mech syllabus %282%29

7/31/2019 Mech Syllabus %282%29

1/58

PANDIT DEENDAYAL PETROLEUM UNIVERSITY

SCHOOL OF TECHNOLOGY

PROPOSED COURSE STRUCTURE FOR B.TECH.FIRST YEAR

SEMESTER -I

SR.

NO

COURSE

CODE

COURSE TITLE LECTURE TUTORIAL PRACTICAL CREDITS HRS/WEEK

1. HS 101 Mathematics-I 3 1 0 7 4

2. ME 101 Engineering Graphics* 1 0 2 3 3

3. CE 101 Applied Mechanics 3 1 2 8 6

4. HS 102 Chemistry 3 0 2 7 5

5. HS 103 Communication Skills 1 0 2 3 3

6. HS 104 Environmental Studies* 1 0 0 2 1

7. HS 105 Computer Programming 2 0 2 5 4

8. **NSO/NSS PP/NP 2

Total 14 2 10 35 28

* There shall not be end-semester examination and the concerned faculty will compulsorily

conduct two in-semester examinations of 25 marks each which will cover complete

syllabus.

**Compulsory registration for any one

HS- Humanities & Science Dept.; CE-Civil Engg Dept.; EE- Electrical Engg Dept.; ME- Mechanical Engg Dept.

Description of Course code: HS 101 Mathematics-I

HS 1 01 Mathematics-I

Humanities & Science Level i.e. Year Sr. number of Course Name of the Course

7/31/2019 Mech Syllabus %282%29

2/58



HS 101 MATHAMETICS-I

Teaching Scheme Examination Scheme

L T P C Hrs/Week Theory Tutorial TermWork

Practical/Viva

TotalMarksES (3.0Hrs) MS (2.0Hrs)

3 1 0 7 4 60 40 25 -- -- 125

1. Review of limits, continuity, and differentiability.

2. Mean value theorem, Taylors Theorem, Maxima and Minima.

3. Riemann integrals, Fundamental theorem of Calculus, Improper integrals, applications to area,

volume.

4. Convergence of sequences and series, power series.

5. Partial Derivatives, gradient and directional derivatives, chain rule, maxima and minima,

Lagrange multipliers.

6. Curve Tracing, Double and Triple integration, Jacobians and change of variables formula.

7. Parametrization of curves and surfaces, vector Fields, line and surface integrals.

8. Divergence and curl, Theorems of Green, Gauss, and Stokes.

References/ Books:

1. Calculus - Single and Multivariable (3rd Edition), Hughes-Hallett et al., John-Wiley and Sons (2003).

2. Calculus (5th Edition), James Stewart, Thomson (2003).

3. Calculus, Volumes 1 and 2 (2nd Edition), T. M. Apostol, Wiley Eastern 1980.

4. Calculus and Analytic Geometry, G. B. Thomas and R. L. Finney

5. Differential Calculus by B.C. Das and B.N. Mukherjee, Publ: U.N.Dhur 1975

6. Integral Calculus by B.C. Das and B.N. Mukherjee, Publ: U.N.Dhur 1975

7/31/2019 Mech Syllabus %282%29

3/58



ME 101 ENGINEERING GRAPHICS


L T P C Hrs/Week Theory Tutorial Term

Work

Practical

/Viva

Total

MarksES MS (2.5Hrs)1 0 2 3 3 -- 50 -- 25 25 100

1. Introduction to Engineering Graphics, Drawing instruments and accessories, lettering, lines

and dimensioning. BIS - SP46. Use of plane scales and Representative Fraction, Free hand

sketching

2. Engineering Curves: Classification of Engineering Curves, Construction of Conics, Cycloidal

Curves, Involutes and Spirals.

3. Projections of Points & Lines: Introduction to principal planes of projections, Projections of the

points located in same quadrant and different quadrants, Projections of line with its

inclination to one reference plane and with two reference planes. True length of the line and

its inclination with the reference planes.

4. Projections of Planes: Concept of different planes, Projections of planes with its inclination to

one reference plane and with two reference planes. Concept of auxiliary plane method for

projections of the plane.

5. Projections of Solids & Section of Solids: Classification of solids. Projections of solids like

Cylinder, Cone, Pyramid and Prism with its inclination to one reference plane and with two

reference planes. Section of such solids and the true shape of the section.

6. Development of Lateral Surfaces: Concept of development of the different surfaces. Parallel

Line Development and Radial Line Development.

7. Orthographic Projections: Principle of projection, Principal planes of projection, Projections

from the pictorial view of the object on the principal planes for View from Front, View from

Top and View from Side using first angle projection method and third angle projection

method, Full Sectional View.8. Isometric Projections and Isometric View or Drawing: Isometric Scale, Conversion of

orthographic views into isometric projection, isometric view or drawing.

9. Introduction to computer aided drawing using graphic packages like Auto-CAD/Solid

Edge/Solid Works

Note: Topic No. 1, 8 and 9 of the above syllabus to be covered in Practical Hours.

References/ Books:1. Engineering Drawing By N.D.Bhatt and V.M.Panchal, Charotar Publishing House, Anand,2007

2. Engineering Drawing & Graphics, K. Venugopal, New Age International (P) Ltd., 1995

3. Engineering Drawing with an Introduction to AutoCAD By D.A.Jolhe, Tata McGraw-Hill Publishing Co.

Ltd., New Delhi4. Engineering Graphics I and II By Arunoday Kumar, Tech Max Publication, Pune

5. Engineering Drawing and Graphic Technology, French Thomas E. and Vierck Charles J. McGraw-Hill,

1993

6. Fundamentals of Engineering Drawing, Luzadder Warren J. and Duff Jon M. Prentice Hall of India,2001

7/31/2019 Mech Syllabus %282%29

4/58

PANDIT DEENDAYAL PETROLEUM UNIVERSITYSCHOOL OF TECHNOLOGY

CE 101 APPLIED MECHANICS

Teaching Scheme Examination SchemeL T P C Hrs/Week Theory Tutorial Term

Work

Practical

/Viva

Total

MarksES (3.0Hrs) MS (2.0Hrs)

3 1 2 8 6 60 40 25 25 -- 150

1. Introduction: Scalar and Vector Quantities, composition and resolution of vectors, system of units, definition of

space, time, particle, rigid body, force.

2. Fundamentals of Statics: Principles of statics, coplanar, concurrent and non-concurrent, parallel and non-parallel

forces, composition and resolution of forces, moments & couples - their properties, combination of coplanar

couples and forces, equilibrant, equilibrium, free body diagrams, analytical conditions of equilibrium for coplanar

force systems.

3. Truss: Simple determinate plane trusses and analysis for member forces using methods of joints and methods of

sections.

4. Distributed forces, center of gravity and moment of inertia: Center of gravity of lines, plane areas, volumes andbodies, Pappus Guldinus theorems, moment of inertia, polar moment of inertia & radius of gyration of areas,

parallel & perpendicular axes theorems.

5. Friction: Theory of friction, static and sliding friction, laws of friction, angle and coefficient of friction, inclined plane

friction, ladder friction, wedges, belt and rope friction.

6. Simple Machines: Velocity ratio, mechanical advantage, efficiency, reversibility of machines, simple machines such

as levers, pulley and pulley blocks, wheel and differential axle, Single purchase/double purchase crab, compound

screw jacks.

7. Simple stresses & strains: Elastic, homogeneous, isotropic materials; limits of elasticity and proportionality, yield

limit, ultimate strength, strain hardening, section of composite materials, prismatic and non-prismatic sections.

Strains: Linear, shear, lateral, thermal and volumetric, Poissons ratio. Stresses: Normal stresses, axial tensile &

compressive, shear and complementary shear, thermal and hoop, Applications to composite material stepped &

tapered bars.

8. Beam:

(a) Types of loads, Types of supports, Types of beams, Support reactions for statically determinate beams(b) Bending moment and Shear force , Bending moment and shear force diagrams for statically determinate

beams Courseed to couples, concentrated forces, uniformly distributed loadings, relation between

bending moment, shear force and rate of loading, point of contra flexure.

9. Stresses in beams: Theory of simple bending, bending stresses and their distribution, moment of resistance,

modulus of sections, distribution of shear stresses in different sections.

10. Principal stresses and strains: Compound stresses, analysis of principal planes and principal stresses, principal

strains, angle of obliquity of resultant stress, principal stresses in beams.

References/ Books :1. Engineering Mechanics (Statics) Beer and Johnston, TMH 2005, N.D.

2. Applied Mechanics S. B. Junnarkar & H. J. Shah, Charotar Publishing House, Anand

3. Mechanics of Structure Vol. I S. B. Junnarkar & H. J. Shah, Charotar Publishing House, Anand

4. Mechanics of Materials Beer and Johnston, TMH, N.D.

7/31/2019 Mech Syllabus %282%29

5/58



HS 102 CHEMISTRY



Work

Practical

/Viva

Total

MarksES (3.0Hrs) MS (2.0Hrs)

3 0 2 7 5 60 40 -- -- 25 125

1. Fundamentals of Organic Chemistry:Modern concepts of Bonding, (sp

3,sp

2,sp hybridizations), Organic Reactions (Addition, Elimination, Substitution and

Rearrangement reactions), Fundamentals of reaction mechanism, Chemistry of Benzene, Conjugation and aromaticity,

stereoisomerism, structural representation of stereo-isomers, Optical and geometrical isomers.

2. Fundamentals of Inorganic Chemistry:Bonding: Types of bonds, Atomic structure and periodic table,

Transition metal complexes: Crystal field theory, basic concepts, crystal field effects in linear (ML2), tetrahedral, square

planar (ML4) and octahedral geometry (ML6), pairing energies, weak field and strong field case, crystal field stabilization

energy, factors affecting magnitude of 10Dq, high and low spin complexes, evidences for crystal field stabilization, tetragonal

distortions from octahedral geometry, electronic spectra and magnetism.

3. Chemistry of Fuels:Origin, Classification, Solid, Liquid, Gaseous, and Biofuels, Proximate and Ultimate analysis, Petroleum- Distillation and Uses,

Calorific Value, Determination of Calorific Value of solid and liquid fuels, Fuel Cell and Fuel Cell technology.

4. Water and its Treatment:Introduction, sources of water Impurities in water, hard and soft water, Degree of hardness, Types of hardness, Scale and

sludge formation in boiler, Boiler corrosion. Caustic embrittlements, Priming and Foaming, Softening of water. Potable

water, Break point of chlorination, Desalination of Brackish water etc.

5. Corrosion and its Control :Introduction, Theories of corrosion, Types of corrosion, Protection of metals from corrosion organic and inorganic

materials, Inhibitors, Cathodic protection.6. Cements :

Introduction, Manufacturing of Portland cement, chemical composition of cement, chemical constituents of Portland

cement, Setting and hardening of cement, Heat of hydration, Special cement.

7. Analytical Techniques:Instrumental Analysis: Spectroscopic (NMR, IR, UV, Visible) and chromatographic (GC, HPLC, TLC, Column, Ion exchange, GPC

etc.) techniques.

References/ Book:1. Organic Chemistry ELBS, I.L.Finar, Longman Publisher, 6

thEdition,2007

2. Organic Chemistry, R.T.Morrison and R.N. Boyd, Prentice Hall of India Pvt. Ltd., 5th Ed, 1990

3. Organic Chemistry, L. G. Wade, Pearson Education 6th Ed, 2006.

4. Concise Inorganic Chemistry, J.D.Lee, Blackwell Publishing,6th

Edition,2009

5. Inorganic Chemistry, , 4th Edition, Shriver & Atkins, Oxford University Press, New York6. Physical Chemistry, P.W.Atkins, Oxford University Press, 7th Edition, 2006.

7. Physical Chemistry, 5th Edition, G.M.Barrow,Tata McGraw-Hill, New Delhi, 1992.

8. Engineering Chemistry, Jain and Jain, Dhanpat Rai Publication

7/31/2019 Mech Syllabus %282%29

6/58



HS 103 COMMUNICATION SKILLS



Work

Practical

/Viva

Total

MarksES (3.0Hrs) MS (2.0Hrs)1 0 2 3 3 60 40 -- -- 25 125

1. Communication skills: Process, types and levels of communication. Technical

Communication and General Communication. Factors to be considered in technical communication.

2. Verbal and non-verbal communication (Kinesics): Components of Non-verbal

Communication (Kinesics) Barriers to effective communication. (Noise in oral and written communication)

Communication across cultures.

3. Listening skills: Types of Listening Active Listening V/s Passive Listening Empathetic Listening. Traits of a good

listener, barriers in effective listening, Tips for effective listening.

4. Effective presentation strategies: Defining purpose, analysis of audience and locate, organizing contents. Preparing

an outline of the presentation. Visual aids, nuances of delivery, Body language and effective presentation.

5. Interviews: Introduction, General preparations for an interview, Types of questions generally asked at the

interviews. Types of interviews, Importance of nonverbal aspects.6. Group Discussions: Introduction, Group discussions as a part of the selection process, guidelines for group

discussion. Role functions in group discussion.

7. Paragraph Development: Introduction, Topic sentence and supporting sentences. Attributes of a good paragraph.

Types of paragraphs.

8. Letter Writing: Business Letters, Structure and types of a business letter, Letter of Inquiry, Letters of complaint,

regret and adjustment.

9. Technical reports: Introduction, types of reports, structure of reports, objectives and characteristics of reports.

10. Technical Proposals: Definition, Purpose, Types, Characteristics, Structure, Style and appearance.

11. Technical Descriptions: Introduction, Definition of an object or a process. Guidelines for writing good description

organization, content, structure.

12. Effective Reading Skills: Purpose of reading, skimming and scanning. Tips for improving comprehension skills.

13. Job application: Essential parts - Cover Letter and the resume. Types of resumes (Curriculum Vitae) Chronological

resume, functional resume.

14. Grammar and Vocabulary: Tense and the concept of Time. Passive Voice, Conditionals Prepositions, Concord.Idioms, Confusables, one-word substitutes, homonyms, homophones eponyms.

References/Books:

1. Technical Communication-Principles and Practice - Meenakshi Raman, Sangeeta Sharma (Oxford University

Press)

2. Personality Development, Harold Wallace and Ann Masters, Cengage Publishers.

3. Basic Communication Skills for Technology, Andrea J. Rutherford (Pearson Education)

4. Communication Skills for Technical Students, T.M. Farhathullah (Orient Longman)

5. A Textbook of English for Engineers and Technologists. Prepared by Humanities & Social Sciences Division.

Anna University, Chennai. (Orient Longman)

6. Communication Skills for Engineers - Sunita Mishra, C, Murali Krishna (Pearson Education)

7. English for Technical Communication- K.R. Lakshminarayanan (Scitech Publications,

8. Chennai.)

9. Basics of Management and Communication Skills- Dr. P.C. Shejwalkar (Everest Publishing House)10. Business Communication Strategies- Matthukutty M. Monippally, (Tata McGraw Hill)

11. Body Language- Allan Pease (Sheldon Press, London)

12. A Communicative Grammar of English- Geoffrey Leech, Jan Swartvik (ELBS with Longman)

7/31/2019 Mech Syllabus %282%29

7/58



HS 104 ENVIRONMENTAL STUDIES



Work

Practical

/Viva

Total

MarksES MS (2.5Hr)1 0 0 2 1 -- 50 -- -- -- 50

1. Multidisciplinary nature of environmental studies, Ecosystems, Biodiversity and its

conservation, Indicators of environmental pollution, Environment and human health

2. Consumption of natural resources and environmental degradation (forests, water, coal,

minerals, energy, and land), Sustainable development, Environmental policy and legislation,

Environmental impact assessment.

3. Pollution of lakes, rivers, ground water, coasts, and oceans, Science and technology for

drinking water and wastewater treatment and issues in management of systems, Solid and

hazardous waste management (causes, effects and control measures)

4. Air and noise pollution (science and engineering of pollution control), Global Issues including

climate change, global warming, acid rain, ozone layer depletion, nuclear hazards, Disaster

management (industrial accidents, floods, earthquakes, cyclones and landslides),

References/ Books:

1. Principles of Environmental Science, Cunningham W.P. and Cunningham M.A. (2002), Tata

McGraw-Hill Publishing Company, New Delhi.2. Basic Environmental Technology, Nathanson, J.A. (2002), Prentice Hall of India, New Delhi.

3. Wastewater Treatment for Pollution Control and Reuse, Arceivala, S.J. and Asolekar, S.R.

(2006), 3rd Edition, Tata McGraw Publishing Co. Ltd., New Delhi.

4. Preventive Environmental Management An Indian Perspective, Asolekar, S.R. and

Gopichandran, R. Foundation Books Pvt. Ltd., New Delhi, 2005.

5. Environmental Studies: R. Rajagopalan, Oxford University Press

7/31/2019 Mech Syllabus %282%29

8/58



HS 105 COMPUTER PROGRAMMING


Work

Practical

/Viva

Total

MarksES(2.5Hrs) MS(2.00Hrs)

2 0 2 5 4 60 40 -- 25 25 150

Introduction to computer software and programming; Understanding various number

systems used in the computer; Writing Algorithm and Drawing Flowchart; Writing simple C++

programs to complex C++ programs; Understanding Object Oriented Programming (OOP);

Implementation of OOP concepts through C++.

References/Books:

1. Let Us C, Yashavant Kanetkar, BPB Publications, 9th Edition

2. The Complete Reference C++ (4th Edition), Herbert Schildt, Tata McGraw-Hill3. C++ Program Design: An introduction to Programming and Object-Oriented Design (3

rdEdition),

Tata McGraw Hill. Coohoon and Davidson

4. C++ How to Program (5th

Edition), Deitel & Deitel, Prentice-Hall India

5. How to Solve It by Computer, G. Dromey, Prentice-Hall, Inc., Upper Saddle River, NJ

6. How to Solve It (2nd ed.), Polya, G., Doubleday and co.

7. Object Oriented Programming with C++, E Balagurusamy, Tata McGraw-Hill

7/31/2019 Mech Syllabus %282%29

9/58

PAND IT DEEN DA YAL PETROLEU M U N IVERSITY

SCHOO L OF TECHN OLOG Y

COU RSE STRUCTU RE FOR B.TECH.FIRST YEAR*

SEM ESTER -II

HS- Hum anities & Science D ept .; CE-Civil Engg Dept.; EE- Electrical Engg Dept .; M E- M echanical Engg Dept .

* Subject to a pproval by Academ ic Coun ci l

SR.N O

COURSECODE

COU RSE TITLE LECTURE TU TOR IAL PRACTICAL CREDI TS H RS/ W EEK

1. HS 106 M a t h s- I I 3 1 0 7 4

2 . M E 1 0 2 Engineering M ate rials 2 0 0 4 2

3 . CE 102 Elements of CivilEngineering

2 1 2 6 5

4 . EE 101 Elements of ElectricalEngineering

2 1 2 6 5

5 . M E 1 0 3 Element s of M echanicalEngineering

2 1 2 6 5

6 . HS 107 Physics 3 1 2 8 67 . M E 1 0 4 W ork Shop Practice 0 0 2 1 2

Tota l 14 5 10 38 29

7/31/2019 Mech Syllabus %282%29

10/58

PAN DIT DEEND AYAL PETROLEUM UN IVERSITY

SCHO OL OF TECHNO LOGY

HS 106 M ATHS- II Teaching Schem e Exam inat ion Schem e

L T P C Hrs/ W eek Theory Tutorial TermW o r k

Practical/ V i v a

Tota lM a rk sES (3.0Hrs) M S (2.0Hrs)

3 1 0 7 4 60 40 25 - - - - 125

1 . Vectors in Rn , not ion of l inear independence and dependence, l inear span of a set of vectors,

vecto r sub spa ces of R n , basis of a vector sub space.

2 . System s of Linea r equ ations, m atrices and Gauss elim inat ion, ro w space, null space, and colum n

space, rank of a m atrix.

3 . Determ inants and rank of a m atr ix in terms of determ inants.

4 . Abstract vector spaces, l inear transformations, matrix of a l inear transformation, change of

basis and similarity, rank-null ity theo rem .

5 . Inner prod uct spaces, Gram -Schm idt pro cess, orth onorm al bases, project ions and least squares

approximat ion.

6 . Eigen values and eigenvectors, characteristic polynomials, Eigen values of special matrices

(or thogonal, uni tary , Herm it ian, symm etr ic, skew sym m etr ic, no rma l). A lgebra ic and geom etr ic

m ult iplicity, diagonalizat ion by sim ilarity transform ation s, spectral theo rem for real sym m etric

7 . M atrices, applicat ion s to q uadrat ic form s.

8 . Exact e qua tions, integrat ing factors and Bernoull i equat ions.

9 . Orth ogonal traje ctories, Lipschitz condit ion, Picards theore m , exam ples on no n u niquen ess.

1 0 .Linear dif feren t ial equa tions gene ralit ies, Linear de pen den ce and W ornskians.

1 1 .Dim ensiona lity of space of solut ions, Abel - Liouvil le form ula.

1 2 .Linear ODEs with constan t coeff icient s, t he characterist ic equa tions, Cauchy-Euler equ ations.

1 3 .M ethod of undete rmined coef f icients, M ethod of var ia t ion of paramet ers.

1 4 .Laplace transform s generalit ies, Shif t ing theo rem s, Convo lut ion th eorem .

References / Books:

1. Elem entary l inear a lgebra w ith appl icat ions (8th ed . ) , H.Anton , John W iley (1995 )2. Linear a lgebra and its applications (4rh Ed.), G.Strang, Thom son (2006)3. Linear algebra A Geom etric appro ach, S.Kuma resan, Prent ice Hall of India (200 0)4. Advanced engineer ing m athe m atics (8th Ed.), E.Kreyszig, John W iley (1999)

5. Elem ent ary Different ial Equations (8th Ed.), W .E.Boyce and R. DiPrima , John W iley (200 5)6. Calculus, Vo lum e 2 (2nd Ed.), T.M .Apostol, W iley Eastern, 1980 .

7/31/2019 Mech Syllabus %282%29

11/58



M E 102 EN GINEERING M ATERIALSTeaching Schem e Exam inat ion Schem e


Practical/ V i v a


2 0 0 4 2 60 40 - - - - - - 100

1 . M ate rials & the ir Classif icat ionIntrod uction, Classif icat ion of Engineering M aterials, Requirem ent s for m ate rials, Factorsgoverning select ion of m ate rials

2 . Structure of materialsAtom s & Atom ic coordinat ion , bonds in solids, crystal Structure, State lat t ice, Un it cell ,Crystal system, crystal structure for material elements, coordinat ion number, inter-planarspacing, orde r & de-ord er structure , crystal im perfe ct ion

3 . M echanica l Propert ies of M ater ia lsStren gth, ha rdness, creep, elast icity, plast icity, fat igue, t oughne ss, cold & hot w orking of m .

4 . M e t a ls & a lloysM etals & the ir classif icat ion , Ferrous M eta ls, Cast iron, Types of cast Iron , Gray cast iron,W hite cast I ron, M al leable cast i ron, M ot t led Cast I ron, W rought I ron, Hot and Cold w ork ingo f M e t a ls

5 . Conductors ,sem iconductor & M agnet ic mater ia lResist ivity & conductivity, good conductor, semiconductor, insulato r, dielectr ics, fe rro-electr ic, piezo e lectr ics, super cond uctors M agnetic m ate rials & the ir classif icat ion , m agnetic

propert ies, ferrom agnet ism , para m agnet ism , d i -ma gnet ism , ant i -ferromagnet ism , sof t &hard m agnet ic m ater ia l, ma gnetos

6 . Polymers, Ceramics and Nano-materials

References/ Books:

1 . M ater ia ls and M etal lurgy by G. B. S. Narang and K. M anchanedy, Khanna Publ ishers, New Delhi2 . Elem ent s of M eta llurgy by Dr. Sw aroop an d Dr. Saxena, Rastogi Publicat ion3 . M ate rial Science and M anu facturing Process by Dhar m endra kum ar and S. K. Jain, Stosius Inc/ Advent

Book s Division4 . Physical M eta llurgy Principles by E. Reed Hil l Robe rt, Publisher: Ewp5 . M ate rial Science by O.P. Khanna, Dh anpa t Rai Pub lishing6 . M ate rial Science and Engineering: An Int roduction by W .D.Calliste r, Jhon W iley7 . Int roduction to M ate rials Science For Engineers by Jam es F. Shakelfo rd & M adan apall i K. M urlidhara,

Pearson Education

7/31/2019 Mech Syllabus %282%29

12/58



CE 10 2 ELEM EN TS OF CIVIL EN GIN EERIN G Teaching Schem e Exam inat ion Schem e

L T P C Hrs/ W eek Theory Tutorial TermW o r k Practical/ V i v a Tota lM a rk sES (3.0Hrs) M S (2.0Hrs)2 1 2 6 5 60 40 25 25 - - 150

1 . Intro duction t o Civil Engineeringa) Role of Civil Engineer in the construction of bu ildings, dam s, expressw ays and infrastructure

projects for 21st

Century. Imp ortan ce of an interdisciplinary appro ach in engineer ing.b ) Basic Areas in Civil Enginee ring :Surveying, Construction Engineering, Project M anagem ent ,

Transportat ion Enginee ring, Fluid M echanics, Irrigation Enginee ring, Structura l Engineering,Geot echnical and Founda tion Enginee ring, Environm ent al Engineering, Quan tity Survey ing,Earthquake Engineering, Infrastructure Development, Town Planning, Remote Sensing.

2 . M ate rials and Construct ion

a)

Use of ba sic mat erials cem ent, b ricks, ston e, natu ral and art if icial sand, Reinforcing Ste el-M ild,Tor an d H igh Tensile Steel. Concrete types - PCC, RCC Prestressed a nd Precast. Introd uction t osmart ma terials. Recycling of ma terials.

b ) Substructure-Function of Foundat ions, (Only concepts of set tlem ent an d Bearing capacity ofsoils.) Types of shallow found ations, (only concept of friction and en d bea ring pile).

c) Superstructure - Types of loads: DL and LL, w ind loads, eart hqu ake considerations. Types ofConstruction-Load Bearing, Framed, Composite. Fundamental requirements of masonry.

d ) Introduct ion to autom ation in construct ion: Concept , ne ed, exam ples re lated to di f ferent c iv ilengineerin g projects.

3 . Uses of M aps and Field Surveysa) Variou s typ es of map s and t heir uses. Principles of survey. M easurem ents of distances,

direct ions and elevat ions by di f ferent m ethods. M odern survey m ethods using levels,Theodo lites, EDM , lasers, tot al stat ion and GPS. Introduction to d igita l mapp ing. M easuringareas from maps using digital planimeter.

b ) Conducting simp le and different ial leveling for sett ing out variou s ben chma rks, determ iningthe e levat ions of d i f ferent points and preparat ion of contour m aps. Introduct ion to GISSoftw are an d oth er surveying softw are w ith respect to t heir capabi li t ies and app l icat ion a reas.

4 . Planning for the Built Environm enta) Concept of an integrated b ui l t environment-nat ural and man mad e. Pr inciples of p lanning, v iz .

Aspect, Prospect, Room iness, Group ing, Privacy, Circulat ion, Sanitat ion, Orien tat ion, Econo m y.Role of by- law s in regulat ing the environm ent .

b ) Use of va rious eco-friend ly ma te rials in construction. Concept o f green bu ildings.

References/ Books:

1 . Surveying Vol . I & I I , B. C. Punam ia, Laxm i Publication, Delhi2 . Surveying Vol. I and II , S. K. Duggal, Tata M acgraw Hill Publication, N ew Delhi3 . Civil Engineering Drawing, S. C. Rangwala, Charotar Publishing House, Anand4 . Building Construction, Dr. B. C. Punamia, Laxmi Publication, Delhi5 . Building Construction --- Bindra Arora; Dhanpat Rai publication.6 . Engineering M ater ial, Dr. S.C. Rangwala, Charotar Publishing House, Anand7 . Building M ater ials, Dr. S.K. Duggal, Ne w Age Internat ional Publishing House, Delhi8 . Civil Engineering M ate rial, Jakson and D hir, ELBS Publishing, Londo n9 . Highw ay Engineer ing, Khanna S. K. and Justo C. Publisher: Ne m chand and Brothe rs10 . Irrigation Engineering and Hydraulic Structures, Santoshkumar Garg, Khanna Publishers Delhi

7/31/2019 Mech Syllabus %282%29

13/58



EE 1 01 ELEM ENTS OF ELECTRICAL EN GIN EERIN G Teaching Schem e Exam inat ion Schem e


Practical/ V i v a


2 1 2 6 5 60 40 25 25 - - 1501.GeneralConcepts o f em f . , p .d . and current , resistance, ef fect o f te m peratu re on resistance. resistance te m perature coef f icient , insu lat ion resistance.

S.I . un i ts o f w ork, pow er and e nergy. Conversion o f energy f rom one form t o anothe r in e lectr ical, m echanical and the rma l systems.bat ter ies and cel ls, the i r types, pr imary cel ls and secondary cel ls, Lead Acid , Ni -Cd and N i -M H b at ter ies, current capaci ty an d cel l rat ings.

Charging , m ethods and m aintenance procedure.

2. D.C.CircuitsClassi f icat ion o f e lectr ical netw orks, Ohm's law , Ki rchhof f s law a nd th ei r app l icat ions for ne tw ork so lu t ions. S impl i f icat ions o f netw orksusing ser ies and par al le l com binat ions and star-del ta conversions.

3.ElectromagnetismM agnet ic ef fect o f an electr ic current , cross and dot convent ions, r ight hand th um b ru le and cork screw ru le, nature o f m agnet ic f ie ld o f longstraight conductor , so lenoid and toro id . concept o f m.m. f . , f lux, f lux densi ty, re luctance, permeabi l i ty and f ie ld st rength , thei r un i ts and

relat ionships. s imple ser ies and paral le l m agnet ic c ircu i ts, comp arison o f e lectr ical and m agnet ic c ircu i t , force on current carrying conductors

p laced in m agnet ic f ie ld , F lemings lef t h and ru le. Faradays laws of e lectromagnet ic induct ion , stat ically and d ynam ical ly induced e.m . f . , sel f

and m utual inductance, coef f icient o f coupl ings. ener gy stored in m agnet ic f ie ld . Charg ing and d ischarg ing of inductor and t ime constant .

4. Electrostat ics and AC fundam enta lsA) Electrostat ics f ie ld , e lectr ic f lux den sity, e lectr ic f ie ld st rength , absolute perm i t t iv i ty , re lat ive pe rm i t t iv ity , capaci tance and capaci tor ,

com posite dielectric capacitors, capacitors in serie s and paral le l , energy store d in capacitors, charging anddischarg ing of capacitors and t ime constant .

B) Sinusoidal vo l tages and currents, thei r mat hem at ical and graphical repre sentat ion , Concept o f instantane ous, peak (m aximum ), average

and r .m.s. values, f requency , cycle, per iod , peak factor and form factor , phase d i f ference , lagg ing , lead ing and in phase quant i t ies and

phasor representat ion . rectangular and po lar repre sentat ion o f phasors.

5. Single pha se A.C. Circuit sStudy of A.C. c ircu i ts consist ing o f pure re sistance, pure inductance, pure capacitance and corresponding vo ltage-current pha sor d iagrams

and w aveform s. Developm ent o f concept o f reactance, study o f ser ies R-L, R-C, R-L-C ci rcu i t and resonance, study o f par al le l R-L, R-C and R-L-C ci rcu i t , concept o f im pedance , a dm i t tance, conductance and susceptance in case o f above

combinat ions and relevant vo l tage-current phasor d iagrams, concept o f act ive, react ive and appare nt pow er and pow er factor .

6. Po lyphase A.C.Circuits and Single phase Transform ersA) Polyphase A.C.Ci rcu i ts: Concept o f three-phase supply and phase sequence. vo l tages, currents and power relat ions in three phasebalanced star-connected loads and del ta-connected loads along wi th p hasor d iagrams.

B) Sing le phase t ransform ers: Construct ion , pr incip le o f w orking , e .m. f . e quat ion , vo l tage and current rat ios. losses, def in i t ion o f regulat ion

and ef f ic iency, determ inat ion o f these by d i rect load ing metho d. descr ip t ive t reatm ent o f autotr ansforme rs and d imm erstats.

7. Electrical W iringConnectors & swi tches, system of w i r ing, dom est ic wi r ing instal lat ion , sub ci rcu i ts in dom est ic w i r ing , simple contro l c ircu i t in dome st icinstal lation, industrial electri f ication .

8. I l luminat ionTypes of lamp s, f ixtures & ref lectors, i llum inat ion schem es for dom est ic, industr ia l & comm ercial prem ises, Lum en requi rem ents ford i f ferent categories.

9. Safety & p rotect ionSafety, e lectr ic shock, f i rst a id for e lectr ic shock o ther hazards o f e lectr ical laborator ies & safety ru les, use o f m ul t i -mete rs, grounding ,

importa nce o f grounding , equipme nt o f grounding for safety. Ci rcu i t prot ect ion devices, fuses, M CB, ELCB & relays.

Referen ces/ Boo ks:1. Electr ical Technology V ol .1 , B.L.Theraja, S .Chand Publ icat ion , N ew Delh i

2. Basic Electr ical Engineer ing , V .N.M i t ta l , TM H Publ icat ion , New Delh i

3. Electrical Estim ating & Costing, Surj i tsingh, Dhan pat Rai & Co.4. Basic Electr ical Engineer ing , V .K.M ehta, S .Chand and Com pany Ltd . , Ne w Delh i5. Electrical Technolgy- Edward Hughes, Seventh Edition, Pearson Education6. Eleme nts of Electrical Technology- H.Cott on, C.B.S. Publications7. Basic Ci rcu i ts Analysis by John Om al ley Shawn, M c Graw Hi l l .

8. Principles of Electrical Enginee ring by Del. Toro, PH I

7/31/2019 Mech Syllabus %282%29

14/58



M E 103 ELEM EN TS OF M ECHAN ICAL EN GINEERING Teaching Schem e Exam inat ion Schem e


Practical/ V i v a


2 1 2 6 5 60 40 25 25 - - 150

1 .

ThermodynamicsThermod ynam ic work, p-dV wo rk in var ious processes, p-V rep resentat ion o f var ious thermodynam icprocesses and cycles. Ideal gas equations, Properties of pure substance, Statements of I and I I laws ofth erm odyna m ics and th eir applications in M echanical Enginee ring. Carnot cycle for Heat en gine,Refr igerator and Heat pum p.

2 . Energy conversion devices (Theoret ical stud y using schem atic diagram s only)Package Boiler, Turbine (Imp ulse & Rea ction turbine, Gas turbine, Hydrau lic turb ines), W orkingprinciple and applications of Reciprocating I .C. engines, Air m oto r. Reciprocating pum ps (single acting &double acting), reciprocating compressor, rotary compressors, fans, blowers, Study of householdrefrigerator, window air conditioner, split air conditioner Ratings and selection criteria of abovedevices. Refr igerants and t heir impa ct on environment .

3 . Pow er Plants ( Description w ith Block Diagrams)Therma l , Hydroelectr ic, Nuclear and Solar-W ind Hybrid Pow er Plants.

4 . M achine e lements:Pow er t ransmission shaft s, axles, keys, bush and b all bearings, Flywhe el and G overno rs.

5 . Pow er Transmission DevicesTypes of Belts and belt drives, Chain drive, Types of gears, Types of Couplings, friction clutch (cone andsingle plate ), brake s (typ es and app lications only) Application s of these de vices.

6 . M echanisms: . (Descr ipt ive t reat m ent o nly)Slider crank m echanism, Four ba r chain m echanism, List of various inversions of Four b ar chainm echanism , Geneva m echanism , Ratchet and Paul m echanism

7. Int roduction to m anu facturing processes and Their Applications:Casting, Shee t m eta l form ing, Shee t m eta l cutt ing, Forging, Fabrication, M eta l joining processes.

References/ Books:1 . Elem ent s of M echanical Enginee ring, K.P.Roy and Prof.S.K.HajraChaudh ury, M edia Promo te rs and

Publisher s Pvt.Ltd. Bom bay2 . Fundament al of M echanical Engineer ing by G.S. Saw hney, Prent ice H al l of India Publ icat ion New Delhi

3 . Therm al Science and Engineering by Dr. D.S. Kuma r, S.K. Kataria & Sons Publication, N ew Delhi4 . Therm al Engineering by R.K. Rajput, S.Chand Publication N ew Delhi5 . Therm odyna m ics, P. K Na g, Tata M cGraw-H ill Publishing Co. Ltd6 . Therm odyna m ics, Yunus A. Cengel and Boles, Tata M cGraw-H ill Publishing Co. Ltd7 . Theory of M achines , Ratan, Tata M cGraw -Hi ll Publ icat ion, New Delhi8 . Elemen ts of W orkshop Technology, Vol. I by S. K. HajraChaudhury & Others, M edia Promote rs and

Publ ishers, M um bai . 14th Edit ion, 2007.

7/31/2019 Mech Syllabus %282%29

15/58



H S 10 7 PH YSICSTeaching Schem e Exam inat ion Schem e


Practical/ V i v a


3 1 2 8 6 60 40 25 25 - - 150

1. Physical interpret at ion of Ve ctor conceptsIntroduction to vector algebra, Physical concepts in vector f ields and Scalar f ields with examples,Physical and m ath em atical concepts of gradient , divergence and curl, Greens the orem , Gauss theo rem ,applications in gravitation and electrostatics. Stokes' theorem and its applications. Coordinate systems(po lar, sphe rical and cylindrical intro duction).

2. Acoustics & Ult rasonicAcoustics: Introduction, Sound, Reflection of sound, Defects due to reflected sound, absorption ofsound, Sabines form ula, reverbe ration th eory, Eyrings Equat ion, Dopp ler Effect.Ultr asonic: Intro duction, Generat ion of ultrasonic: M agneto striction and piezoelectric m etho ds,det erm ination o f velocity of u ltrasonic w aves (acoustic grating), applications.

3. W aves and Oscil lat ion sSimple harmonic mot ion, Damped simple harmonic mot ion, types of damping, Forced osci l lat ion,resonance, group velocity and dispersion, Types of w aves, Energy Transport in W ave m otion, W avem otion in one dimension, the one dim ensional W ave equat ion.

4. LaserInteract ion of radiat ion of matter-quantum mechanical v iew, The Einstein coeff ic ients, Spontaneousand st imulated emission, Opt ical ampl i f icat ion and populat ion inversion, meta stable state , opt icalresonator, the principle of pumping scheme, laser beam characteristics, Ruby Laser, He-Ne, lasers,app lications. Introdu ction to Fiber opt ics.

5. OpticsInterference: Introduction, Sinusoidal waves, Superposition of waves, Interference by division of wavefront, Interference by division of amplitude: Anti-reflecting fi lms; Colour of thin fi lms; wedge shape

films; New tons rings and its applications, M ichelson interfero m ete r and its applications.Diffraction: diffraction of l ight waves, Fraunhofer diffraction at a single slit , Two slit FraunhoferDiffraction Pattern, N- Slit Fraunhofer Diffraction Pattern, diffraction grating, resolving power, RayleighCrite rion, Fresnel diffraction (Intr oduction).`Polarization: Polarization of l ight, production of polarized l ight, types of polarization and theirrepresentat ion, M alus's law , , , polarizer and ana lyser, Double re fraction, Interfe rence of Polarized light:Quart er w ave plates and Hal f w ave plates, opt ical act iv i ty .

References/ Books:1 . Engineering Physics, K. Rajagopal, Prentice-Hall of India Pvt. Ltd., New Delhi2 . Engineering. Physics, G. Vijayak um ari, Vika s Publishing House Pvt., Ltd.3 . Text book o f Engg. Physics M .N. Aava dhalula & P .G. Kshirsagar, S. Chand Publlication, Ne w Delhi4 . Engineering Physics Abhijit N ayak, S.K. Kata ria & Sons, Delh i.

5 . Physics part I and II, 5th Edition, Resnick, Halliday and Krane, John W iley (200 2)6 . Optics, 3rd edit ion, A. Ghatak, Tata M cGraw Hill (2005).7 . M echanics - Berkeley Physics Course, Vol. 1, Kittel C., Knight W .O. and Ruderm an M .A., Tata M cGraw -Hill8 . W aves and O scillat ions, Berkeley Physics Course, V ol. 3, Craw ford F.S. M cGraw- H ill9 . The Feym an Lectures on Physics, Vol. 1, (N arosa) Feym an R.P., Leighton R.B. and Sands M .1 0 . The Feym an Lectures on Physics, Vol. 2, (N arosa) Feym an R.P., Leighton R.B. and Sands M .1 1 . Griff ith D.J.H., Introd uction to Electrodynam ics - Prentice Hall of India

7/31/2019 Mech Syllabus %282%29

16/58



M E 104 W ORKSHO P PRACTICETeaching Schem e Exam inat ion Schem e


Practical/ V i v a

Tota lM a rk sES M S

0 0 2 1 2 - - - - - - 50 25 75

1 . In t roduct ion to w ood w ork: hand tools & var ious operat ions.2 . Intro duction to pa tte rn m aking: type s of pat tern s, al low ances, colour coding etc.3 . In t roduct ion to bench w ork & f i t t ing tools & operat ions.4 . Intro duction to m eta l cutt ing and m achine tools: Safety m easures, principles of op erat ion of

basic m achine too ls l ike lath e, shap ing, & dri l l ing. Im port ant ope rat ions on the se m achines.Cutt ing tools and t heir usage, select ion of cutt ing speed s, fee ds, etc.

5 . In t roduct ion to w elding.6 . Assignm ent s: Simp le assignm ent s in w ood w orking, f i t t ing, electr ic arc w elding, lathe an d

shaping m achine w ork .

References/ Books:

1. Elemen ts of W orkshop Technology, Vol . I by S. K. Ha jraChaudhury & Others , M edia Promot ersand Publ ishers, M um bai . 14th Edit ion, 2007 .

2 . Elemen ts of W orkshop Technology, Vol . I I by S. K. Ha jraChaudhury & Others , M edia Promot ersand Publ ishers, M um bai . 12th Edit ion, 2007 .

3 . W orkshop Pract ice by H. S. Baw a, Tata-M cGraw Hi ll , 2004 .

7/31/2019 Mech Syllabus %282%29

17/58


EXAM SCHEME FOR B.TECH. MECHANICAL ENGINEERINGSEMESTER-III

Note:

MS- Mid-Semester ES- End Semester

Term work consists of the record of work done during laboratory hours of the course.

SEMESTER -III B.TECH. MECHANICAL ENGINEERING

Sr.

No

Course

Code

Course Name Teaching Scheme Exam Sc

L T P C Hrs/wk Theory Tutorial Term

WorMS ES

1. HS 208 Mathematics-III 3 1 0 7 4 40 60 25 -- 2. ME-205 Thermodynamics 3 0 2 7 5 40 60 -- 253. EE 212 Electrical Technology 2 0 2 5 4 40 60 -- 254. ME-206 Manufacturing Processes -I 3 0 2 7 5 40 60 -- 255. ME-207 Strength of Materials 3 0 2 7 5 40 60 -- 256. ME-208 Fluid Mechanics 3 0 2 7 5 40 60 25

Total 17 1 10 40 28

7/31/2019 Mech Syllabus %282%29

18/58

Page 2 of7

HS 208 MATHEMATICS-III



Work

Practical

/Viva

Total

MarksMS (2.0Hrs) ES (3.0Hrs)

3 1 0 7 4 40 60 25 -- -- 125

Definition and properties of analytics functions.

Cauchy-Riemann equations, harmonic functions.

Power series and their properties

Elementary functions

Gauchys theorem and its applications.

Taylor series and Laurent expansions.

Residues and the Cauchy residue formula

Evaluation of improper integrals

Conformal mapping

Inversion of Laplace Transform

Review of power series and series solutions of ODEs

Legendres equation and Legendre polynomials

Regular and irregular singular points, method of Frobenius

Bessels equation and Bessels functions

Strum-Liouville problems

Fourier series

DAlembert solution to the Wave equation.

Classification of linear second order PDE in two variables

Vibration of a circular membrane

Heat equation in the half space

References /Books:

1. Complex variables and applications , R.V.Churchill and J.W.Brown, McGraw-Hill.2. Complex analysis, J. M. Howie, Springer-Verlag.3.

Complex Variables 0 Introduction and Applications, M.J.Ablowitz and A.S.Fokas, Cambridge,University Press, (Indian Edition).

4. Advanced Engineering Mathematics (8th Edition), E.Kreyszig, JohnWiley .5. Elementary Differential Equations (8th Edition) W.E.Boyce and R.Diprima, , John Wiley .

7/31/2019 Mech Syllabus %282%29

19/58

Page 3 of7

ME-205 THERMODYNAMICS



Work

Practical

/Viva

Total

Marks

3 0 2 7 5 40 60 -- 25 25 150Laws of Thermodynamics: First Law of Thermodynamics (Law of conservation of energy), Second Law

of Thermodynamics (law of degradation of energy) , Clausius and Kelvin-Plank statements, Equivalence

of Kelvin-Plank and Clausius statements, Perpetual Motion Machine I & II, Concept of Reversibility &

reversible cycle. Entropy as a property, Clausius inequality, principle of increase of Entropy.

Availability: Available and unavailable energy, concept of availability, availability of heat source at

constant temperature and variable temperature (Numerical) Availability of non flow and steady flow

systems, Helmholtz and Gibbs function, irreversibility, exergy destruction and second law efficiency.

Properties of Steam and Vapor Processes: Formation of steam, Phase changes, Properties of steam,

use of Steam Tables, Study of P-V, T-S and Mollier diagram for steam, Dryness fraction and itsdetermination, Study of steam calorimeters (Separating, Throttling and combined) Non-flow and Steady

flow vapour processes, Change of properties, Work and heat transfer.

Vapour Power Cycles: Carnot cycle, Rankine cycle, Comparision of Carnot cycle and Rankine cycle,

Efficiency of Rankine cycle , Relative efficiency, Effect of superheat, boiler and condenser pressure on

performance of Rankine cycle. Reheat & Regenerative cycle (no numerical, for reheat & regenerative )

Fuels and Combustion: Types of fuels, Proximate and ultimate analysis of fuel, Combustion theory,

Combustion Equations Theoretical, excess air and equivalence ratio. Analysis of products of combustion

Calorific value HCV & LCV. Bomb and Boys gas calorimeters (Numerical). First and second law analysis

of reactive systems.

Introduction to EES for solution of numerical problems.

References/ Books:

1. Engineering Thermodynamics by P. K. Nag, Tata Mcgraw Hill, New Delhi1. Fundamentals of Classical Thermodynamics by Van Wylen and Sonntag, John Wiley & Sons Inc.2. Engineering Thermodynamics by R.K.Rajput, EVSS Thermo Laxmi Publications3. Engineering Thermodynamics by Rayner Joel, ELBS Longman.4. Thermodynamics- An Engineering Approach by Yunus A Cengel & Bole Tata Mcgraw Hill, New Delhi5. Engineering Thermodynamics by R.K. Rajput, Laxmi Publications, New Delhi6. Fundamentals of Engineering Thermodynamics by R.Yadav, Central Publishing

House, Allahabad

7/31/2019 Mech Syllabus %282%29

20/58

Page 4 of7

EE 212 ELECTRICAL TECHNOLOGY



Work

Practical

/Viva

Total


2 0 2 5 4 40 60 -- 25 25 150

Electrical Power Measurement: Measurement of active and reactive power in three phase balanced loads by using one

wattmeter & two wattmeter, effect of power factor on wattmeter reading.

Electrical Energy Measurement: Single Phase & three phase energy meter (construction and Working), Use of CT & PT for

measurement of Power / Energy in single phase and three phase system (Theoretical Treatment only), standard

specifications of single and three phase energy meter.

Tariff-introduction, objectives & Details of H.T. and L.T tariff, TOD tariff, advantages and improvement of power factor

(Theoretical Treatment only)

Illumination:- Various terms related to illumination, types & requirement of good lighting scheme, special purpose lighting

Single phase transformer: Types, KVA rating, approximate equivalent circuit, voltage regulation and efficiency of

transformer, condition for maximum efficiency.

Three phase transformers: Types of transformer connection (star/star, star/delta, delta/star, and delta/delta) and

applications based on connections. (Theoretical Treatment only) Introduction of power transformer, distribution

transformer, study of typical distribution transformer substation, specifications of transformer (KVA rating, voltage ratio,

current rating)Three phase Induction Motor:- Constructional feature, working principle of three phase induction motors, types; torque

equation, torque slip characteristics; power stages; efficiency; types of starters; methods of speed control & Industrial

applications.

Single phase induction motors: Types, construction, working principle of split phase and shaded pole type induction

motors, applications. Specifications of induction motors (KW rating, rated voltage, current rating, frequency, speed, class of

insulation)

Synchronous Generator: Constructional features (Salient and non- salient),working principle, e m f equation, synchronous

speed of an alternator, concept of synchronous reactance and impedance, phasor diagram of loaded alternator, voltage

regulation of alternator by direct loading method and synchronous impedance method. Specifications of synchronous

generator

Construction, working principle of D.C. generator, emf equation of D C generator. (Theoretical concept only). Working

principle of D.C. motor. Types of D. C. motor, back emf , torque equation for D.C. motor, characteristics of D. C. motor

(series, shunt and compound), starters of D.C. shunt and series motor, methods for speed control of D.C shunt and series

motors, Industrial applications. Special purpose motors: Construction, working principle, characteristic and applications ofstepper motors, A.C. and D.C servomotors, universal motors, Industrial applications.

POWER SEMICODUCTOR DEVICES SUCH AS SCR:

Construction detail, V-I Characteristics, Methods to turn ON, switching action during ON & OFF, specification,

Concept of commutation of SCR. Applications DIAC:- Construction, V-I Characteristics TRIAC:- Construction, V-I

Characteristics, turning ON process. MOSFET:- Construction, transfer Characteristics, output characteristics, Methods to

turn ON & OFF, applications IGBT:- Construction detail, transfer Characteristics, output characteristics, Methods to turn ON

& OFF, applications GTO Construction ,working and characteristic.

Drives: Advantages of Electrical Drives, Individual & Group drives, selection of drives depending on load characteristics.

Speed Control: Single phase full converter fed D.C. Drives, Three phase converter fed D.C. Drives, Chopper Drives, two

quadrant & four quadrant chopper drives, stator voltage control of three phase induction motor, frequency control of three

phase induction motor, V/F control of three phase induction motor.

References / Books:

1. Electrical Technology B. L.Theraja, S Chand Publication Co Ltd.2. Fundamentals of Electrical Engineering Ashfaq Husain, Dhanpat Rai & Co.3. Electrical machines D P Kothari and I J Nagrath Tata McGraw Hill ,Third Edition4. Electrical Machinery S.K. Bhattacharya TTTI Chandigad5. Electrical Technology Edward Hughes Pearson Education6. Art and Science of Utilization of Electrical Energy H Pratap Dhanpat Rai and Co ,Third Edition7. Power Electronics Dr. P.S. Bhimbra Khanna Publication

7/31/2019 Mech Syllabus %282%29

21/58

Page 5 of7

ME-206 MANUFACTURING PROCESSES I



Work

Practical

/Viva

Total


3 0 2 7 5 40 60 -- 25 25 150

Casting : Steps involved in making a casting Advantage of casting and its applications. Patterns

and Pattern making Types of patterns Materials used for patterns, pattern allowances and theirconstruction, Principles of Gating, Gating ratio and design of Gating systems

Solidification of casting Concept Solidification of pure metal and alloys, short & long freezing range

alloys.

Risers Types, function and design, casting design considerations, special casting processes 1) Centrifugal

2)Die, 3) Investment.

Methods of Melting : Crucible melting and cupola operation, steel making processes, special.

A) Welding : Classification of welding process types of welds and welded joints and their

characteristics, design of welded joints, Gas welding, ARC welding, Forge welding, resistance

welding, Thermit welding and Plasma (Air and water ) welding.

B) Cutting of Metals: Oxy Acetylene Gas cutting, water plasma. Cutting of ferrous, non-ferrous

metals.

Inert Gas welding, TIG & MIG, welding, Friction welding, Induction welding, Explosive welding, Laser

welding, Soldering & Brazing. Heat affected zones in welding;

welding defects causes and remedies destructive nondestructive testing of welds.

Hot working, cold working, strain hardening, recovery, recrystallisation and grain growth, Comparison of

properties of Cold and Hot worked parts, Rolling fundamentals theory of rolling, types of Rolling mills and

products. Forces in rolling and power requirements.

Stamping, forming and other cold working processes : Blanking and piercing Bending and forming

Drawing and its types wire drawing and Tube drawing coining Hot and cold spinning Types of

presses and press tools. Forces and power requirement in the above operations.

Extrusion of Metals : Basic extrusion process and its characteristics. Hot extrusion and cold

extrusion - Forward extrusion and backward extrusion Impact extrusion Hydrostatic extrusion.

Forging processes: Principles of forging Tools and dies Types Forging Smith forging, Drop Forging

Roll forging Forging hammers : Rotary forging forging defects.Processing of Plastics: Types of Plastics, Properties, applications and their Processing methods &

Equipment (blow &injection modeling)

REFERENCES/BOOKS :

1. Manufacturing Engineering and Technology/Kalpakjin S/ Pearson Edu.2. Process and materials of manufacturing Lindberg/PE3. Principles of Metal Castings / Roenthal.4. Welding Process / Paramar /5. Production Technology /Sarma P C /6. Production Engineering Suresh Dalela & Ravi Shankar / Galgotia Publications Pvt. Ltd.

7/31/2019 Mech Syllabus %282%29

22/58

Page 6 of7

ME-207 STRENGTH OF MATERIALS



Work

Practical

/Viva

Total


3 0 2 7 5 40 60 -- 25 25 150

1. Stresses and strains in three dimensions; Theories of failure.2. Beams on elastic foundations, infinite, semi infinite and finite beams.3. Bending of curved beams in the plane of loading - crane hooks and chain links.4. Bending of curved beam out of its initial plane, Saint Venants equations and equations of equilibrium.

Bending of circular Beams subject (Id to symmetric loading)

5. Torsion of non-circular members, St. Venants theory, Torsional stresses in elliptical triangular shafts,Approximate solutions for rectangular section, Membrane analog,

6. Torsion of hallow sections, torsional stresses in thin walled open and closed sections, plastic yielding of circularshafts.

7. Bending of thin plates, Assumptions of plate theory, GDE for deflection of plates, Boundary conditions,Solutions for rectangular plates, Naviers and Levys solutions, circular plates, Membrane theory of shells of

revolution and cylindrical shells.

References / Books:

1. Advanced Mechanics of Material - Seely , F.B & Smith J.O2. Strength of Materials Vol. 1 and 2 - Timshenko

3. Strength of Materials - F.L. Singer

4. Advance Mechanics of Materials , Boresi A.P, and Sidebottom, O.M , John Willey & sons, 1985

5. Advance Mechanics of Materials, Srinath L.S

6. Advance strength and applied stress analysis , Richard G. Budynas, McGraw Hill , New Delhi 1999.

7/31/2019 Mech Syllabus %282%29

23/58

Page 7 of7

ME-208 FLUID MECHANICS



Work

Practical

/Viva

Total


3 0 2 7 5 40 60 25 25 150

1. Concept of system and control volume; Fluid and flow, definition and types, continuum, Reynolds transport theorem.2. Fluid Properties, Newtons Law of Viscosity, Stokes Theorem, Compressibility, Vapour pressure. Fluid

Kinematics: Types of flow- steady, unsteady, uniform, non-uniform, laminar, turbulent, One, Two and

Three dimensional, compressible, incompressible, rotational, Irrotational. Stream lines, path lines, streak

lines, velocity components, convective and local acceleration, velocity potential, stream function,

continuity equation in Cartesian co-ordinates.

3. Fluid StaticsHydrostatic law, Pascals law, Pressure at a point, Total Pressure, Centre of pressure, Pressure on a

plane(Horizontal, Vertical, Inclined) & Curved surfaces, Archimedes Principle , Buoyancy and stability of

floating and submerged bodies, Metacentric height.

4. Fluid DynamicsIntroduction to Navier- Concept of system and control volume; Reynolds transport theorem Stokes Equation,

Euler equation of motion along a stream line, Bernoullis equation, application of Bernoullis equation to

Pitot tube, Venturi meter, Orifices, Orifice meter, Triangular Notch & Rectangular Notch .(Without

considering Velocity of Approach)

5. Laminar FlowDefinition, relation between pressure and shear stresses, laminar flow through round pipe, fixed parallel

plates. Dimensional Analysis Dimensions of physical quantities, dimensional homogeneity, Buckingham pi

Theorem, important dimensionless numbers, Model analysis (Reynolds, Froude and Mach).

6. Flow Through PipesTEL, HGL , Energy losses through pipe, Darcy-Weisbach equation, Moody diagram, Minor losses in pipes,

pipes in series and parallel, Siphons, Transmission of power, Turbulent Flow, Velocity Distribution.

7. Boundary Layer TheoryDevelopment of Boundary Layer on a flat plate, Laminar and Turbulent Boundary Layers, Laminar sub

layer, Separation of Boundary Layer and Methods of Controlling. Flow around Immersed Bodies Lift and

Drag, Classification of Drag, Flow around circular cylinder and Aerofoil, Development of lift on Aerofoil.

Introduction to CFD Methodology (Elementary Treatment); Use of EES for problem solving; Flow

visualization tapes.

References / Books:

1. Engineering Fluid Mechanics, Kumar K. L., S.Chand & Company Ltd.2. Introduction to Fluid Mechanics and Fluid Machines, Som.S.K& Biswas. Tata McGraw-Hills Publishing Company Limited

(2003)

3. Fluid Mechanics, Cengel & Cimbala, , Tata McGraw-Hills Publishing Company Limited (2006)4. Introduction to Fluid Mechanics, James E. A., John and Haberm W. A., Prentice Hall of India5. Fluid Mechanics and Fluid Power Engineering, Dr.D.S.Kumar, S.K.Kataria & Sons.6. Fluid Mechanics, Fox R.W. and McDonald A.T., John Wiley International, 2005.7. Fluid Mechanics, White F. M., Tata McGraw Hill, 2008.8. Fluid Mechanics, Gupta V. and Gupta S.K Narosa, 2005.9. Fluid Mechanics & Machinery Agarwal.S.K, Tata McGraw-Hill Publishing Company Limited.

7/31/2019 Mech Syllabus %282%29

24/58


EXAM SCHEME FOR B.TECH. MECHANICAL ENGINEEING

SEMESTER-IV


Note: Term work consists of the record of work done during laboratory hours of the course.

SEMESTER -IV B.TECH. MECHANICAL ENGINEEING

Sr. Course

CodeCourse Name

Teaching Scheme Exam Sch

L T P CHrs/

wk

TheoryTutorial

Term

WorMS ES

1. HS 209 Numerical Methods 3 1 0 7 4 40 60 25 -- 2. ME-209 Mechanical Measurements &

Metrology3 0 2 7 5 40 60 -- 25

3. ME-210 Design of Machine Elements 3 0 2 7 5 40 60 -- 25 4. ME-211 Kinematics of Machines 2 0 2 5 4 40 60 -- 25 5. ME 212 Engineering Metallurgy 3 0 2 7 5 40 60 -- 25 6. ME-213 Fluid Machinery 3 0 2 7 5 40 60 -- 25

Total 17 1 10 40 28 600 25 125

7/31/2019 Mech Syllabus %282%29

25/58

HS 209 NUMERICAL METHODS


Work

Practical

/Viva

Total


3 1 0 7 4 40 60 25 -- -- 125

1. Interpolation by polynomials, divided differences, error of the interpolating polynomial,

piecewise linear and cubic spline interpolation.

2. Numerical integration, composite rules, error formulae. Solution of a system of linear

equations, implementation of Gaussian elimination and Gauss-Seidel methods

3. Partial pivoting, row echelon form, LU factorization Choleskys method, ill-conditioning,

norms. Solution of a nonlinear equation, bisection and secant methods.

4. Newtons method, rate of convergence, solution of a system of nonlinear equations, numerical

solution of ordinary differential equations, Euler and Runge-Kutta methods, multi-step

methods, predictor-corrector methods, order of convergence, finite difference methods,

numerical solutions of elliptic, parabolic, and hyperbolic partial differential equations.

5. Eigenvalue problem, power method, QR method, Gershgorins theorem. Exposure to software

packages like IMSL subroutines, MATLAB.

References/ Books:

1. Elementary Numerical Analysis- An Algorithmic Approach, S.D. Conte and C. de Boor, 3rd

ed.,McGraw-Hill, 1980.

2. Introduction to Numerical Analysis, 2nd ed., C.E. Froberg, Addison-Wesley, 1981.

3. Advanced engineering mathematics, E. Kreyszig, 8th ed., John Wiley (1999).

7/31/2019 Mech Syllabus %282%29

26/58

ME 209 MECHANICAL MEASUREMENTS & METROLOGY



Work

Practical

/Viva

Total


3 0 2 7 5 40 60 -- 25 25 150

MECHANICAL MEASUREMENTS

1. Generalized Measurement Systems:

Introduction, Description of Stages in Measurements, Calibration, Accuracy, Precision and Error, Error Classification,

Treatment of Test data, uncertainty Analysis.

2. Measurement of Force ,Torque and pressure Standards

Measuring Methods, Comparative study of different types of forces and torque Measuring systems. Description and

working Principle of different types of Transducers for Measuring Pressure, Measurements of High Pressure and low

pressure, calibration method.

3. Measurement of Humidity and Temperature: Introduction, Different types of Transducers for measurement of

Humidity, their performance characteristics and limitations.

4. Flow Measurement: Introduction, Principle of operation of various obstruction meters for compressible and

incompressible fluid flow measurement, variable Area meter and other important flow meters and visualization

methods.

5. Temperature Measurements

Different types of Transducers: for Measurements of low and medium temperatures pyrometers, Temperature

indicators, problems in temperature measurement.

6. Measurement of Speed and Vibration: Velocity Acceleration: Speedometers, velocity measurement, Accelerometers,

encoders, calibration and uses. Different pick-ups and their limitations

7. Measurement of Radio-isotopes, Measurement of Radio activity.

MERTOLOGY

8. Introduction to Metrology and its relevance,

9. standardization,

10. dimensional measurement, limits, fits and tolerances, limit gauging,11. linear and angular measurements and their applications,

12. surface roughness-quantification and measurement,

13. alignment testing of machine tools,

14. Feature inspection and Computer Aided inspection

References / Books:

1. Mechanical Measurement by Beckwidth and Buck (Edn. 1965, Addison Wesley Publishing Co. Inc. London)

2. Measurement systems, Application and Design by Docblin (Edn. 1976, Publisher TMH)

3. Introduction to Microprocesors by A.P. Mathur 2nd Edn. 1984, Publisher TMH.

4. Engineering Measurements and Instrumentation by Adams L.F. (Edition 1975, London English University Press).

5. Instrumentation Measurement and Analysis by B.C. Nakra, K.K. Choudhary (Edn. 1985, Publisher TMH, New Delhi).

6. Automation, Production system & Computer Integrated Manufacturing by Mikell. P. Groover, 2nd edition 2001, PersonEducation Asia.

7/31/2019 Mech Syllabus %282%29

27/58

ME 210 DESIGN OF MACHINE ELEMENTS



Work

Practical

/Viva

Total


3 0 2 7 5 40 60 -- 25 25 150

UNIT I

INTRODUCTION : General considerations in the design of Engineering Materials and their properties

selection Manufacturing consideration in design. Tolerances and fits BIS codes of steels.

STRESSES IN MACHINE MEMBERS : Simple stresses Combined stresses Torsional and bending

stresses impact stresses stress strain relation Various theories of failure factor of safety Design

for strength and rigidity preferred numbers. The concept of stiffness in tension, bending, torsion and

combined situations Static strength design based on fracture toughness.

UNIT II

STRENGTH OF MACHINE ELEMENTS : Stress concentration Theoretical stress Concentration

factor Fatigue stress concentration factor notch sensitivity Design for fluctuating stresses Endurance

limit Estimation of Endurance strength Goodmans line Soderbergs line Modified goodmans line.UNIT III

Riveted and welded joints Design of joints with initial stresses eccentric loading

UNIT IV

Bolted joints Design of bolts with pre-stresses Design of joints under eccentric loading locking devices

both of uniform strength, different seals

UNIT V

KEYS, COTTERS AND KNUCKLE JOINTS :

Design of Keys-stresses in keys-cottered joints-spigot and socket, sleeve and cotter, jib and cotter joints-

Knuckle joints.

UNIT VI

SHAFTS : Design of solid and hollow shafts for strength and rigidity Design of shafts for combined

bending and axial loads Shaft sizes BIS code. Use of internal and external circlips, Gaskets and seals(stationary & rotary).

UNIT VII

SHAFT COUPLING : Rigid couplings Muff, Split muff and Flange couplings. Flexible couplings

Flange coupling (Modified).

UNIT VIII

Mechanical Springs :

Stresses and deflections of helical springs Extension -compression springs Springs for fatigue loading

natural frequency of helical springs Energy storage capacity helical torsion springs Co-axial springs,

leaf springs.

References / Books :

1. Mechanical Engineering Design, Shigley, J. E., Mischke, C. R. and Budynas, R. G., McGraw Hill, 7th Edition,

2004. International.

2. Fundamental of Machine Component Design, "Juvinall, R. C., and Marshek, K. M., John Wiley and Sons,

2000.

3. Fundamentals of Machine Elements Hamrock, B. J., Jacobson, B. Schmidt, S. R.,. McGraw Hill, 1999.

4. An Integrated Approach, Norton, R. L., Machine Design: Pearson Education, Indian Reprint-2001.5. Machine Design, V.Bandari Tmh Publishers6. Machine Design, S MD Jalaludin, AnuRadha Publishers7. Design Data hand Book, S MD Jalaludin, AnuRadha Publishers

7/31/2019 Mech Syllabus %282%29

28/58

ME 211 KINEMATICS OF MACHINES



Work

Practical

/Viva

Total


2 0 2 5 4 40 60 -- 25 25 150

1. Fundamentals of Kinematics and Mechanisms

Kinematic link, Types of links, Kinematic pair, Types of constrained motions, Types of Kinematic pairs,Kinematic chain, Types of joints, Mechanism, Machine, Degree of freedom (Mobility), Kutzbach

crieterion, Grublers criterion. Four bar chain and its inversions, Grashoffs law, Slider crank chain and

its inversions, Double slider crank chain and its inversions. Pantograph, Swinging/Rocking mechanisms,

Geneva mechanism. Equivalent linkage of mechanisms.

2. Steering gear mechanisms: Condition for correct steering, Davis steering gear mechanism, Ackermann

steering gear mechanism.

3. Velocity and Acceleration Analysis of Simple Mechanisms : Graphical Methods-I

Relative velocity method : Relative velocity of a point on a link, Angular velocity of a link, Sliding

velocity, Velocity polygons for simple mechanisms. Relative acceleration method : Relative acceleration

of a point on a link, Angular acceleration of a link, Acceleration polygons for simple mechanisms.

Instantaneous center of rotation (ICR) method: Defination of ICR, Types of ICRs, Methods of locating

ICRs, Kennedys Theorem, Body and space centrode.

4. Velocity and Acceleration Analysis of Mechanisms: Graphical Methods-II

Velocity and acceleration diagrams for the mechanisms involving Coriolis component of acceleration.

Kleins construction.

5. Kinematic Analysis of Mechanisms : Analytical Methods

Analytical method for displacement, velocity and acceleration analysis of slider crank mechanism.

Position analysis of links with vector and complex algebra methods, Loop closure equation, Chace

solution, Velocity and acceleration analysis of four bar and slider crank mechanisms using vector and

complex algebra methods.Hookes joint, Double Hookes joint.

6. Introduction to Synthesis of Linkages

Steps in synthesis process: Type, number and dimensional synthesis. Tasks of Kinematic synthesis: Path,

function and motion generation (Body guidance). Precision Positions, Chebychev spacing, Mechanical

and structural errors, Branch defect and order defect, Crank Rocker mechanisms. Graphical synthesis :

Two and three position synthesis using relative pole method and inversion method for single slidercrank and four bar mechanism, Three position motion synthesis of four bar Mechanism. Analytical

synthesis: Derivation of Freudensteins equation, Three position function generation using

Freudensteins equation.

7. Static and Dynamic Force Analysis

Theory and analysis of Compound Pendulum, Concept of equivalent length of simple pendulum, Bifilar

suspension, Trifilar suspension. Dynamics of reciprocating engines: Two mass statically and

dynamically equivalent system, correction couple, static and dynamic force analysis of reciprocating

engine mechanism (analytical method only), Crank shaft torque, Introduction to T- diagram.

References / Books:

1. Theory of Machines, S. S. Ratan, Tata Mc Graw-Hill publications, New Delhi

2. Theory of Mechanisms and Machines, Ghosh Amitabha, East West Press3. Mechanisms and theory Machines theory, Rao J.S. and Dukkipati R.V, , Wiley Eastern Ltd.

4. Theory of Machines and Mechanisms, Shigley J.E and Uicker J.J, , Oxford University Press

5. Theory of Machines, Bevan Thomas,

6. Theory of Machine & Mechanism, Ballaney P L,

7. Theory of Machines, 2nd Ed. Singh Sadhu, Pearson Education

8. Theory of Machines and Mechanism, Uicker John J, Oxford University Press

9. Kinematics and Dynamics of Planar Mechanisms, Paul B., Prentice Hall, 1979.

10. Design of Machinery, Norton, R.L., Third Edition, Tata McGraw Hill, New Delhi, 2005.

7/31/2019 Mech Syllabus %282%29

29/58

ME 212 ENGINEERING METALLURGY



Work

Practical

/Viva

Total


3 0 2 7 5 40 60 -- 25 25 150

1. Structure Property Relation

Engineering metals and alloys , Elastic and plastic deformation, deformation in a single crystal andpolycrystalline metal, Critical resolved shear stress, Imperfections in a crystal, plastic deformation

mechanisms-slip and twin, effect of defects on deformation mechanism, work hardening, fracture in

metals , changes in properties due to deformation, Re-crystallisation, cold working and hard working.

2. Testing of metals

Concept of stress and strain, strength, elasticity, plasticity, stiffness, resilience, Toughness, Malleability,

Ductility, Brittleness. Destructive Tests like : Tension Test- Engineering and True stress-strain curves,

their conversion relationships, evaluation of properties. Numerical based on tension test, engineering

stress-strain diagram for ductile and brittle metal, compression test. Hardness test- Brinell. Poldi,

Vickers, Rockwell, Rockwell superficial. Micro hardness test. Impact tests- Charpy and izod, , Fatigue

and creep test, Erichsen cupping test , concept of fracture toughness testing Non Destructive Testing:

Visual Inspection, Magna flux, dye penetration test, sonic and ultra sonic test, radiography and eddy

current test. Examples of selection of NDT and mechanical testing methods for selected components

like crankshafts, gears, razor blades, welded joints, steel and C.I. casting, rolled products.

3. Ferrous metals and Designation

Wrought and cast components, Allotropy of Iron, Iron-carbon diagram, plain carbon steels, limitations

of plain carbon steel, and advantages of alloy steels. Effect of alloying elements on mechanical

properties of steel, Alloy steels, Tool steels, stainless steels, cast irons. Designation of steels and cast

iron.

4. Heat Treatment

Effect of non equilibrium cooling on microstructure and properties of steel, TTT diagram for 0.8% carbon

steel only, Isothermal treatments, Continous cooling Transformation curves, Critical Cooling Rate &

Heat treatments like Annealing, Normalizing, Hardening and tempering. Hardenability of steels,

Jominey end quench test, surface hardening treatment scarburizing. Nitriding, Carbonitriding, tufftride,

sursulf, Induction hardening and flame hardening.

5. Powder Metallurgy and Non Ferrous Metals and alloys.Making of Powder metallurgical component, Advantages and limitations of powder metallurgy.

Production of typical P/M components, self lubricated bearing, cemented carbides, cermets, refractory

metals, electrical contact materials, friction materials, and diamond impregnated tools. Non ferrous

metals and alloys- Copper and its alloys, Aluminium and its alloys, babbits.

6. Introduction to Advanced Material

Types and Properties of Composite materials, High temperature materials, Engineering ceramics &

cryogenic materials.

References / Books :

1. Engineering Metallurgy By R.A. Higgins, Viva Books Pvt Ltd

2. Properties of Engineering Materials by R.A.Higgins, Viva Books Pvt Ltd

3. Material science and metallurgy for Engineers by Dr V.D.Kodgire

4. The Science and Engineering of materials by Donald R Askeland et al, Thomson Brooks/cole

5. Physical Metallurgy Principles, R.E. Reed-Hill:, 4th Edition Cengage Learning, 2003

6. Elements of Metallurgy and Engineering Alloys, F.C. Compbell, ASM International, Ohio, 2008

7. Physical Metallurgy and Advanced Materials R.E. Smallman, A.H.W. Nagan, Seventh Edn, Elsevier, 2007

8. Materials Science and Engineering, William D Callister, Jr., Wiley India (P) Ltd., 2007

9. Phase Transformations in Metals and Alloys, D.A. Porter and K.E. Easterling, second edition, Chapmanand Hall, London 1992

7/31/2019 Mech Syllabus %282%29

30/58

ME 213 FLUID MACHINERY



Work

Practical

/Viva

Total


3 0 2 7 5 40 60 -- 25 25 150

1. Definition and classification of turbo machines; Principles of operation; Specific work its representation on T-s and h-s diagrams; Losses and efficiencies; Energy transfer in

turbo machines; Flow mechanism through the impeller velocity triangles ideal and

actual flows slip and its estimation; Degree of reaction impulse and reaction

stages; Significance of impeller vane angle; Similarity; Specific speed and shape

number.

2. Steam turbines flow through nozzles compounding effect of wetness in steam

turbines;

3. Gas turbines;

4. Hydraulic turbines Pelton, Francis and Kaplan turbines draft tube performance

and regulation of hydraulic turbines; Cavitations in pumps and turbines;

5. Performance characteristics of pumps and blowers affinity laws regulation; Wind

turbines; Fluid couplings and torque converters;

6. Unconventional turbo machines Wells turbine, reversible turbines and new cross

flow machines.

References/ Books :

1. Principles of Turbo machinery,. Shepherd, D. G., Macmillan, 1956.

2. Hydraulic Machines, Sixth Edition, Jagdish Lal, Metropolitan Book, 1975.

3. Fans and Compressors, Cherkassky, V. M., Pumps Mir Publishers, 1980.

4. Hydraulic and Compressible Flow Turbo machines, Sayers, A.T., McGraw Hill,1990.

5. An Introduction to Energy Conversion Vol.III: Turbo machinery, Seventh Reprint, Kadambi, V. and Manohar Prasad,Wiley Eastern, 1997.

6. A Treatise on Turbo machines, Gopalakrishnan, G. and D. Prithvi Raj, Scitech Publications, 2002.

7. Hydraulic Machines: Theory and Design, Vasandani, V.P., Tenth Edition,Khanna Publishers, 1992.

8. Fluid Machinery: Performance, Analysis and Design, Wright,T., CRC Press, 1998.

7/31/2019 Mech Syllabus %282%29

31/58



EXAM SCHEME FOR B.TECH. MECHANICAL ENGINEEING

SEMESTER-V


Note: - Term work consists of the record of work done during laboratory hours of the course.

SEMESTER -V B.TECH. MECHANICAL ENGINEEING

Sr. Course

CodeCourse Name

Teaching Scheme Exam S

L T P C Hrs/wkTheory

TutorialTer

WoMS ES

1. ME-314 Manufacturing Processes-II 3 0 2 7 5 40 60 -- 252. ME-315 Production and Operation

Management2 1 0 5 3 40 60 25 --

3. ME-316 Power Plant Engineering 3 0 2 7 5 40 60 -- 254. ME-317 Design of Mechanical

Systems3 0 2 7 5 40 60 -- 25

5. ME-318 Heat and Mass Transfer 3 0 2 7 5 40 60 -- 256. ME-319 Refrigeration & Air -

Conditioning3 0 2 7 5 40 60 -- 25

Total 17 1 10 40 28 600 25 12

7/31/2019 Mech Syllabus %282%29

32/58



ME 314 MANUFACTURING PROCESS - IITeaching Scheme Examination Scheme


Practical/Viva

TotalMarksMS (2.0Hrs) ES (3.0Hrs)

3 0 2 7 5 40 60 -- 25 25 150

Elementary treatment of metal cutting theory Element of cutting process Geometry of single point tool

and angles chip formation and types of chips built up edge and its effects chip breakers. Mechanics of

orthogonal cutting Merchants Force diagram, cutting forces cutting speeds, feed, depth of cut, tool life,

coolants, machinability Tool materials.

Introduction Need for non-traditional machining methods-Classification of modern machining

processes considerations in process selection. Materials. Applications.

Ultrasonic machining Elements of the process, mechanics of metal removal process parameters,

economic considerations, applications and limitations, recent development.

Abrasive jet machining, Water jet machining and abrasive water jet machine : Basic principles, equipments,

process variables, mechanics of metal removal, MRR, application and limitations.

Electrochemical Process : Fundamentals of electro chemical machining, electrochemical

grinding, electro chemical honing and deburring process, metal removal rate in ECM, Tool design,

Surface finish and accuracy economic aspects of ECM Simple problems for estimation of metal removal

rate. Fundamentals of chemical, machining, advantages and applications.

Thermal metal removal processes: General Principle and applications of Electric Discharge

Machining, Electric Discharge Grinding and electric discharge wire cutting processes Power circuits for

EDM, Mechanics of metal removal in EDM, Process parameters, selection of tool electrode and dielectric

fluids, methods surface finish and machining accuracy, characteristics of spark eroded surface and

machine tool selection. Wire EDM, principle, applications.

Generation and control of electron beam for machining, theory of electron beam machining, comparison of

thermal and non-thermal processes General Principle and application of laser beam machining thermal

features, cutting speed and accuracy of cut.

Application of plasma for machining, metal removal mechanism, process parameters, accuracy and

surface finish and other applications of plasma in manufacturing industries.

Chemical machining-principle- maskants etchants- applications.

Magnetic abrasive finishing, Abrasive flow finishing, Electro-stream drilling, Shaped tube electrolytic

machining.

REFERENCES & TEXT BOOKS:1. Advanced machining processes/ VK Jain/ Allied publishers.

1. Modern Machining Process / Pandey P.C. and Shah H.S./ TMH.

2. New Technology / Bhattacharya A/ The Institution of Engineers, India 1984.

7/31/2019 Mech Syllabus %282%29

33/58

7/31/2019 Mech Syllabus %282%29

34/58



ME 315 PRODUCTION AND OPERATION MANAGEMENTTeaching Scheme Examination Scheme


Practical/Viva

TotalMarksMS (2.0Hrs) ES (3.0Hrs)

2 1 0 5 3 40 60 25 -- -- 125

1. Introduction: Introduction to operations management- role, scope and interface with marketing, finance,

strategy.

2. Work study and Ergonomics: Work Study, Work Measurement, Activity Sampling, MOST, Ergonomics, Learning

Curve.

3. Inventory control: Deterministic and probabilistic models

4. Forecasting: Demand forecasting, Time Series, Regression Analysis and Qualitative techniques, Forecast Error.

5. Product Design and Development: Product Design and Process Selection, Service Design, Outsourcing, Make

buy decision, Value Engineering, QFD, Concurrent Engineering.

6. Facility Planning: Facility Planning- location, layout; Line balancing; Analytical tools and techniques for facility

planning and design, Single Facility Location.

7. Quality Management: Total Quality Management (TQM), Statistical Process Control (SPC); Concepts of Six-

sigma; Maintenance management and equipment replacement policies; World class manufacturing; Concepts

of supply chain management, Case studies.

8. Lean Manufacturing: Concepts of TMS (Toyota Manufacturing Systems), JIT Manufacturing, MIS, FMS,

Simulation, etc., Case Studies.

9. Maintenance Management: Maintenance planning and management: corrective, preventive and predictive

maintenance, replacement analysis.

References/Books::

1. Operations Management, Haizer, Render, and Jagdeesh, Prentice Hall.

2. Operations Management, Chase, Jacob, and Equilano, Tata McGraw Hill.

3. Operations Management, Evans and Collier, Cengage Learning.

4. Operations Management, Gaither and Frazier, Cengage Learning.


7/31/2019 Mech Syllabus %282%29

35/58


ME 316 POWER PLANT ENGINEERING


WorkPractical/

VivaTotalMarksMS (2.0Hrs) ES (3.0Hrs)

3 0 2 7 5 40 60 -- 25 25 150

1. Introduction: Power and energy, classification of sources of energy, review of thermodynamic cycles related to

power plants, fuels and combustion, steam generators and steam prime movers, steam condensers, water

turbines.

2. Variable: Load problem: industrial production and power generation compared, ideal and realised load curves,

terms and factors. effect of variable load on power plant operation, methods of meeting the variable load

problem.

3. Power plant economics and selection: Effect of plant type on costs, rates, fixed elements, energy element,

customer element and investors profit; depreciation and replacement, theory of rates. Economics of plant

section, other consideratios in plant and site selection.

4. Steam power plant : steam generator classification, critical and super critical boilers, fluidized bed boilers,boilers mountings and accessories, general layout of a steam power plant, different systems such as fluid

handling system, combustion system, draft, ash handling system, feed water treatment, and condenser and

cooling system, turbine auxiliary systems such as governing feed heating, turbine mountings, lubrication, flange

heating and gland leakage, operation and maintenance of steam power plant, heat balance and efficiency,

trouble shooting and remedies.

5. Diesel power plant : General layout, performance of diesel engine, fuel system, lubrication system, air intake

and admission system, supercharging system, exhaust system, cooling system, diesel plant operation and

efficiency, heat balance, trouble shooting and remedies.

6. Gas turbine power plant: Elements of gas turbine power plants, regeneration and reheating, cogeneration

auxiliary systems such as fuel, controls and lubrication, operation and maintenance performance and trouble

shooting and remedies.7. Nuclear power plant: Principles of nuclear energy, classification of reactors, basic components..

8. Hydro electric station: Principles of working, applications, site selection classification and arrangement of

hydro-electric plants, run off size of plant and choice of units, operation and maintenance, hydro systems

,interconnected systems.

9. Electrical system: generators and generator cooling, transformers and their cooling, bu

mech syllabus %282%29

Documents