DEPARTMENT OF MECHANICAL ENGINEERING€¦ · DEPARTMENT OF MECHANICAL ENGINEERING COURSE HANDOUT: S4 Page 2 RSET VISION RSET MISSION To evolve into a premier technological and research

Department of Mechanical Engineering

DEPARTMENT OF MECHANICAL ENGINEERING

COURSE HANDOUT: S4 Page 2

RSET VISION

RSET MISSION

To evolve into a premier technological and research institution,

moulding eminent professionals with creative minds, innovative

ideas and sound practical skill, and to shape a future where

technology works for the enrichment of mankind.

To impart state-of-the-art knowledge to individuals in various

technological disciplines and to inculcate in them a high degree of

social consciousness and human values, thereby enabling them to

face the challenges of life with courage and conviction.



DEPARTMENT VISION

DEPARTMENT MISSION

To evolve into a centre of excellence in mechanical engineering

education with an unique academic and research ambience that

fosters innovation, creativity and excellence.

To have state-of-art the infrastructure facilities.

To have highly qualified and experienced faculty from

academics, research organizations and industry.

To develop students as socially committed professionals

with sound engineering knowledge, creative minds,

leadership qualities and practical skills.



PROGRAMME EDUCATIONAL OBJECTIVES

PROGRAMME OUTCOMES

PEOI: Demonstrated the ability to analyze, formulate and solve/design engineering/real life problems based on his/her solid foundation in mathematics, science and engineering.

PEOII: Showcased the ability to apply their knowledge and skills for a successful career in diverse domains viz., industry/technical, research and higher education/academia with creativity, commitment and social consciousness.

PEOIII: Exhibited professionalism, ethical attitude, communication skill, team work, multidisciplinary approach, professional development through continued education and an ability to relate engineering issues to broader social context..

1) Engineering Knowledge: Apply the knowledge of Mathematics, Science,

Engineering fundamental, and Mechanical Engineering to the solution of

complex engineering problems.

2) Problem analysis: Identify, formulate, review research literature, and

analyse complex engineering problems reaching substantiated

conclusions using first principle of mathematics, natural science, and

engineering sciences.

3) Design/development of solutions: Design solutions for complex

engineering problems and design system components or process that

meet the specified needs with appropriate consideration for the public

health and safety, and the cultural, social and environmental

considerations.



4) Conduct investigations of complex problems: Use research- based

knowledge and research methods including design of experiments,

analysis and interpretation of data, and synthesis of information to

provide valid conclusions.

5) Modern tool usage: Create, Select, and apply appropriate techniques,

resources, and modern engineering and IT tools including prediction and

modelling to complex engineering activities with an understanding of the

limitations.

6) The engineer and society: Apply reasoning informed by the contextual

knowledge to assess societal, health, safety, legal and cultural issues and

the consequent responsibilities relevant to the professional engineering

practice.

7) Environment and sustainability: Understand the impact of the

professional engineering solutions in societal and environmental contexts,

and demonstrate the knowledge of, and need for sustainable

developments.

8) Ethics: Apply ethical principles and to commit to professional ethics and

responsibilities and norms of the engineering practice.

9) Individual and team work: Function effectively as an individual, and as a

member or leader in diverse teams, and in multidisciplinary settings.

10) Communication: Communicate effectively on complex engineering

activities with the engineering community and with society at large, such

as, being able to comprehend and write effective reports and design

documentation, make effective presentations, and give and receive clear

instructions.

11) Project management and finance: Demonstrate knowledge and

understanding of engineering and management principles and apply these

to one’s own work, as a member and leader in a team, to manage projects

and in multidisciplinary environments.

12) Life-long learning: Recognize the need for, and have the preparation

and ability to engage in independent and life-long learning in the broadest

context of technological change.

13)

14)



PROGRAMME SPECIFIC OUTCOMES

Mechanical Engineering Programme Students will be able to:

a) Apply their knowledge in the domain of engineering mechanics,

thermal and fluid sciences to solve engineering problems utilizing

advanced technology.

b) Successfully apply the principles of design, analysis and

implementation of mechanical systems/processes which have been

learned as a part of the curriculum.

c) Develop and implement new ideas on product design and

development with the help of modern CAD/CAM tools, while ensuring

best manufacturing practices.



INDEX 1. SEMESTER PLAN 2. TIME TABLE 3. ASSIGNMENT SCHEDULE 4. SCHEME 5. EN010 401: ENGINEERING MATHEMATICS III 4.1 COURSE INFORMATION SHEET 4.2 COURSE PLAN

6. EN010 402(ME): PRINCIPLES OF MANAGEMENT 5.1 COURSE INFORMATION SHEET 5.2 COURSE PLAN

7. ME 010 403: HYDRAULIC MACHINES 6.1 COURSE INFORMATION SHEET 6.2 COURSE PLAN

8. ME 010 404: MANUFACTURING PROCESS 7.1 COURSE INFORMATION SHEET 7.2 COURSE PLAN

9. ME 010 405: MACHINE DRAWING 8.1 COURSE INFORMATION SHEET 8.2 COURSE PLAN

10. ME 010 406(EE): ELECTRICAL TECHNOLOGY 9.1 COURSE INFORMATION SHEET 9.2 COURSE PLAN

11. ME 010 407 : HYDRAULIC MACHINES LAB 10.1 COURSE INFORMATION SHEET 10.2 COURSE PLAN 10.3 LAB CYCLES

12. ME 010 408(CE) : STRENGTH OF MATERIALS LAB 11.1 COURSE INFORMATION SHEET 11.2 COURSE PLAN 11.3 LAB CYCLES



SEMESTER PLAN SEMESTER PLAN



8.30-9.35 9.35-10.30 10.45-11.40 11.40-12.35 1.35-2.30 2.40-3.35 3.35-4.30 VM Ms. Vinmol. K. Jesudas

POM MATHS MP ET RK Ms. Reya Kuruvila

MB RK JFJ CAS MB Mr. Mathew Baby

MP MATHS HM POM ET HM PROJ/APPL MJ Mr. Manu Joseph

JFJ VM MJ MB CAS MJ MB ABP Mr. Abinson Paul

HM (T) JFJ Mr. Jeffin Johnson

MJ, AJ SM Mr. Senjo Manuel

MATHS ET MP (T) LIB POM (T) MP HM MGT Mr. Manoj G Tharian

RK CAS JFJ, AJK SM MB, VKP JFJ MJ USK Mr. Uday Sankar

ET POMRESEARCH/MA

THSSEP MENTORING CAS Ms. Caroline A S

CAS MB VM JM VKP Mr. Vineeth Krishna P

8.30-9.35 9.35-10.30 10.45-11.40 11.40-12.35 2.00-2.50 2.50-3.40 3.40-4.30 AJ Mr. Akash James

AJK Dr. Ajith Kumar

JM Mr. James Mathew

8.30-9.35 9.35-10.30 10.45-11.40 11.40-12.35 1.35-2.30 2.40-3.35 3.35-4.30 MP Ms. Maria Poulose

MP (T) HM (T) MATHS ET DMN Mr. Darshan Lal M Nair

JFJ, VKP TC, AJK MP T MB Mr. Mathew Baby

HM POM MP MATHS ET PROJ/APPL MP JFJ Mr. Jeffin Johnson

TC MB JFJ DMN T TC JFJ TC Mr. Tony Chacko

POM LIB HM MATHS (T) ET JP Mr. John Paul C D

MB MJ TC MP/DMN T SPA Mr. Sidheek P A

MP ET HM POM (T) JPN Mr. Jithin P N

JFJ T TC MB, TC SM Mr. Senjo Manuel

POMRESEARCH/MA

THSSEP MENTORING AAM Ms. Amritha

MB MP JPN USK Mr. Uday Sankar K

8.30-9.35 9.35-10.30 10.45-11.40 11.40-12.35 2.00-2.50 2.50-3.40 3.40-4.30 MJ Mr. Manu Joseph

AJK Dr. Ajith Kumar

VKP Mr. Vineeth Krishna P

MD

MGT, USK, JFJ

S4 M

E α

LU

NC

H B

RE

AK

CT

: M

r.JA

ME

S M

AT

HE

W

CA

: M

r. S

EN

JO

MA

NU

EL

MONHM/SM LAB

VKP, ABP, JFJ

TUE

WEDHM/SM LAB

VKP, ABP, JFJ

THU

FRIMD

MGT, USK, JFJ

CT

: M

r.JIT

HIN

P N

CA

: M

r. M

AT

HE

W B

AB

Y

MON

TUE

WEDMD

JPN, SM, JP

THU LU

NC

H B

RE

AK

HM/SM LAB

USK, TC, SM

FRI

MD

HM/SM LAB

USK, TC, SM

S4 M

E β

JPN, SM, JP

TIME TABLE



ASSIGNMENT SCHEDULE

Week 4 EN010 401: ENGINEERING MATHEMATICS III Week 5 EN010 402(ME): PRINCIPLES OF MANAGEMENT Week 5 ME 010 403: HYDRAULIC MACHINES Week 6 ME 010 404: MANUFACTURING PROCESS Week 7 ME 010 405: MACHINE DRAWING Week 8 ME 010 406(EE): ELECTRICAL TECHNOLOGY Week 8 EN010 401: ENGINEERING MATHEMATICS III Week 9 EN010 402(ME): PRINCIPLES OF MANAGEMENT Week 9 ME 010 403: HYDRAULIC MACHINES

Week 12 ME 010 404: MANUFACTURING PROCESS Week 12 ME 010 405: MACHINE DRAWING Week 13 ME 010 406(EE): ELECTRICAL TECHNOLOGY



SCHEME

EN010 401 ENGINEERING MATHEMATICS III S4ME


COURSE INFORMATION SHEET

PROGRAMME: MECHANICAL

ENGINEERING

DEGREE: BTECH

COURSE: ENGINEERING MATHEMATICS III SEMESTER: S4 CREDITS: 4

COURSE CODE: EN010 401

COURSE TYPE: CORE

UNIVERSTY: M G UNIVERSITY

REGULATION: 2010

COURSE AREA/DOMAIN: MATHEMATICS CONTACT HOURS: 2+2 (Tutorial)

hours/Week

CORRESPONDING LAB COURSE CODE (IF

ANY): NIL

LAB COURSE NAME: NA

SYLLABUS:

UNIT DETAILS HOURS

I Fourier series Dirichlet conditions – Fourier series with period 2 p and 2l – Half range sine and cosine series –Harmonic Analysis – r.m.s Value

12

II Fourier Transform Statement of Fourier integral theorem – Fourier transforms – derivative of transforms- convolution theorem (no proof) – Parsevals identity

12

III Partial differential equations Formation by eliminating arbitrary constants and arbitrary functions – solution of Lagrange’s equation –Charpits method –solution of Homogeneous partial differential equations with constant coefficients

12

IV Probability distribution Concept of random variable , probability distribution – Bernoulli’s trial – Discrete distribution – Binomial distribution – its mean and variance- fitting of Binominal distribution – Poisson distribution as a limiting case of Binominal distribution – its mean and variance – fitting of Poisson distribution – continuous distribution- Uniform distribution – exponential distribution – its mean and variance – Normal distribution – Standard normal curve- its properties

12

V Testing of hypothesis Populations and Samples – Hypothesis – level of significance – type I and type II error – Large samples tests – test of significance for single proportion, difference of proportion, single mean, difference of mean – chi –square test for variance- F test for equality of variances for small Samples

12

TOTAL HOURS 60

TEXT/REFERENCE BOOKS:

T/R BOOK TITLE/AUTHORS/PUBLICATION

R1 Bali & Iyengar – A text books of Engg. Mathematics – Laxmi Publications Ltd.



R2 M. K. Venkataraman – Engg. Mathematics vol II 3rd year part A & B – National

Publishing Co.

R3 I. N. Sneddon – Elements of partial differential equations – Mc Graw Hill

R4 B. V. Ramana – Higher Engg. Mathematics – Mc Graw Hill

R5 Richard A. Johnson – Miller Fread’s probability & Statistics for Engineers- Pearson/ PHI

R6 T. Veerarajan – Engg. Mathematics – Mc Graw Hill

R7 G. Haribaskaran – Probability, Queueing theory and reliability Engg. – Laxmi

Publications

R8 V. Sundarapandian - probability ,Statistics and Queueing theory – PHI

R9 H. C. Taneja – Advanced Engg. Mathematics Vol II – I. K. International

R10 A. K. Mukhopadhyay - Mathematical Methods For Engineers and Physicists - I. K.

International

COURSE PRE-REQUISITES:

C.CODE COURSE NAME DESCRIPTION SEM

Higher Secondary level

Mathematics

Idea about fundamentals of

calculus and probability theory

Plus

Two

EN 010

101

Engineering

Mathematics I

To generate concept about partial

differentiation and integration S1S2

COURSE OBJECTIVES:

1 Apply standard methods of mathematical &statistical analysis

COURSE OUTCOMES:

SL NO DESCRIPTION BLOOMS’

TAXONOMY

LEVEL

C401.1 Graduates will develop a thorough knowledge of fourier series, and its applications in engineering.

C401.2 Graduates will develop a thorough knowledge of fourier transform,

properties of transforms and its applications in engineering.

C401.3 Graduates will be able to have a thorough knowledge in partial

differential equations and applications.

C401.4 Graduates will be able to understand basics of probability theory

and applications.

C401.5 Graduates will be able to understand the fundamentals of testing

and its scope and applications.



CO-PO AND CO-PSO MAPPING

PO

1

PO

2

PO

3

PO

4

PO

5

PO

6

PO

7

PO

8

PO

9

PO

10

PO

11

PO

12

PSO

1

PSO

2

PSO

3

C401.1

C401.2

C401.3

C401.4

C401.5 -

GAPS IN THE SYLLABUS - TO MEET INDUSTRY/PROFESSION REQUIREMENTS:

SL

NO

DESCRIPTION PROPOSED

ACTIONS

1 Application of ordinary differential equation in Engineering

disciplines

Assignment

2 Theory and concept Partial differential equations Lectures

3 ANOVA test, Analysis of variance Lectures

4 Characteristics of good estimation Discussion PROPOSED ACTIONS: TOPICS BEYOND SYLLABUS/ASSIGNMENT/INDUSTRY VISIT/GUEST LECTURER/NPTEL ETC

TOPICS BEYOND SYLLABUS/ADVANCED TOPICS/DESIGN:

1 Finding the application of Fourier series in different branches of engineering.

2 Finding the application of Fourier transform in different branches of engineering.

3 Importance of Partial Differential Equations in Engineering

4 Application of Probability theory in different branches of engineering

5 Applications of testing and hypothesis in different branches of engineering

WEB SOURCE REFERENCES:

1 en.wikipedia.org/wiki/Fourier_series https://www.google.co.in/ - #

2 mathworld.wolfram.com › Calculus and Analysis › Series › Fourier Series

3 www.csie.ntnu.edu.tw/~ipcv/Leader/teaching/em/em_ch13.doc

4 www.thefouriertransform.com

5 en.wikipedia.org/wiki/Partial_differential_equation

6 www.math.umn.edu/~olver/pdn.html

7 www.itl.nist.gov/div898/handbook/eda/section3/eda36.htm

8 www.sagepub.com/upm-data/40007_Chapter8.pdf

DELIVERY/INSTRUCTIONAL METHODOLOGIES:



☑ CHALK & TALK ☑ STUD. ASSIGNMENT ☐ WEB RESOURCES

☐ LCD/SMART

BOARDS

☐ STUD. SEMINARS ☐ ADD-ON COURSES

ASSESSMENT METHODOLOGIES-DIRECT

☑ ASSIGNMENTS ☐ STUD.

SEMINARS

☑ TESTS/MODEL

EXAMS

☑UNIV.

EXAMINATION

☐ STUD. LAB

PRACTICES

☐ STUD. VIVA ☐ MINI/MAJOR

PROJECTS

☐ CERTIFICATIONS

☐ ADD-ON

COURSES

☐ OTHERS

ASSESSMENT METHODOLOGIES-INDIRECT

☑ASSESSMENT OF COURSE OUTCOMES (BY

FEEDBACK, ONCE)

☑ STUDENT FEEDBACK ON FACULTY

(TWICE)

☐ ASSESSMENT OF MINI/MAJOR PROJECTS

BY EXT. EXPERTS

☐ OTHERS



COURSE PLAN

Module 1

Module 2

Sl. No. Topic No. of lecture hours Reference Books

1 Fourier series-introduction

1

1. Bali & Iyengar – A text books of Engg. Mathematics – Laxmi Publications Ltd.

2. H. C. Taneja – Advanced

Engg. Mathematics Vol II – I. K. International

3. B.V. Ramana - Higher Engg. Mathematics – McGraw Hill

2 Fourier series with period 2p and 2l

1

3 half range sine series 1

4 half range cosine series 1

5 harmonic analysis

1

6 r.m.s value and Parseval's identity 1

7 Problems 6

Total hours : 12


1 Fourier transforms 1

1. Bali & Iyengar – A text books of

Engg. Mathematics – Laxmi

Publications Ltd.

2. H. C. Taneja – Advanced Engg.

Mathematics Vol II – I. K.

International

3. B.V. Ramana - Higher Engg.

Mathematics – McGraw Hill

2 Fourier sine integral and cosine integral

1

3 Fourier cosine and sine transform 1

4 inverse transform 1

5 convolution theorems 1

6 Transforms of derivative 1

7 Problems 6

Total hours : 12



Module 3

Module 4


1 Partial differential equation- Formation

1



Publications Ltd.

2. H I. N. Sneddon – Elements of

partial differential equations–

Mc Graw Hill



2 Solution of Lagrange linear equations

2

3 Charpit’s method 1

4 Solution of P.D.E with constant

Coefficient

2

5 Problems 6

Total hours : 12


1 Probability and statistics 2



Publications Ltd.

2. Richard A. Johnson – Miller

Fread’s probability & Statistics

for Engineers- Pearson/ PHI



2 Binomial distribution -Mean and

Variance 1

3 Poisson distribution 1

4 fitting of binomial and Poisson

distributions 1

5 Normal distribution 1

6 Problems

6

Total hours : 12



Module 5


1 Sampling distribution of Mean and variance

1

1. G. Haribaskaran –Probability,

Queueing theory and reliability

Engg. – Laxmi Publications

2. V. Sundarapandian probability

Statistics and Queueing theory

– PHI



2 F and chi square test, Level of significance, type 1 and type 2 error

2

3 Test of significance of large samples,

single proportions, difference proportions

2

4 Test of difference proportions, Single mean and difference mean

1

5 Problems 6

Total hours : 12

EN010 402 (ME) PRINCIPLES OF MANAGEMENT S4ME




ENGINEERING

DEGREE: BTECH

COURSE: PRINCIPLES OF MANAGEMENT SEMESTER: 4 CREDITS: 4

COURSE CODE: EN 010 402(ME)

COURSE TYPE: CORE


REGULATION: 2010

COURSE AREA/DOMAIN:

INDUSTRIAL MANAGEMENT

CONTACT HOURS: 3+1 (Tutorial)

Hours/Week.


ANY): NIL

LAB COURSE NAME: NA

SYLLABUS:

UNIT DETAILS HOURS

I Management Concepts: Vision, Mission, Goals and Objectives of management-MBO Scientific management- Functions of management- Planning- Organizing- Staffing-Directing- Motivating- Communicating- Coordinating- Controlling- Authority and Responsibility- Delegation- Span of control- Organizational structure- Line, Line and staff and Functional relationship.

10

II Personnel Management: Definition and concept- Objectives of personnel management- Manpower planning- Recruitment and Selection of manpower- Training and development of manpower- Labour welfare- Labour turnover- Quality circle- Industrial fatigue- Industrial disputes-Method of settling disputes- Trade unions.

10

III Production management: Objectives and scope of production management- Functions of production department- production management frame work- product life cycle-Types of production- Production procedure- Project planning with CPM and PERT- Basic concepts in network.

9L +

6T

IV Financial Management: Objectives and Functions of Financial Management- Types of Capital- Factors affecting working capital- Methods of financing. Cost Management: Elements of cost- Components of cost- Selling Price of a product.

9L +

1T

V Sales and Marketing Management: Sales management- Concept- Functions of sales department- Duties of sales engineer- Selling concept and Marketing concept Marketing- Definition and principles of marketing- Marketing management and its functions- Sales Forecasting- Pricing- Advertising- Sales promotion- Channels of distribution- Market research.

11L +

4T

TOTAL HOURS 60





T1 Rajesh Kumar R, Principles of Management, Jyothis Publishers

T2 L R Potti, Operations Research, Yamuna Publications

R1 Mahajan M., Industrial Engineering and Production Management, Dhanpat Rai and

Co.

R2 Khanna O.P., Industrial Engineering and Management, Dhanpat Rai and Co.

R3 Prasanna Chandra, Financial Management, Tata McGraw Hill

R4 Kemthose and Deepak, Industrial Engineering an Management, Prentice Hall of India.

R5 Koontz and Weihrich, Essentials of Management, Tata McGraw Hill.

R6 Martand Telsang, Industrial Engineering and Production Management.

R7 Philip Kotler, Marketing Management, Prentice Hall of India.

R8 Sharma S. C. & Banga T. R., Industrial Organisation and Engineering Economics,

Khanna Publishers.



EN 010 302

ECONOMICS AND COMMUNICATION

SKILLS Basic knowledge in economics S3

Basic knowledge in mathematical

calculations Plus Two

COURSE OBJECTIVES:

1 To develop an understanding of different functional areas of management

2 To understand the functions and duties an individual should perform in an Organization

COURSE OUTCOMES:


TAXONOMY

LEVEL

C402.1 Students will be able to explain the concepts of Management and its functions, Scientific Management, MBO etc.

Explain

(level 2)

C402.2 Students will be able to develop organizational structures as per requirements and list the authorities, responsibilities for its various levels.

Develop

(level 3)



C402.3 Students will be able to state and explain the various functions of personnel management and summarize on concepts like labour welfare, industrial fatigue, trade unions, quality circle etc.

State &

Explain

(level 1 &

2)

Summarize

(level 2 )

C402.4 Students will be able to construct network diagrams and analyze project networks using network analysis techniques like PERT, CPM, Djikstra’s algorithm etc.

Construct

(level 3)

Analyze

(level 4)

C402.5 Students will be able to describe production management, its framework and procedure, product life cycle and types of production systems (with examples)

Describe

(level 2)

C402.6 Students will be able state and describe the various types of capital, its sources, cost elements in business and the components of cost.

State &

Describe

(level 1 &

2)

C402.7 Students will be able calculate sales forecasts and break-even quantities

Calculate

(level 4)

C402.8 Students will be able discuss the various function of sales and marketing management like pricing, advertising, sales promotion etc.

Discuss

(level 2)


PO

1

PO

2

PO

3

PO

4

PO

5

PO

6

PO

7

PO

8

PO

9

PO

10

PO

11

PO

12

PSO

1

PSO

2

PSO

3

C402.1 - - - - - - - - 3 - 2 - - - -

C402.2 - - - - - - - - 3 - 3 - - - -

C402.3 - - - - - - - - 3 - 2 - - - -

C402.4 - - - - - - - - - 3 - - - 1

C402.5 - - - - - - - - 3 - 2 - - - -

C402.6 - - - - - - - - - 2 - - - -

C402.7 - - - - - - - - - 3 - - - -

C402.8 - - - - - - - - 3 - 2 - - - -


SL

NO

DESCRIPTION RELEVANCE

WITH POs

RELEVANCE

WITH PSOs

PROPOSED

ACTIONS

1 Inventory Control and Systems for

Inventory Control

NPTEL



2 TQM(Total Quality Management)

NPTEL


SL

NO DESCRIPTION

RELEVANCE

WITH POs

RELEVANCE

WITH PSOs

PROPOSED

ACTIONS

1 Crashing analysis

Additional

Classes +

Study

Material

2 Dijkstra method

Additional

Classes +

Study

Material


1 http://www.nptel.iitm.ac.in/courses/IIT-MADRAS/Management_Science_I/Pdfs/1_1.pdf

2 http://www.youtube.com/watch?v=dLUb62LLX9o

3 http://www.youtube.com/watch?v=hMeRiAyzjdY

4 http://www.youtube.com/watch?v=gAaCG516TVo

5 http://www.youtube.com/watch?v=BYiv4DVtyO4

6 http://www.youtube.com/watch?v=17JMFvMmT3w

7 http://optlab-server.sce.carleton.ca/POAnimations2007/DijkstrasAlgo.html

8 http://www.youtube.com/watch?v=KtLphGqNaxk

9 http://nptel.iitm.ac.in/courses/Webcourse-contents/IIT-

Delhi/project%20and%20production%20management/


☑ CHALK & TALK ☑ STUD. ASSIGNMENT ☑ WEB RESOURCES

☑ LCD/SMART BOARDS ☐ STUD. SEMINARS ☐ ADD-ON COURSES


☑ ASSIGNMENTS ☐ STUD. SEMINARS ☑ TESTS/MODEL

EXAMS

☑ UNIV.

EXAMINATION

☐ STUD. LAB ☐ STUD. VIVA ☐ MINI/MAJOR ☐ CERTIFICATIONS



PRACTICES PROJECTS

☐ ADD-ON COURSES ☐ OTHERS


☑ ASSESSMENT OF COURSE OUTCOMES (BY

FEEDBACK, ONCE)


(TWICE)

☐ ASSESSMENT OF MINI/MAJOR PROJECTS BY

EXT. EXPERTS

☐ OTHERS



COURSE PLAN

Day Topic Module

1 Introduction to Management, Levels of Management 1

2 Management, Functions of Management - Forecasting and Planning 1

3 Functions of Management - Organizing, Staffing and Directing 1

4 Functions of Management - Co-ordinating, Controlling and Decision

Making 1

5 Responsibility and Authority Delegation, Span of Control 1

6 Scientific Management - Contributions by F.W Taylor 1

7 Scientific Management - Henry Fayol 1

8 Organizational Structures 1

9 Management by Objectives (MBO) 1

10 Personnel Management - Concept, Definition and Objectives 2

11 Functions - Man Power Planning, and Recruitment 2

12 Functions - Selection of Manpower and Training and Development of

Manpower 2

13 Labour Welfare and Labour Turnover 2

14 Quality circle and Industrial fatigue 2

15 Industrial Disputes and Methods of Settling disputes 2

16 Trade Unions 2

17 Production Management - Objectives and Scope 3

18 Production Management - Framework and Functions 3

19 Product Life cycle and Production Procedure 3

20 Types of Production Systems 3

21 Project Planning using Network analysis - Objectives and Steps; Terms in

Network analysis 3

22 CPM + Problems 3



23 CPM + Problems 3

24 PERT + Problems 3

25 PERT + Problems 3

26 Extra Problems - Crashing analysis 3

27 Extra Problems - Dijkstra’s algorithm 3

28 Financial Management - Importance, Objectives and Functions 4

29 Financial Management - Functions 4

30 Types of Capital, Factors affecting Working Capital 4

31 Methods of Financing 4

32 Cost Management - Introduction, Elements of cost, classification of cost 4

33 Components of Cost 4

34 Sales Management - Concept and Function 5

35 Duties of a sales Engineer, Selling Concept and marketing Concept 5

36 Marketing - Definition and Concept 5

37 Marketing Management and Functions 5

38 Sales Forecasting 5

39 Sales Forecasting 5

40 Pricing 5

41 Advertising & Sales Promotion 5

42 Channels of distribution 5

43 Market Research 5

44 Question Paper Discussion

ME 010 403 HYDRAULIC MACHINES S4ME




ENGINEERING

DEGREE: BTECH

COURSE: HYDRAULIC MACHINES SEMESTER: IV CREDITS: 4

COURSE CODE: ME010 403

COURSE TYPE: CORE


REGULATION: 2010

COURSE AREA/DOMAIN: FLUID SCIENCE CONTACT HOURS: 2+2 (Tutorial)

hours/Week


ANY): ME010 407

LAB COURSE NAME: HYDRAULIC

MACHINES LABORATORY

SYLLABUS:

UNIT DETAILS HOURS

I Dynamic Action of Fluid Impulse Momentum equation – applications – impact of jet, flow of an incompressible fluid over fixed and moving vanes – work done and efficiency – reaction principle – propulsion of ships. Basic equation of energy transfer in roto-dynamic machines - components of energy transfer-Classification-Axial flow, radial flow, impulse and reaction machines.

9L +

3T

II Hydraulic turbines

Classification – impulse and reaction turbines – Euler`s turbine equation- velocity triangles - Pelton wheel, Francis turbine Kaplan turbine – construction features and performance characteristics – theory of draft tube – speed regulation of turbines – run away speed- selection, type and speed of turbines.

6L +

2T

III Pumping machinery General classification –Roto-dynamic pumps - construction features- classification of impellers, impeller shapes – types of casings -working of centrifugal pumps, priming, Euler`s head equation – velocity triangles – losses, head and efficiencies– performance pump characteristics: main, operating characteristics curves- selection of pumps from performance curves – NPSHrequired– NPSHavailable– multistage pumps – pumps in parallel & series operation- propeller pumps.

8L +

2T

IV Dimensional analysis Rayleigh’ s method – Buckingham’s Pi theorem – non dimensional parameters in fluid mechanics and fluid machinery – principle of similitude, geometric, kinematic and dynamic similarity – model studies. Non dimensional numbers (Reynold’s number, Froude’s number, Euler’s number, Weber’s number and Mach’s number) Non dimensional parameters for incompressible flow machines Head coefficient, Power coefficient, Reynolds number, shape number, specific speed – Non dimensional performance curves for pumps- effect of change of outlet vane angle, impeller diameters and speed–Principle of

12L +

3T



similitude- Non dimensional parameters for comparative study of turbine performance – unit speed, unit power, unit quantity, geometric similarity – model laws – effect of specific speed on runner speed, runner size, flow type etc. Cavitation in fluid machines Installations susceptible to cavitation – collapse of bubble theory – Thoma`s prameter – factors affecting cavitation in pumps and turbines –prevention of cavitation damage.

V Positive displacement pumps

Reciprocating pump, effect of vapour pressure on lifting of liquid – indicator diagram – acceleration head – effect of friction – use of air vessels – work saved – Slip - efficiency – pump characteristics – applications.

Theory & application of self-priming pump, jet pump, airlift or compressor pump, slurry pump, hydraulic ram - Positive displacement Rotary pumps: Gear, screw, vane pumps. Hydraulic accumulator, intensifier, fluid coupling & lift – principle of operation- hydraulic cranes, hydraulic press- Hydraulic symbols (Description only, no problems).

12

TOTAL HOURS 60



T1 Jagadishlal, Hydraulic Machines, Metropolitan Publishers.

T2 Modi & Seth, Fluid Mechanics & Hydraulic Machines, Laxmi Publications, New Delhi

T3 R.K. Rajput, Fluid Mechanics & Hydraulic Machines, S. Chand & Company.

T4 R.K Bansal, Fluid Mechanics & Hydraulic Machines

T5 D.S Kumar, Fluid Mechanics and Fluid Power Engineering, S.K Katria & Sons

T6 Yunus A. Cengel & John M. Cimbala, Fluid Mechanics, Tata McGraw Hill

R1 Som S K and Biswas G, Introduction to fluid mechanics and fluid machines, TMH.

R2 John F. Douglas, Janusz M. Gosiorek, Fluid Mechanics, Pearson



ME 010 108 Basic

Mechanical Engineering

Knowledge about various Mechanical

components.

S1S2

ME 010 104 Engineering Mechanics Vectors, forces and its resolution,

Moments, Linear and angular momentum,

Work , Energy & Power

S1S2

ME 010 303 Fluid Mechanics Knowledge on fluid fundamentals S3



COURSE OBJECTIVES:

1 To train students to acquire the knowledge and skill of analyzing different turbo

machines.

2 To prepare the students to solve complex problems related to fluid forces on a vane.

3 To Introduce the concepts of design aspects of hydraulic machines like turbines and pumps and their applications.

4 Describe the operating characteristics of hydraulic machinery (pumps and

turbines), and the factors affecting their operation and specifications, as well as

their operation in a system.

5 To prepare the students to apply principles of dimensional analysis and similitude to various problems and use dimensionless parameters for model analysis.

COURSE OUTCOMES:


TAXONOMY

LEVEL

C403.1 Students will be able to define the principles and working of Hydraulic Machines.

Knowledge

(level1)

C403.2 Students will be able to estimate the hydrodynamic forces on various types of vanes and to calculate the performance of various hydraulic machines.

Evaluate

(level 5)

C403.3 Students will be able to design an appropriate pump/turbine with reference to given application/situation. Carry out calculations involved in design of pump/turbine.

Synthesis

(level 6 )

C403.4 Students will be able to understand the relation between various performance parameters and to interpret characteristic curves of a given pump/turbine.

Evaluate

(level 5)

C403.5 Students will be able to establish functional relationship between variables using dimensional analysis technique and to perform model analysis.

Analyse

(level 4)


PO

1

PO

2

PO

3

PO

4

PO

5

PO

6

PO

7

PO

8

PO

9

PO

10

PO

11

PO

12

PSO

1

PSO

2

PSO

3

C403.1 1 1 1 - - 1 2 - - - - 3 - - -

C403.2 3 3 1 - - 2 2 - - - - 3 1 - -

C403.3 3 3 3 - - - 1 - - - - 3 - 2 -

C403.4 1 3 3 3 - - - - - - - - - 2 -



C403.5 2 2 3 1 - - - - - - - 3 - -


SL

NO


WITH POs

RELEVANCE

WITH PSOs

PROPOSED

ACTIONS

1 Reynolds Transport Theorem 1, 2,3, 4, 5

1, 2

Class notes +

Additional class

2 Wind Tunnels 1, 3,4,5 2 Video lectures


SL

NO


WITH POs

RELEVANCE

WITH PSOs

PROPOSED

ACTIONS

1 Introduction to software methods to

analyse mechanical engineering

problems.

5

1

Video Lectures + Reference

book


1 http://nptel.ac.in/courses/Webcourse-contents/IIT

KANPUR/machine/ui/Course_home-7.htm

2 http://nptel.ac.in/courses/112105182/9

3 http://www.slideshare.net/ArchieSecorata/fluid-mechanicsfundamentals-and-

applications-by-cengel-cimbala-3rd-c2014-txtbk

4 https://www.youtube.com/watch?v=RBVgwpYUp18

5 https://www.youtube.com/watch?v=KqfYobOYRTc



☑ LCD/SMART BOARDS ☐ STUD. SEMINARS ☐ ADD-ON COURSES


http://nptel.ac.in/courses/112105182/9

http://www.slideshare.net/ArchieSecorata/fluid-mechanicsfundamentals-and-applications-by-cengel-cimbala-3rd-c2014-txtbk

http://www.slideshare.net/ArchieSecorata/fluid-mechanicsfundamentals-and-applications-by-cengel-cimbala-3rd-c2014-txtbk

https://www.youtube.com/watch?v=RBVgwpYUp18

https://www.youtube.com/watch?v=KqfYobOYRTc




EXAMS

☑ UNIV.

EXAMINATION

☐ STUD. LAB

PRACTICES


PROJECTS

☐ CERTIFICATIONS




FEEDBACK, ONCE)


(TWICE)


EXT. EXPERTS

☐ OTHERS

COURSE PLAN



Day Topic Module

1 Dynamic Action of Fluid - Introduction - Basic laws - System and

control volume formulations - The RTT 1

2 Impulse Momentum equation -applications -– impact of jet – flow of

an incompressible fluid over fixed and moving vanes 1

3 Impact of jet - continued – work done and efficiency 1

4 Basic equation of energy transfer in roto-dynamic machines -

components of energy transfer. 1

5 Classification-Axial flow, radial flow, impulse and reaction machines,

Reaction principle 1

6 Propulsion of ships. 1

7 Solution of numerical problems (T) 1


9 Hydraulic turbines: Classification-– impulse and reaction turbines –

Euler`s turbine equation 2

10 construction features- Pelton wheel, Francis turbine Kaplan turbine 2

11 Velocity triangles - Pelton wheel, Francis turbine Kaplan turbine 2


13 Performance characteristics of turbines 2

14 Theory of draft tube 2

15 Speed regulation of turbines – run away speed 2


17 Selection, type and speed of turbines 2

18 Pumping machinery: General classification –Roto dynamic pumps 3

19 Construction features- classification of impellers, impeller shapes –

types of casings 3

20 Working of centrifugal pumps 3

21 Priming, Euler`s head equation 3



22 Velocity triangles – losses, head and efficiencies 3

23 Performance pump characteristics: main, operating characteristics

curves- 3

24 Selection of pumps from performance curves– NPSH required– NPSH

available, Pumps – pumps in parallel & series operation- propeller

pumps.

3



27 Dimensional analysis – Rayleigh’ s method – Buckingham’s Pi theorem 4

28 Solution of problems 4

29 Principle of similitude, geometric, kinematic and dynamic similarity ,

model studies 4

30 Non dimensional numbers (Reynold’s number, Froude’s number,

Euler’s number, Weber’s number and Mach’s number) 4

31 Non dimensional parameters for incompressible flow machines. 4

32 Capacity coefficient, Head coefficient, Power coefficient, Reynolds

number, shape number, specific speed. 4

33

Non dimensional performance curves for pumps- effect of change of

outlet vane angle, impeller diameters and speed–Principle of

similitude- Non dimensional parameters for comparative study of

turbine performance – unit speed, unit power, unit quantity,

4

34 geometric similarity – model laws – effect of specific speed on runner

speed, runner size, flow type etc. 4

35 Cavitation in fluid machines – installations susceptible to cavitation,

collapse of bubble theory – Thoma`s prameter – factors affecting

cavitation in pumps and turbines –prevention of cavitation damage.

4

36 Solution of problems 4

37 Positive displacement pumps: reciprocating pump, 5

38 effect of vapour pressure on lifting of liquid – 5

39 – indicator diagram – acceleration head – effect of friction – use of air

vessels 5



40 – work saved – Slip - efficiency 5

41 Theory & application of self-priming pump, jet pump, airlift or

compressor pump 5

42 Slurry pump, hydraulic ram-- Positive displacement Rotary pumps:

Gear, screw, vane pumps. 5

43 Hydraulic accumulator, intensifier, fluid coupling & lift – principle of

operation- hydraulic cranes, hydraulic press- Hydraulic symbols 5

ME010 404 MANUFACTURING PROCESSES S4ME




ENGINEERING

DEGREE: BTECH

COURSE: MANUFACTURING PROCESS SEMESTER: 4 CREDITS: 4


COURSE TYPE: CORE


REGULATION: 2010

COURSE AREA/DOMAIN:

PRODUCTION ENGINEERING


Hours/Week.


ANY): NIL

LAB COURSE NAME: NA

SYLLABUS:

UNIT DETAILS HOURS

I Patterns: - types, allowances, color code – Molding sand:- constituents, types, properties, testing, types of mould, molding machines – Cores:- sands, types prints, machines, chaplets, forces acting on molding flasks - Gating system:- fluid flow and heat transfer in metal casting, elements and design of gating system, sprue, gating ratio, slag trap system – Risering:- risering design, chills, feeding devices - Cupola operation -pouring and cleaning of castings - defects in castings - inspection and quality control - Casting:- continuous, strip, shell mold, vacuum, investment, slush, pressure, die, centrifugal, precision investment, squeeze casting and semi-solid metal forming, economics and surface finish obtainable - casting machines - comparison of casting with other production processes. (Include necessary figures and equations).

12

II Welding:- diffusion, definition of welding, metallurgy of welding, applications, classification, mechanism - welding design:- effect of weld parameters on weld quality, heat input, heat flow and distortions - Gas welding:- details, equipment, fluxes and filler rods – flame cutting – Arc welding:- applications, equipment, polarity, governing factor in fusion welding – electrodes and types – TIG - GMA - CO2 process - Submerged arc, electroslag, plasma arc and flux cored arc welding - Resistance, thermit solid state welding - Electron and laser beam welding – explosive welding - inspection and defects in welding - heat affected zone, grain size variations in joint strength - Brazing and soldering - adhesive bonding – Extrusion: Metal flow – mechanism and types – extrusion defects.

12

III Rolling:- principles - types of rolls and rolling mills - mechanics of flat rolling, roll pressure distribution - neutral point - front and back tension, roll forces in hot rolling, roll torque and power, friction, deflection and flattening - friction and lubrication in metal forming - defects - hot and cold rolling - rolling machines - strip velocity and roll velocity - roll and roll pass design - theories of rolling and effect of parameters - load calculation - rolling of tubes, wheels, axles, I-beam thread, gear rolling.

12

IV Forging:- classification - open die forging, forces and work of deformation - Forging methods analysis:- slab method only, solid cylindrical,

12



rectangular work piece in plane strain, forging under sticking condition - deformation zone geometry – die forging:- impression, close, coining, skew rolling etc. – defects in forging – forgeability tests – die design and materials – equipments - heating in forging - quality assurance for forging -non-destructive testing - mechanics of rod and wire Drawing:- ideal deformation, ideal deformation and friction, drawing of flat strips etc – drawing defects – drawing practices.

V Locating methods:- methods, degrees of freedom - principle of clamping:- clamping types - work holding principle – Die cutting:- Different types - shearing - types of presses –cutting action in punch and die operations – die clearances – types of die:- progressive, compound, combination die – Bending dies:- bending methods, minimum bend radius, bendability, spring back, forces, bend allowances – Forming dies:- solid form, curling, embossing, coining, bulging dies - Shear and tube spinning - High energy rate forming:- need, energy sources - material behavior - pneumatic, mechanical, electrohydraulic, electromagnetic, and explosive forming – Deep drawing:- deep drawability, punch forces.

12

TOTAL HOURS 60



R1 Manufacturing Science - Amitabha Ghosh and Ashok Kumar Mallick

R2 Manufacturing Engineering and Technology - Kalapakjian and Schmid

R3 Principles of Metal Casting - Hine and Rosenthal

R4 Foundry Technology - P.R.Beeley



ME 010

108

Basic Mechanical

Engineering

Preliminary Knowledge about

various Mechanical Manufacturing

methods.

S1S2

ME 010

303 FLUID MECHANICS

To have knowledge in fluid

mechanics theories S3

- MATHEMATICS Basic knowledge in mathematical

calculations Plus Two

COURSE OBJECTIVES:

1 To gain theoretical and practical knowledge in material casting processes and develops an understanding of the dependent and independent variables which



control materials casting in a production processes. 2 Provide a detailed discussion on the welding process and the physics of welding.

Introduce students to different welding processes weld testing and advanced processes to be able to appreciate the practical applications of welding.

3 The course will also provide methods of analysis allowing a mathematical/physical description of forming processes.

COURSE OUTCOMES:


TAXONOMY

LEVEL

C404.1 Students will get the ability to distinguish various Manufacturing methods.

Distinguish

Level 2

C404.2 Students will be able to describe various casting, forming and joining methods.

Describe

Level 2

C404.3 Students will develop the ability to apply a manufacturing process to develop a product as per a mechanical design.

Apply

Level 3

C404.4 Students will get knowledge to analyze various forming parameters like forging load, rolling pressure, etc.

Analyze

Level 4

C404.5 Enable students to compare various manufacturing processes like casting, forging, rolling, etc on the basis of its mode of operation.

Compare

Level 5


PO

1

PO

2

PO

3

PO

4

PO

5

PO

6

PO

7

PO

8

PO

9

PO

10

PO

11

PO

12

PSO

1

PSO

2

PSO

3

C404.1 2 2 2 3 3 1 - - 3 3 3 2 2 2 3

C404.2 3 2 1 2 2 - - - 1 2 2 3 3 3 3

C404.3 3 3 2 3 3 2 - 1 2 2 2 3 3 3 3

C404.4 3 3 2 2 2 - - - 2 2 2 2 3 3 3

C404.5 3 2 - 1 2 - - - - - - 2 2 3 1


SL

NO DESCRIPTION

RELEVANCE

WITH POs

RELEVANCE

WITH PSOs

PROPOSED

ACTIONS

1 Powder Metallurgy

NPTEL Lectures +

Books



2 Forging and welding practical’s Industrial

training


SL

NO DESCRIPTION

RELEVANCE

WITH POs

RELEVANCE

WITH PSOs

PROPOSED

ACTIONS

1 Powder metallurgy

2 Conventional and Non-Conventional

machining processes


1 www.youtube.com/manufacturing

2 http://www.nptel.iitm.ac.in/courses/IIT



☑ LCD/SMART BOARDS ☑ STUD. SEMINARS ☐ ADD-ON COURSES



EXAMS

☑ UNIV.

EXAMINATION

☐ STUD. LAB

PRACTICES


PROJECTS

☐ CERTIFICATIONS




FEEDBACK, ONCE)


(TWICE)


EXT. EXPERTS

☐ OTHERS



COURSE PLAN

Day Topic Module

1 Introduction to casting process

Types of patterns 1

2

Pattern allowances and color codes, Molding sand-constituents and types

Properties and testing of molding sand 1

3 Types of molding machines, About cores and core sand

Core prints, chaplets, Forces acting on moulds 1

4

Gating system-fluid flow and heat transfer in metal casting

Elements and design of casting system-sprue, gating ratio, slag trap system

1

5 Risering design-risering design, chills and feeding devices

Cupola operation 1

6 Pouring and cleaning of castings, defects in casting

Inspection and quality control 1

7 Continous, strip, shell mold, vaccum casting 1

8 Investment, slush, pressure die, centrifugal, squeeze casting and semi-solid metal forming 1

9 Economics and surface finish obtainable, casting machines, comparison of casting with other manufacturing processes 1

10 Introduction to welding

Diffusion, metallurgy of welding, applications 2

11 Classification and mechanism of welding

Welding design-effect of weld parameters on weld quality, heat input 2

12

Heat flow and distortions, Gas welding details, equipment

Welding fluxes and filler rods

Flame cutting, arc welding

2

13

Arc welding applications, equipment and polarity, governing factor in fusion welding

Different types of electrodes 2



14

TIG, GMA Welding

Carbon Dioxide process, submerged, electroslag, plasma arc and flux cored arc welding

2

15

Resistance, thermit welding

Electron and laser beam welding, explosive welding

2

16 Inspection and defects in welding, heat affected zone, grain size

variations in joint strength 2

17 Brazing and soldering , Adhesive bonding

Extrusion-metal flow, mechanism and types, extrusion defects 2

18 Introduction to rolling

Types of rolls and rolling mills 3

19

Mechanics of flat rolling, roll pressure distribution

Neutral point, front and back tension, roll forces in hot rolling

Roll torque and power, friction, deflection and flattening

3

20 Friction and lubrication in metal forming, defects in rolling 3

21 Hot and cold rolling, rolling machines 3

22 Strip velocity and roll velocity, roll and roll pass design

Theories of rolling and effect of parameters, load calculation 3

23 Rolling of tubes, wheels, axles, I-beam thread, gear rolling 3

24 Introduction to forging

Classification of forging methods, open die forging 4

25 Forces and work of deformation, forging methods analysis-slab method, solid cylindrical, rectangular work piece in plane strain 4

26

Forging under sticking condition

Deformation zone geometry, Die forging-impression, close coining, skew rolling

4

27 Defects in rolling, forgeability tests

Die design and materials, equipments 4

28 Heating in forging, quality assurance for forging

Non-destructive testing, mechanics of rod and wire drawing 4

29 Mechanics of rod and wire drawing 4



Ideal deformation and friction, drawing of flat strips

30 Drawing defects, drawing practices 4

31 Locating methods, degrees of freedom

Principle of clamping, clamping types 4

32 Work holding principle, Die cutting-different types

4

33 Shearing, Types of presses, cutting action in punch and die operations 4

34 Die clearances, types of die- Progressive die 5

35 Compound die, combination die

Bending dies, bending methods, minimum bend radius, bendability 5

36 Spring back forces, bend allowances

Forming dies-solid form, curling, embossing, coining, bulging dies 5

37 Shear and tube spinning, High energy rate forming-need, energy sources 5

38 Material behaviour after pneumatic, mechanical forming 5

39 Electrohydraulic, electromagnetic and explosive forming 5

40 Deep drawing, deep drawability, punch forces 5

41 Revision 5

42 Revision

ME010 406 (EE) ELECTRICAL TECHNOLOGY S4ME




ENGINEERING

DEGREE: BTECH

COURSE: MACHINE DRAWING SEMESTER: 4 CREDITS: 4

COURSE CODE: EN 010 405

COURSE TYPE: CORE


REGULATION: 2010

COURSE AREA/DOMAIN:

DESIGN

CONTACT HOURS: 3 (Practical)+1 (Theory)

Hours/Week.


ANY): NIL

LAB COURSE NAME: NA

SYLLABUS:

UNIT DETAILS HOURS

I Conversion of pictorial views into orthographic views-dimensioning techniques-preparation of drawing- - Limits and tolerances of machine parts - Hole system and shaft system of tolerances - Designation of fundamental deviation - Types of fits and their selection - Indication of dimensional tolerances and fits on simple machine parts - Geometrical tolerances – Recommended symbols - Indication of geometrical tolerances on simple machine parts - Surface roughness – Indication of surface finish on drawings - Preparation of shop floor drawings of simple machine parts. Types of screw threads-different forms-conventional representation-sketching orthographic views of hexagonal bolts and nuts -dimensional drawing-square headed bolts and nuts –sketching of different types of lock nuts and locking devices- foundation bolts. Forms of rivet heads – riveted joints-lap and butt joints with single and multiple riveting in chain and zig – zag arrangements –dimensional drawing. Sketching of conventional representation of welded joint..

15

II Fully dimensioned and sectional drawing of the following Joints- knuckle joint-jib and cotter shaft couplings-types of keys- protected types of flanged couplings-bushed pin type flexible coupling-Oldham’s coupling Pipe joints-spigot and socket joint-flanged joint- Shaft bearings and support-Plummer block IC engine parts-piston-connecting rod.

20

III Assembly and working drawings of the following Valves -stop valve-spring loaded safety valve –dead weight safety valve-feed check valve-feed check valve Machine elements-screw jack –lathe tool post-spindle-tailstock.

25

TOTAL HOURS 60





R1 N.D.Bhatt and Panchal, Machine Drawing, Charator Publishing House

R2 P I.Varghese, Machine Drawing, VIP Publishers, Thrissur

R3 Ajeet Singh, Machine Drawing, Tata McGraw Hill Education Private Ltd

R4 P.S.Gill , Machine Drawing, S.K.Kataria &Sons



EN010

105

ENGINEERING

GRAPHICS

Fundamental Engineering

Drawing Standards, Dimensioning

& Preparation of neat drawings on

A3 size drawing sheets.

S1S2

COURSE OBJECTIVES:

1 To impart the fundamental concepts of machine drawing.

2 To develop primary knowledge of working drawings.

3 To produce orthographic drawing of different machine parts.

4 To develop skill to produce assembly drawings

5 To develop skill to produce detailed drawings of machines parts from assembly drawing

COURSE OUTCOMES:


TAXONOMY

LEVEL

C405.1 Graduates will be able to sketch different types of threads, lock nuts, locking devices and foundation bolts.

Application

Level 3

C405.2 Graduates will be able to sketch different types of riveted joints and welded joints.

Application

Level 3

C405.3 Graduates will be able to illustrate a fully dimensioned and sectional drawing of different types of detachable joints like Knuckle Joint, Jib and Cotter Joint.

Analysis

Level 4

C405.4 Graduates will be able to illustrate a fully dimensioned and sectional drawing of different types of shaft couplings like Flanged Coupling, Flexible Coupling and Oldham’s coupling

Analysis

Level 4

C405.5 Graduates will be able to illustrate a fully dimensioned and sectional drawing of different types of pipe joints like Socket and Spigot Joint and Flanged Joint.

Analysis

Level 4



C405.6 Graduates will be able to illustrate the assembly and a neat working drawing of different types of valves like Steam Stop valve, Feed Check Valve and Safety Valve.

Analysis

Level 4

C405.7 Graduates will be able to illustrate the assembly and a neat working drawing of different machine elements like Screw Jack, Lathe Tool Post, Lathe Spindle and Tailstock

Analysis

Level 4


PO

1

PO

2

PO

3

PO

4

PO

5

PO

6

PO

7

PO

8

PO

9

PO

10

PO

11

PO

12

PSO

1

PSO

2

PSO

3

C405.1 2 1 3 - - - - - - 3 - - - 3 -

C405.2 2 1 3 - - - - - - 3 - - - 3 -

C405.3 2 - 3 - - - - - 1 3 - - - 3 -

C405.4 2 - 3 - - - - - 1 3 - - - 3 -

C405.5 2 - 3 - - - - - 1 3 - - - 3 -

C405.6 2 3 3 - - - - - 2 3 - - - 3 -

C405.7 2 3 3 - - - - 2 3 - - - 3 -


SL

NO


WITH POs

RELEVANCE

WITH PSOs

PROPOSED

ACTIONS

1 NIL


SL

NO DESCRIPTION

RELEVANCE

WITH POs

RELEVANCE

WITH PSOs

PROPOSED

ACTIONS

1 NIL


1 https://www.youtube.com/watch?v=USISgGkRXUk

2 https://www.youtube.com/watch?v=Yf59PPHM-eA

3 http://nptel.ac.in/courses/IIT-MADRAS/Strength_of_Materials/Pdfs/2_1.pdf

4 https://www.youtube.com/watch?v=iNG4bLMyeFA

5 http://optlab-server.sce.carleton.ca/POAnimations2007/DijkstrasAlgo.html



6 http://www.youtube.com/watch?v=KtLphGqNaxk


☐ CHALK & TALK ☐ STUD. ASSIGNMENT ☐ WEB RESOURCES ☐LCD/SMART

BOARDS



☐ ASSIGNMENTS ☐ STUD. SEMINARS ☐ TESTS/MODEL

EXAMS

☐ UNIV.

EXAMINATION

☐ STUD. LAB

PRACTICES


PROJECTS

☐ CERTIFICATIONS

☐ ADD-ON

COURSES

☐ OTHERS



FEEDBACK, ONCE)


(TWICE)


EXT. EXPERTS

☐ OTHERS



COURSE PLAN

Day Topic Module

1 Types Of Screw Threads & Bolts And Nuts

2 Bolts And Nuts

3 Gib& Cotter joint

4 Knuckle Joint

5 Protected types of flanged couplings

6 Bushed pin type flexible coupling

7 Feed Check Valve

8 Steam Stop Valve

9 Screw Jack

10 Lathe Tool Post

11 Lathe Tail Stock

12 Spring Loaded Safety Valve

13 Dead Weight Safety Valve

14 Class Test 1

15 Oldham’s Coupling

16 Plummer Block

17 Lathe Spindle

18 Class Test 2

19 Pipe joints –Spigot and socket joint – flanged joint

20 Class Test 3

21 Class Test 4

22 Lecture on Limits And Tolerances Of Machine Parts





ENGINEERING

DEGREE: BTECH

COURSE: ELECTRICAL TECHNOLOGY SEMESTER: 4 CREDITS: 4


REGULATION: 2010


REGULATION: 2010

COURSE AREA/DOMAIN:

ELECTRICAL AND ELECTRONICS

ENGINEERING


Hours/Week.


ANY): EE 010 508

LAB COURSE NAME: ELECTRICAL AND

ELECTRONICS LAB

SYLLABUS:

UNIT DETAILS HOURS

I D.C. Generator - O.C.C. – Condition for self-excitation – field critical resistance – critical speed - Load characteristics of generators- Losses- power flow diagram- efficiency- condition for maximum efficiency- Application.

8

II D.C. Motors: Back emf – speed and torque equation- starting and speed

control – testing of D.C. Motors – brake test – Swinburn’s test-

Performance characteristics of Shunt, Series and Compound motors. -

Applications Transformer – Emf equation: No load current – equivalent

circuit – regulation- efficiency. Determination of regulation and efficiency

from O.C. and S.C. tests – cooling of transformer. Basic principle of 3 phase

transformer - Applications

16

III Alternators - Construction details: Type – emf equation (winding factor

need not be derived) – synchronous impedance – regulation by emf and

mmf method. Synchronous Motors: Principle of operation – method of

starting. Three phase induction motor: Production of rotating magnetic

field - equivalent circuit – torque equation – torque slip characteristics –

no load and blocked rotor tests – starting and speed control – Application

Single Phase motor: Different types - Application.

13

IV Industrial drives – electric drives – advantages – individual drive and

group drive – factors affecting choice of motor – mechanical

characteristics of a.C. and D.C. motors – motors for particular application

like textile mill, steel mill, paper mill, mine, hoists, crane etc. – size and

rating of motor . Electric traction – Different systems of traction –

comparison – track electrification – different systems – traction motor

characteristics – electric braking – plugging – Dynamic and regenerative

braking.

13



V Power semiconductor devices: power diodes – SCR’s - principle of

operation of SCR’s – two transistor analogy of SCR – characteristics – SCR

rating (basic principle only). High frequency heating – induction and

dielectric heating – resistance heating resistance weldingblock schematic

of resistance welding scheme.

10

TOTAL HOURS 60



T.1 Dr. P S Bimbra, Electrical Machinery, Khanna Publishers

T.2 J B Gupta, Electrical Machines , S K Kataria and Sons

T.3 Dr. P S Bimbra, Power Electronics, Khanna Publishers

R.1 Alexander Langsdorf A S: Theory of AC Machinery, Mc-Graw Hill

R.2 Say M G: Performance and design of AC Machines, ELBS

R.3 Electrical machines, Drives and Power Systems: Thoedore Wildi, Pearson Ed

R.4 P.C. Sen, Thyristor DC Drives, Wiley-Interscience Publication 1984

R.5 Joseph Vithayathil, Power Electronics-Principles and applications, TMH, 2010

R.6 B. K. Bose, Modern Power Electronics and A.C. Drives, PHI, 2002.

R.7 G.K. Dubey, Fundamentals of Electrical Drives, Narosa Publishing House, New

Delhi,2005



EN 010

108

Basic Electrical

Engineering

Basics of Electrical Engineering I &II

COURSE OBJECTIVES:

1 To understand the characteristics and operational features DC and AC machines

2 To gain knowledge on various power semiconductor devices and AC and DC drive

applications

COURSE OUTCOMES:


TAXONOMY

LEVEL

C406.1 Students will be able to understand the working principle and



operational features of DC machines

C406.2 Students will be able to understand the working principle and

operational features of AC machines

C406.3 Students shall be able to get awareness regarding the household

and industrial applications of AC and DC machines

C406.4 Students will be able to understand the characteristics and

operational features of important power electronic devices.

C406.5 Students will be able to identify the application of power

electronics in electric drives.


PO

1

PO

2

PO

3

PO

4

PO

5

PO

6

PO

7

PO

8

PO

9

PO

10

PO

11

PO

12

PSO

1

PSO

2

PSO

3

C403.1

C403.2

C403.3

C403.4

C404.5 -


SL

NO


WITH POs

RELEVANCE

WITH PSOs

PROPOSED

ACTIONS

1 Description on power electronic circuits

is not included

Include analysis of basic power electronic circuits in course plan


SL

NO DESCRIPTION

RELEVANCE

WITH POs

RELEVANCE

WITH PSOs

PROPOSED

ACTIONS

1 Analysis of basic power electronic

circuits




1 (2009) Basic Electrical Technology on NPTEL Website [Online] Available http://nptel.ac.in/courses/108108076/

2 (2012) Power Electronics Course on NPTEL Website [Online] Available :http://nptel.iitm.ac.in/courses/108101038/


☑ CHALK & TALK ☐ STUD. ASSIGNMENT ☑ WEB RESOURCES

☑ LCD/SMART BOARDS ☐STUD. SEMINARS ☐ ADD-ON COURSES



EXAMS

☑ UNIV.

EXAMINATION

☐ STUD. LAB

PRACTICES


PROJECTS

☐ CERTIFICATIONS



☑ASSESSMENT OF COURSE OUTCOMES (BY

FEEDBACK, ONCE)


(TWICE)


EXT. EXPERTS

☐ OTHERS



COURSE PLAN

Day Topic Module

1 Introduction to machines , Basics of machines Importance of Electrical machines.

1

2 Open Circuit Characteristics , Condition for self-excitation Condition for field critical resistance

1

3 critical speed 1

4 Load characteristics of generators 1

5 Losses , power flow diagram , Efficiency 1

6 condition for maximum efficiency , Application 1

7 Tutorial of 1st module 1

8 Revision of Module 1 1

9 Basics of DC Motors, Back emf 2

10 speed equation , torque equation 2

11 Starting 2

12 speed control 2

13 Testing of D.C. Motors – brake test , Swinburn’s test 2

14 Performance characteristics of Shunt 2

15 Performance characteristics of Series and Compound motors 2

16 Applications 2

17 Tutorial of Module 2 2

18 Revision of module 2 2

19 Basic of Alternators, Construction details, Type 3

20 Emf equation, synchronous impedance 3

21 Regulation by emf and mmf method 3

22 Synchronous Motors: Principle of operation 3

23 Method of starting 3

24 Working of Three phase induction motor, Production of rotating magnetic field

3



25 Equivalent circuit 3

26 Torque equation, torque slip characteristics 3

27 No load and blocked rotor tests 3

28 Starting and speed control 3

29 Single Phase motor: Different types - Application 3

30 Tutorial for module 3 3


32 Industrial drives, electric drives, Advantages 4

33 Individual drive and group drive 4

34 Factors affecting choice of motor 4

35 Mechanical characteristics of a.C. and D.C. motors 4

36 Motors for particular application like textile mill, steel mill, paper mill, mine, hoists, crane .

4

37 Size and rating of motor,Electric traction 4

38 Different systems of traction 4

39 Traction motor characteristics 4

40 Electric braking – plugging Dynamic and regenerative braking. 4

41 Tutorial of module 4 4


43 Basics of Power semiconductor devices. 5

44 Power diodes-Construction, characteristics. 5

45 SCR’s - principle of operation of SCR’s 5

46 Two transistor analogy of SCR 5

47 Characteristics – SCR rating , Basic power electronic circuits 5

48 Basics of High frequency heating, Welding system. 5

49 Induction and dielectric heating 5

50 Resistance heating resistance welding 5

51 Block schematic of resistance welding scheme. 5



52 Tutorial of module 5 5

53 Revision module 5 5

ME010 407 HYRDRAULIC MACHINES LAB S4ME




ENGINEERING

DEGREE: BTECH

COURSE: HYDRAULIC MACHINES

LABORATORY

SEMESTER: 4 CREDITS: 2


REGULATION: 2010


REGULATION: 2010

COURSE AREA/DOMAIN:

FLUID SCIENCE

CONTACT HOURS: 3 (Practical

Hours/Week).

CORRESPONDING THEORY COURSE CODE

(IF ANY): ME010 403

THEORY COURSE NAME: HYDRAULIC

MACHINES

SYLLABUS:

UNIT DETAILS HOURS

Performance characteristic tests on Pelton wheel (Load test & best

speed). 6

Performance characteristic tests on Francis turbine (Load test & best gate

opening). 6

Performance characteristic tests on Kaplan turbine (Load test & best gate,

vane angle opening). 6

Performance characteristic tests on single stage, multi stage centrifugal pumps at constant speed & at variable speed. Actual & predicted curves.

6

Performance characteristic tests on self-priming pump, Jet pump, Airlift pump and deep well pump

12

Performance characteristic tests on axial flow pump. 3

Performance characteristic tests on Hydraulic ram. 3

Performance characteristic tests on reciprocating pump at constant speed.

3

Performance characteristic tests on Gear pump. 3

Performance characteristic tests on Screw pump. 3

TOTAL HOURS 51





T1 Abdulla Sheriff, Fluid Mechanics & Hydraulic Machines: Standard Publ

T2 R.K Bansal, Fliud Machines and Hydraulic Machines, Lakshmi publications New Delhi

R1 K Subramanya, Fluid Machines and Hydraulic Machines, TMH

R2 Govinda Rao N.S, Fluid Flows Machines, TMH

R3 Shiv Kumar, Fluid Mechanics & Fluid machines, Ane books

R4 Massey B. S, Fluid Mechanics, ELBS

R5 Stepanoff John A. J, Centrifugal and Axial Flow Pump, Wiley & Sons



EN010

107

BASIC MECHANICAL

ENGINEERING

To familiarize with the

fundamentals of Hydraulic

Machines, Heat Engines and

Refrigeration systems

S1S2

ME010

303 FLUID MECHANICS

To impart the basic concepts of

fluid mechanics by providing

exposure to diverse real world

engineering examples. To develop

understanding about basic laws

and equations used for analysis of

static and dynamic fluids.

S3

ME010

403 HYDRAULIC MACHINES

To impart knowledge regarding

principles and operations of

various hydraulic machines.

S4

COURSE OBJECTIVES:

1 To provide experience on various Hydraulic machineries.

2 To acquaint the students with the measurement of various parameters.

3 To familiarize the theory and their applications.

4 To gain practical experience in handling the machines.

5 To generate skills in analyzing the problems.



COURSE OUTCOMES:


TAXONOMY

LEVEL

C407.1 Students will be able to select an appropriate pump/turbine with

reference to given application/situation.

Remember

(level 1)

C407.2 Students will be able to estimate the optimum efficiency of a given

pump/turbine under different load and (or) speed conditions

Understand

(level 2)

C407.3 Students will be able to analyse the trends depicted by characteristic curves obtained from the experiments.

Analyse

(level 4)

C407.4 Students will be able to prepare scheme for evaluating the

performance characteristics of hydraulic machines.

Create

(level 6)


PO

1

PO

2

PO

3

PO

4

PO

5

PO

6

PO

7

PO

8

PO

9

PO

10

PO

11

PO

12

PSO

1

PSO

2

PSO

3

C407.1 - - 3 - - 3 3 - - - - - 3 - -

C407.2 3 - - 2 - - - - - - - - 3 - -

C407.3 - 3 - - - - - - - - - - - 3 -

C407.4 - 3 3 3 - - - - - - - - - 3 -


SL

NO


WITH POs

RELEVANCE

WITH PSOs

PROPOSED

ACTIONS

1 Finds difficulty in correlating with the

actual situations


SL

NO DESCRIPTION

RELEVANCE

WITH POs

RELEVANCE

WITH PSOs

PROPOSED

ACTIONS

1 NIL




1 http://nptel.iitm.ac.in/courses/

2 http://www.gobookee.net/hydraulics-and-hydraulic-machines/

3 http://mmut.mec.upt.ro/mh/Conferinta_MH/102Avellan.pdf

4 http://www.physics.rutgers.edu/ugrad/351/oldslides/Lecture10.pdf

5 http://www.fas.org/sgp/othergov/doe/lanl/pubs/00326875.pdf


☐ CHALK & TALK ☐ STUD. ASSIGNMENT ☐ WEB RESOURCES ☐ LCD/SMART

BOARDS




EXAMS

☐ UNIV.

EXAMINATION

☐ STUD. LAB

PRACTICES


PROJECTS

☐ CERTIFICATIONS

☐ ADD-ON

COURSES

☐ OTHERS



FEEDBACK, ONCE)


(TWICE)


EXT. EXPERTS

☐ OTHERS



COURSE PLAN

Sl. No. EXPERIMENTS

1 Study

2 Study

3 Load Test on Pelton Wheel Turbine

4 Load Test on Pelton Wheel Turbine

5 Load Test on Francis Turbine

6 Load Test on Francis Turbine

7 Load Test on Kaplan Turbine

8 Load Test on Kaplan Turbine

9 Performance Characteristics of a Centrifugal Pump

10 Performance Characteristics of a Centrifugal Pump

11 Performance Test on a Self-Priming Pump

12 Performance Test on a Self-Priming Pump

13 Performance Test on a Multistage Pump

14 Performance Test on a Multistage Pump

15 Performance Characteristics of a Reciprocating Pump

16 Performance Characteristics of a Reciprocating Pump

17 Constant Speed Characteristics of a Gear Pump

18 Constant Speed Characteristics of a Gear Pump

19 Performance Characteristics of a Jet Pump

20 Performance Characteristics of a Jet Pump

21 Performance Test on Pelton Wheel Turbine

22 Performance Test on Pelton Wheel Turbine

ME010 408 (CE) STRENGHT OF MATERIALS LAB S4ME




ENGINEERING

DEGREE: BTECH

COURSE: STRENGHT OF MATERIALS LAB SEMESTER: 4 CREDITS: 2


REGULATION: 2010


REGULATION: 2010

COURSE AREA/DOMAIN:

MECHANICAL ENGINEERING

CONTACT HOURS: 3 hours practical per week.

CORRESPONDING THEORY COURSE CODE: ME 010 306(CE)

THEORY COURSE NAME: STRENGTH OF MATERIALS & STRUCTURAL ENGINEERING

SYLLABUS:

EXPERIMENT DETAILS HOURS

1 Tests on springs (open and close coiled)

2 Bending Test on Wooden Beams using U. T. M.

3 Verification of Clerk. Maxwell's Law of reciprocal deflection and

Determination of Youngs modulus ’E ‘for steel.

4 Torsion Pendulum (M.S. wires. Aluminum wires and brass wires)

5 Tension test using U. T. M. on M. S. Rod, tor-steel and High

Tensile steel.

6 Torsion Test on M. S. Rod.

7 Shear Test on M.S. Rod.

8 Fatigue Test

9 Impact Test (Izod and Charpy)

10 Hardness Test (Brinell, Vicker’s and Rebound)

11 Strut Test

TOTAL HOURS 60



R1 Timoshenko .S.P, Strength of Materials, Part-1, D.Van Nostrand company,

Inc.Newyork.



R2 Bansal R.K., Strength of Materials, Lakshmi Publications, New Delhi

R3 Bhavikatti S.S , Strength of Materials, Vikas Publishing House (P) Ltd.

R4 D.S. Prakash Rao, Strength of Materials, Vol. I, University Press (India) Ltd.

R5 Popov E.P., Engineering Mechanics of solids, Prentice Hall of India, New Deihi.

R6 Punmia B.C, Strength of Materials and Mechanics of structures, Vol.1, Lakshmi

Publications, New Delhi.



ME 010 306

STRENGTH OF MATERIALS AND

STRUCTURAL ENGINEERING

Knowledge of different stresses and strains, deflection, torsion etc.

S3

COURSE OBJECTIVES:

1 To study properties of various materials

COURSE OUTCOMES:


TAXONOMY

LEVEL

C408.1 To determine the modulus of elasticity of steel and wood using UTM

C408.2 To verify Clerk- Maxwell Theorem and hence determine the Modulus of elasticity of steel

C408.3 To determine the Modulus of rigidity of steel using torsion test, spring test and torsion pendulum

C408.4 To assess the toughness of a specimen using Impact testing machine

C408.5 To assess the Rockwell, Brinell and Vicker Hardness value of different specimens.

C408.6 To determine the ultimate shear stress of steel using UTM.




PO

1

PO

2

PO

3

PO

4

PO

5

PO

6

PO

7

PO

8

PO

9

PO

10

PO

11

PO

12

PSO

1

PSO

2

PSO

3

C408.1 2 - - 1 - - - - 2 1 - - - - -

C408.2 2 - - 1 - - - - 2 1 - - - - -

C408.3 2 - - 1 - - - - 2 1 - - - - -

C408.4 - - - 1 - - - - 2 1 - - - - -

C408.5 - - - 1 - - - - 2 1 - - - - -

C408.6 2 - - 1 - - - - 2 1 - - - - -


SL

NO


WITH POs

RELEVANCE

WITH PSOs

PROPOSED

ACTIONS

1 Principal Strains

NPTEL

2 Mohr’s Cirle of Strains

NPTEL


SL

NO DESCRIPTION

RELEVANCE

WITH POs

RELEVANCE

WITH PSOs

PROPOSED

ACTIONS

1 Theories of Failures NPTEL


1 https://www.youtube.com/watch?v=qbv2rOEMyiA


☐ CHALK & TALK ☐ STUD. ASSIGNMENT ☐ WEB RESOURCES ☐ LCD/SMART

BOARDS






EXAMS

☐ UNIV.

EXAMINATION

☐ STUD. LAB

PRACTICES


PROJECTS

☐ CERTIFICATIONS

☐ ADD-ON

COURSES

☐ OTHERS



FEEDBACK, ONCE)


(TWICE)

☐ ASSESSMENT OF MINI/MAJOR PROJECTS

BY EXT. EXPERTS

☐ OTHERS



COURSE PLAN

Sl. No. EXPERIMENTS

1 Torsion Pendulum (Mild steel, Aluminium, Brass wires)*

2 Torsion test on mild steel rods*

3 Tension test on mild steel*

4 Verification of Clerk Maxwell Theorem; Charpy Impact Test*

5 Test on springs (Open and closed coiled)*

6 Vicker’s Hardness test*

7 Bending Test on wooden beams#

8 Shear Test on mild steel rods#

9 Brinell and Rockwell Hardness tests#

10 Izod Impact test#

11 Fatigue test-Study of testing machine#

NOTE: * - Cycle 1; # - Cycle 2

Documents

DEPARTMENT OF MECHANICAL ENGINEERING€¦ · DEPARTMENT OF MECHANICAL ENGINEERING COURSE HANDOUT: S4 Page 2 RSET VISION RSET MISSION To evolve into a premier technological and research