Transmission Sys
tem
should be given to the students


LECTURE


:

45



TUTORIAL


:

-


TOTAL


:

45


TEXT BOOKS

1

Sethi H.M, “Automobile Technology”, Tata McGraw
-
Hill
-
2003

2

Kirpal Singh “Automobile Engineering Vol. 1& 2”, Standard Publishers, New Delhi.

REFERENCES

1

Crouse and Anglin “Automotive Mechanism”, 9
th

Edition. Tata McGraw
-
Hill, 2003

2

Newton, Steeds and Garet, “Motor vehicles”, Butterworth Publishers
, 1989

3

Srinivasan.S , “ Automotive Mechanics” 2
nd

edition, 2003, Tata McGraw
-
Hill.

4

Joseph Heitner, “Automotive Mechanics”, 2
nd

edition, East
-
West Press, 1999.





POWER PLANT ENGINEER
ING

3

0

0

100



UNIT

I

INTRODUCTION TO POWER PLANTS & BOILERS

9

Layout of Steam, Hydel, Diesel, MHD, Nuclear and Gas Turbine Power plants


Combined
power cycles


comparison and selection.

Steam Boilers and cycles


High pressure and supercritical boilers


Fluidized bed boilers


Analysis of power plant cycles.



UNIT

II

STEAM POW
E
R PLANT


9

Fuel and Ash handling systems


combustion equipment for burning coal


Mechanical stokers


Pulverizers



Electrostatic precipitator


Draught


different type
s, Surface condenser types,
Cooling towers, Pollution Controls.


UNIT III

NUCLEAR AND HYDEL POWER PLANTS

9

Nuclear energy
-

Fission, Fusion reaction, Types of reactors, pressurized water reactor, Boiling
water reactor, Gas cooled reactor, Fast breeder re
actor, Waste disposal and safety.


UNIT IV

DI
E
SEL AND GAS TURBINE POWER PLANTS




9

Types of Diesel plants, components, selection of engine type, applications.

Gas Turbine power plant
-

Fuels, gas turbine material,
types of combustion chambers
-

reheatin
g,

regeneration and inter
-
cooling
-

combined cycle

power plants
.

UNIT V

POWER PLANT ECONOMICS

9

Economics of power plant


Actual load curves
-
cost of electric energy
-
fixed and operating
costs
-
energy rates


Types of Tariffs


Economics of load sharing


variable load operation,
comparison of economics of various power plants.



LECTURE


:

45



TUTORIAL


:

-


TOTAL


:

45


TEXT BOOKS

1

El
-
Wakil
M.M. ‘ Power Plant Technology’ Mc
-
Graw Hill 1984

2

Arora S.C. and Domkundwar.S, ‘A Course in Power Plant Engineering’ , Dhanpatrai,

2001

3

Nag P.K., ‘Power Plant Engineering’, Tata
-
McGraw Hill, 1998

REFERENCES

1

Frank D.Graham,’Power Plant Engineers G
uide’, D.B. Taraporevala Sons&Co., New Delhi,
1993.

2

T.Morse Frederick,’Power Plant Engineering’, Prentice Hall of India, 1998.

3

R.K.Rajput,’Power Plant Engineering’, Laxmi Publications,1995.

4

G.D.Rai,’Introduction to Power Plant Technology”, Khanna

Publishers, 1995.























HEAT AND MASS TRANSF
ER

3

1

0

100



UNIT

I

CONDUCTION


11

Basic Concepts


jechanism of eeat q牡nsfe爠


ConductionI Convection and oadiation


dene牡l aiffe牥ntial equation of eeat Conduction


cou物e爠iaw o
f Conduction


Ca牴esian and
Cylind物cal Coo牤inates


lne aimensional 却eady 却ate eeat Conduction


Conduction
th牯ugh 偬ane tallI Cylinde牳 and 印he物cal systems


Composite 卹stems


Conduction with
fnte牮al eeat dene牡tion


䕸tended 卵牦aces


rnstea
dy eeat Conduction


iumped Analysis


rse of eeisle牳 Cha牴K


UNIT

II

CONVECTION


10

Basic Concepts


Convective eeat q牡nsfe爠Coefficients


䉯unda特 iaye爠Concept


qypes of
ConvectionK

co牣ed Convection


aimensional Analysis


䕸te牮al clow


clow
ove爠偬atesI Cylinde牳 and
印he牥s


fnte牮al clow


iamina爠and qu牢ulent clow


Combined iamina爠and qu牢ulent


clow ove爠䉡nk of tubesK

c牥e Convection


aimensional Analysis



clow ove爠se牴ical 偬ateI eo
物zontal 偬ateI fnclined
偬ateI
Cylinde牳 and
印he牥s

J

牯tating cylinde牳 and sphe牥s
K


UNIT III

PHASE CHANGE HEAT TR
ANSFER AND HEAT EXCH
ANGERS


9

Nusselts theory of condensation
-
pool boiling, flow boiling, correlations in boiling and
condensation. Types of Heat Exchangers
-

Overall Heat Transfer

Coefficient


couling cacto牳
J

ijqa jethod of heat 䕸change爠Analysis


䕦fectiveness


kqr method of eeat 䕸change爠
AnalysisK


UNIT IV

RADIATION



8

Basic Concepts, Laws of Radiation


却efan 䉯ltzman iawI 䭩牣hoff iaw

䉬ack 䉯dy
oadiation

d牥y bod
y 牡diation 卨ape cacto爠Algeb牡


䕬ect物cal Analogy


oadiation 卨ields

fnt牯duction to das oadiationK

UNIT V

MASS TRANSFER

7

Basic Concepts


aiffusion jass q牡nsfe爠


Fick’s Law of Diffusion


却eady state jolecula爠
aiffusion


Convective jass q牡ns
fe爠


jomentumI eeat and jass q牡nsfe爠Analogy


Convective jass q牡nsfe爠Co牲rlations
K


Note:

(Use of standard

heat and mass transfer data book is permitted in the University
examination)



LECTURE


:

45


TUTORIAL


:

15



TOTAL


:

60


TEXT BOOKS

1

Sachdeva R C, “Fundamentals of Engineering Heat and Mass Transfer” New Age
International, 1995.

2

Yadav R “Heat and Mass Transfer” Central Publishin
g House, 1995.

REFERENCES

1

Ozisik M.N, “Heat Transfer”, McGraw
-
Hill Book Co., 1994.

2

Nag P.K, “ Heat Transfer”, Tata McGraw
-
Hill, New Delhi, 2002

3

Holman J.P “Heat and Mass Transfer” Tata McGraw
-
Hill, 2000

4

Kothandaraman C.P “Fundamentals of Heat
and Mass Transfer” New Age International,
New Delhi, 1998

5

Frank P. Incropera and David P. DeWitt, “Fundamentals of Heat and Mass Transfer”, John
Wiley and Sons, 1998

6

Velraj R, “Heat & Mass Transfer”, Ane Books, New Delhi, 2004












































ENGINEERING ECONOMICS AND FINANCE

3

0

0

100



UNIT

I


CONSUMER FOCUSSED ENGINEERING ECONOMICS

9

Consumer Behaviour, Market Segmentation and Consumer Research, Consumer Perception,
Learning and Consumer Involvement, Nature F
ormation and Change of Consumer Attitude,
Influence of Culture on Consumer Behaviour, An international Perspective, Opinion Leadership
Process, Diffusion of Innovation, Consumer Decision

making including Models, Marketing
Ethics


UNIT

II

COMPETITION & M
ARKET DYNAMICS


9

Potential Competition, Entry conditions & Deterrence, Contestable markets, Product
Differentiation, Profitability and Indicators of Performance, Technical change, Government and
Industry, Industrial Policy and Reforms in India, Globalisa
tion, Economic Agents and Systems,
Elements of Demand and Supply, Forms of Business Organisations and Business Motives,
Market Structure / Share & Concentration, Economics of Scale and Scope, Growth of Firms
-

vertical integration, diversification, mergers
etc.,


UNIT III

COST ESTIMATES

9

Element of costs, Marginal cost, Marginal Revenue, Sunk cost, Opportunity cost, Break
-
even
analysis
-

V ratio, Elementary economic Analysis


Material selection for product Design
selection for a product, Process plannin
g, Make or buy decision, Process Economics /
Economic feasibility, Plant and equipment cost estimation, Product cost estimation
.


UNIT IV

VALUE ENGINEERING & TIME VALUE OF MONEY


9

Value engineering


Function, aims, Value engineering procedure.
Interest formulae and their
applications, Cash flows, Time value of money, Methods of comparison of alternatives


present worth method (Revenue dominated cash flow diagram), Future worth method (Revenue
dominated cash flow diagram, cost dominated cash fl
ow diagram)

UNIT V

REPLACEMENT & DEPRECIATION ANALYSIS

9

Replacement and Maintenance analysis, Capital recovery with return and concept of challenger
and defender, Simple probabilistic model for items which fail completely, Depreciation
-

Straight line
method of depreciation, declining balance method of depreciation, Inflation
adjusted decisions, Determination of economic life of asset




LECTURE


:

45


TUTORIAL


:

-



TOTAL


:

45


TEXT BOOKS

1

Panneer Selvam, R, “Engineering Economics”, Prentice Hall of India Ltd, New Delhi, 2001.

REFERENCES

1

Chan S.Park, “Contemporary Engineering Economics”, Prentice Hall of India, 2002.

2

Donald.G. Newm
an, Jerome.P.Lavelle, “Engineering Economics and analysis” Engg. Press,
Texas, 2002

3

Degarmo, E.P., Sullivan, W.G and Canada, J.R, “Engineering Economy”, Macmillan, New
York, 1984

4

Grant.E.L., Ireson.W.G., and Leavenworth, R.S, “Principles of Engineeri
ng Economy”,
Ronald Press, New York,1976

5

Smith, G.W., “Engineering Economy”, Lowa State Press, Iowa, 1973.


6

Salvatore, D., Schaum’s series on Theory and Problems of Microeconomics Theory, 2nd
Edition, McGraw
-
Hill Book company, 1989

7

Crabaugh R.J (2
004), International Economics, Ninth Edition, South Western College
Publishing

















































COMPUTER AIDED SIMULATION AND ANALYSIS
LABORATORY

0

0

3

100



LIST OF EXPERIMENTS

1

Simulation using SOFTWARES LIKE MAT
LAB, MATHCAD

1.1

Simulation of Air conditioning s
ystem with condenser

and evaporator temperatur
es as
input to estimate

COP

1.2

Simulation of Hydraulic

/ Pneumatic cylinder
.

1.3

Simulation of cam a
nd follower mechanism
.

1.4

Simulation of

Spring Mass Damper System Cont
rol.

1.5

Simulation of heat exchanger process.

1.6

Simulation of inverted pendulum control.




2

Analysi
s (Simple Treatment only)

2.1



Stress analysis of a plate with a circular hole.

2.2


Stress analysis of rectangular L bracket
.

2.3


Stress analysis of an axi
-
symme
tric component
.

2.4


Stress analysis of beams (Cantilever, Simply supported, Fixed ends)

2.5


Mode frequency analysis of a 2 D component
.

2.6


Mode frequency analysis of beams
.

(Cantilever, Simply supported, Fixed ends)

2.7


Harmonic analysis of a 2D component
.

2.8



Thermal st
ress analysis of a 2D component.

2.9


Conductive heat transfer analysis of a 2D component
.

2.10
Convective heat transfer analysis of a 2D component
.




Total No of periods



:

45



















HEAT POWER LABORATORY

0

0

3

100



LIST OF EXPERIMENTS

1

Heat Transfer


1.1 Thermal conductivity measurements by guarded plate method

1.2 Thermal conductivity of p
ipe insulation using lagged pipe apparatus.

1.3 Natural convection heat transfer from a vertical cylinder

1.4 Forced convection inside tube.

1.5 Heat Transfer from Pin
-
fin (Natural & Forced convection modes)

1.6 Determination of Stefan
-

Boltzman constan
t

1.7 Determination of Emissivity of a grey surface.

1.8 Effectiveness of parallel/ Counter flow heat Exchanger.


2

Refrigeration and Air conditioning

2.1 Study of Refrigeration and Air conditioning systems.

2.2 Determination of COP of a Refrigerat
ion system.

2.3 Determination of COP of an air conditioning system.




Total No of periods



:

45