Sandip University · valve, bell crank lever, components subjected to eccentric loading. 09 II ... One experiment from the regular practical syllabus will be conducted

Sandip University Mahiravani, Trimbak Road, Tal & Dist. Nashik 422213, Maharashtra

Phone: 02594-222541, 222582 Fax: 02594 222555

Document Ref. Rev. No./

Date

Issue No./

Date Prepared by Approved by

SUN/SOET/MECH/_______/_______/2018

School of Engineering and Technology

Course Structure for B.Tech. in Mechanical Engineering

Semester – V (Third Year Engineering)

Sr. No

Code Course Code

Theory Paper/Practical

Teaching Scheme (Hrs/Week)

C

Duration of

University Exam. (Hrs.)

Form

ative

CIA

Summative

Total Marks

L T P Total TH OR /

PR

1. UC YFF502 Foreign

Language

French II 02 -- -- 02 02 03 50 50 -- 100

YFG502 German II

2. UC YME516 Minor Course$ -- -- -- -- 03 03 50 50 25* 125

3. UC YME517 Internship# -- -- -- -- 02 25* 25

4. PC YME501 Manufacturing Processes - II 03 -- -- 03 03 03 50 50 -- 100

5. PC YME502 Design of Machine Elements 03 -- 02 05 04 03 50 50 25* 125

6. PC YME503 Heat Transfer 03 01 -- 04 04 03 50 50 -- 100

7. PC YME504 Theory of Machines 03 -- -- 03 03 03 50 50 -- 100

8. PC YME505 Precision Measurement &

Quality Planning 03 -- -- 03 03 03 50 50 -- 100

9. PC YME511 Manufacturing Processes – II

Lab -- -- 02 02 01 25 25

10. PC YME512 Heat Transfer Lab -- -- 02 02 01 25* 25

11. PC YME513 Theory of Machines Lab -- -- 02 02 01 25* 25

12. PC YME514 Computer Aided Drafting &

Modeling Lab -- -- 02 02 01 25 25

Total 17 01 10 28 28 350 350 175 875

CIA: Continuous Internal Assessment L: Theory Lecture

T: Tutorial P: Practical UC: University Core

TH: Theory Exam. #: Internship for 21 days.

$: Minor courses are optional *: O ral Examination PC: Programme Core

Details of Continuous Internal Assessment (CIA)

CIA Weightage Description

CIA 1 10% Home Assignment

CIA 2 20% Mid-Term Exam (MTE)

CIA 3 10% Presentation by students

CIA 4 10% Research Based Activity

TOTAL 50%


Phone: 02594-222541, 222582 Fax: 02594 222555


Date

Issue No./


SUN/SOET/MECH/_______/_______/2018

School of Engineering and Technology Programme: Mechanical Engineering

Year : Third Year Semester –V

Course: Manufacturing Processes - II Course Code: YME501

Theory: 3 Hrs/Week Max. University Theory Examination: 50 Marks

Max. Time for Theory Exam.: 3 Hrs Continuous Internal Assessment: 50 Marks

Course Objectives

1 To understand fundamentals of different machining processes, and optimization of a chain of

processes through which a part undergoes..

2 To understand nontraditional manufacturing processes

3 To understand Basics of applications Jigs and fixtures in manufacturing

4 To understand design of manufacturing processes

5 The course is aimed at teaching the pros and cons of different processes, so that one can apply this knowledge to the selection of a process for making a part to the required level of accuracy and in

required time.

Unit

Number Details Hours

I

Lathe: Classification, constructional features of turret and capstan lathe

Drilling machine: Types of drills and operations. Twist drill geometry, Types of drilling machine, Tool holder.

Milling machine: Types of milling machines, Cutter types and geometry and their applications. Universal dividing head, Methods of Indexing: Simple, Compound, Differential. Numericals based on indexing.

Calculation of machining time for Drilling and Milling processes (Numericals)

9

II

Theory of Metal Cutting: Single point cutting tool nomenclature, geometry, Merchants circle diagram and analysis, shear angle relationship, problems of

Merchant‟s analysis, tool wear and tool failure, tool life, effects of cutting parameters on tool life, tool failure criteria, Taylor‟s tool life equation, problems on tool life evaluation, machinability factors affecting machinability

9

III

Jigs and fixtures:

Principles of location and clamping, synthesis of simple jigs and fixtures. Principles of assembly engineering, Concept of degree of freedom, 3-2-1 principle of location,

General guidelines to design Jigs and fixtures, advantages of jig and fixtures Elements of jig with the types, Location guidelines, Principles of guiding element, Channel jig, Template jig, Plate jig, Angle plate jig, Turn over jig, Box jig, Latch

type jig. Elements of fixtures, Principles of setting element, Turning fixture, Welding fixture,

Milling fixture, Assembly and Inspection fixtures. Indexing methods, Power work holding devices with their advantages, Pokayoke concept in jigs and fixtures.

9

IV

CNC Technology

Introduction, Construction and working of CNC, DNC and machining center. CNC

axes and drives. Automatic Tool Changer (ATC) and Automatic pallet changer (APC) CNC Programming: Word address format (WAF) ISO Standard, G & M

9


Phone: 02594-222541, 222582 Fax: 02594 222555


Date

Issue No./


SUN/SOET/MECH/_______/_______/2018

codes, Type of CNC Control systems, Manual part programming, Subroutine,

Canned cycles FMS.

V

Non-conventional Machining Processes:

Introduction, Types of Non-Conventional Methods of Machining, applications, working Principles, Process Parameters for: Chemical Machining, Electro Chemical

Machining (ECM), Electric Discharge Machining (EDM), Plasma Arc Machining (PAM), Laser Beam Machining (LBM), Abrasive Jet Machining (AJM) and Ultra

Sonic Machining (USM).

9

Total 45

Course Outcomes

1 Student should be able to identify various process parameters and their effect on processes.

2 Student should be able to apply the knowledge of various manufacturing processes.

3 Student should be able to design and analyze various manufacturing processes and tooling.

4 Student should be able to figure out application of modernization in machining.

5 Students should get the knowledge of Jigs and Fixtures so as to utilize machine capability for

variety of operations

Resources

Recommended

Books

1. Hazara Choudhry, Vol-II, Workshop Technology Media Promoters &

Publishers Pvt. Ltd. 2. R. K. Jain, Production Technology Khanna Publications.

3. Tata MacGraw Hill, Production technology HMT 2001. 4. Mikell. P. Grover, Fundamentals of Modern Manufacturing, Pearson

Publications

5. P. C. Sharma, Production Engineering, S. Chand Publication

Reference Books 1. G. Boothroyd and W. A. Knight, Fundamentals of Machining and Machine Tools, Marcel Dekker, 1989

2. Ibrahim Zeid, Mastering CAD-CAM , McGraw Hill 3. V. K Jain, Advanced machining processes , Allied Publisher, New Delhi 4. M. H. A Kempster, An Introduction to Jig and Tool Design, ELBS

5. P. H. Joshi, Jigs and fixtures , Tata McGraw Hill 6. P. N. Rao, CAD/CAM Principles and Applications, McGraw Hill Education,

Third Edition. 7. P. K. Mishra, Non- Conventional Machining, Narosa Publishing House


Phone: 02594-222541, 222582 Fax: 02594 222555


Date

Issue No./


SUN/SOET/MECH/_______/_______/2018



Course: Design of Machine Elements Course Code: YME502


Practical: 02 Hrs/Week Continuous Internal Assessment: 50 Marks

Max. Time for Theory Exam.: 03 Hrs Oral Examination: 25 Marks

Course Objectives

1. To develop a thorough understanding of basic principles of Machine Design.

2. To effectively choose proper materials for different machine elements depending on their physical and mechanical properties.

3. Student shall gain design knowledge of the different types of elements used in the machine design

process viz. fasteners, shafts, couplings etc.

4. Student shall gain a thorough understanding of the different types of failure modes and criteria for various machine component.

Unit


I

Introduction to Design and Design against Static Loads

Basic principle of Machine Design, Design considerations, Principle stresses &

strains, Fits and tolerances, Factor of safety, Theories of failures, Standards &

Codes, Preferred Series and Numbers.

Design of Cotter joint, Knuckle joint, Levers - hand / foot lever, lever for safety

valve, bell crank lever, components subjected to eccentric loading.

09

II

Shafts and Couplings

Design of Shaft on the basis of strength, torsional rigidity and lateral rigidity,

A.S.M.E. code for shaft design. Types of Keys, their design and selection based on

shafting condition. Classification of coupling, Design of Flange couplings, Bush pin

type flexible couplings.

09

III

Design of Fasteners and Welded Joints

Nomenclature for bolts and screws, Choice of appropriate bolts, bolts subjected to tensile, compressive and torsional loading, Determining shear loads, for various

types of eccentric loading conditions.

Welding symbols, Stresses in butt and fillet welds, Strength of butt, parallel and transverse fillet welds, Axially loaded unsymmetrical welded joints, Eccentric load

in plane of welds

10

IV

Design against Fluctuating Loads

Stress concentration, variables stresses, reversed, repeated, fluctuating stresses. Fatigue failure, Endurance limit- estimation of endurance limit, Design for finite

and infinite life, Soderberg and Goodman design criteria, Fatigue design under

08


Phone: 02594-222541, 222582 Fax: 02594 222555


Date

Issue No./


SUN/SOET/MECH/_______/_______/2018

combined stresses

V

Design of Springs

Basic spring nomenclature, Various spring configurations viz. types, application & materials, Designing of Helical Compression & Tension springs for static and fatigue loads, Springs in series and parallel, Concentric helical springs, Leaf

springs.

09

Total 45

Course Outcomes

1. Students should be able to analyze the stress and strain of mechanical components and also identify failure modes for mechanical part.

2. Design machine elements on the basis of strength/ rigidity concepts.

3. Students will be able to design machine elements for each application.

4. Ability to design a mechanical system for fluctuating loads.

Lab work will consist of following:

1.

Students have to complete minimum 3design sheets from the below mentioned list which may include

computer aided drawing on A2 size sheets .

1) Knuckle Joint or Cotter joint 2) Screw Jack

3) Flexible flange couplings 4) Leaf springs

5) C-clamps along with the Frame

2.

Design exercises in the form of design calculations with sketches and/ or drawings on following machine

elements.

1) Bolted and welded joints 2) Combined stresses problem using theory of failure.

3) Shaft design (solid and hollow shaft) 4) Design against fluctuating loads (finite and infinite life)

Lab Work:

Lab Work assessment shall be conducted for the Project, Laboratory and Seminar. Lab work is continuous assessment based on work done, submission of work in the form of report/journal, timely completion, attendance, and understanding. It should be assessed by corresponding course teacher. At the end of the semester, the final grade for a Lab Work shall be assigned based on the performance of the

student and is to be submitted to the University.

Notes

1. Each student should perform all the above experiments.

2. The regular attendance of students during the syllabus practical course will be monitored and marks will be given accordingly.

3. Students should undergo good laboratory practices.

Practical/Oral/Presentation:

Practical/Oral/Presentation shall be conducted and assessed jointly by internal and external examiners.


Phone: 02594-222541, 222582 Fax: 02594 222555


Date

Issue No./


SUN/SOET/MECH/_______/_______/2018

The performance in the Practical/Oral/Presentation examination shall be assessed by at least a pair of

examiners appointed as examiners by the University. The examiners will prepare the mark/grade sheet in the format as specified by the University, authenticate and seal it. Sealed envelope shall be submitted to the head of the department or authorized person.

Notes

1. One experiment from the regular practical syllabus will be conducted. (Total 15 Marks).

2. Complete laboratory journal/records (05 Marks).

3. Viva-voce (05 Marks).

Resources

Recommended

Books

1. Bhandari V.B., “Design of Machine Elements”, Tata McGraw Hill Publication Co. Ltd

2. C. S. Sharma and KamleshPurohit, “Design of Machine Elements”, Prentice Hall India Publication.

3. Shigley J.E. and Mischke C.R., “Mechanical Engineering Design”, McGraw Hill Publication Co. Ltd.

Reference Books 1. Robert L. Norton, “Machine Design: An Integrated Approach”, Fifth Edition

2. Richard Budynas, Keith Nisbett,“Shigley‟s Mechanical Engineering Design”,

Mc Graw Hill, Ninth Edition 3. D. K. Aggarwal &P. C. Sharma, “Machine Design”, S.K Kataria and Sons 4. Black P.H. and O. Eugene Adams, “Machine Design”, McGraw Hill Book Co.

Inc. 5. Spotts M.F. and Shoup T.E., “Design of Machine Elements”, Prentice Hall

International. 6. Design Data - P.S.G. College of Technology, Coimbatore. 7. Bhandari V. B., “Machine Design data book”, Tata McGraw Hill Publication

Co. Ltd. 8. Machine Tool Design Handbook, CMTI.


Phone: 02594-222541, 222582 Fax: 02594 222555


Date

Issue No./


SUN/SOET/MECH/_______/_______/2018

School of Engineering & Technology Programme: Bachelor of Technology(B.Tech)

Year : Third Year Semester -V

Course: Heat Transfer Course Code: YME503

Tutorial : 1hr/week

Theory: 3Hrs/Week Max. University Theory Examination: 50 Marks

Max. Time for Theory Exam: 3 Hrs Continuous Internal Assessment: 50 Marks

Objectives

1 To understand the important modes of heat transfer and their applications.

2 To get acquainted with knowledge of fin selection and lumped heat capacitance.

3 To understand the mechanism of convective heat transfer

4 To learn the various heat exchangers and their applications.

5 To determine the radiative heat transfer between surfaces.

Unit


1

Fundamentals of Heat Transfer: General heat conduction equation in Cartesian, cylindrical and spherical coordinates, Poisson‟s, Fourier and Laplace Equations,

isotropic, anisotropic, homogeneous and non-homogeneous materials; Boundary conditions, Steady state heat conduction: one-dimensional heat conduction without

heat generation in slab; composite slab; cylinder and sphere, effect of temperature on conductivity, critical thickness of insulation. One-dimensional, steady state heat conduction with internal heat generation in

slabs; composite slabs; cylinders and spheres. Applications of heat conduction with and without heat generation

10

2

Conduction: Heat transfer from extended surfaces with all boundary conditions and fin performance. Cooling of Electronics Components. Unsteady state/ transient heat conduction: lumped capacitance method, Heisler chart. Applications :

Introduction to Multi-dimensional Heat conduction: Different solution methods and numerical methods

9

3

Convection :Basic concepts, natural, forced and mixed convection, hydrodynamic and thermal boundary layers, mass, momentum and energy equations in forced convection, momentum and energy integral equations, dimensionless numbers,

solution of laminar flow over a flat plate, governing equations, empirical correlations for forced and natural convection.

10

4

A. Boiling and Condensation Heat Transfer: Pool boiling, pool boiling curve,

nucleate and film boiling, introduction to flow boiling, drop-wise and film-wise condensation, Nusselt theory of film wise condensation. B. Heat Exchanger:

Classification of heat exchanger, recuperative and regenerative heat exchangers, parallel, counter and cross flow heat exchangers, Shell and tube heat exchangers,

compact heat exchanger, heat exchanger analysis – LMTD for parallel and counter

8


Phone: 02594-222541, 222582 Fax: 02594 222555


Date

Issue No./


SUN/SOET/MECH/_______/_______/2018

flow heat exchanger, LMTD correction factor, design criteria for heat exchanger,

effectiveness– NTU method for parallel and counter flow heat exchanger, cross flow heat exchanger, performance of heat exchangers, effectiveness, Number of transfer unit and heat capacity ratio. Introduction of TEMA Standards

5

Thermal Radiation: Basic concept of surface and gas radiation, radiation

properties, Kirchhoff‟s Law of Radiation, Weins Law, Planck Law, Lambart Law, radiation heat exchange between two finite black surfaces, shape factor, radiation

heat exchange between two non-black and gray surfaces, radiation shield. Applications of radiation heat exchange.

8

Total 45

Course Outcomes

Students are able,

1 To differentiate different modes of heat transfer and their applications.

2 To analyse the phenomenon of conduction in Fins.

3 To estimate heat transfer due to convection in various applications.

4 To analyse the performance of Parallel and Counter flow heat exchangers..

5 To interpret the concept of thermal radiation in various geometries.

Resources

Recommended

Books

1. S.P. Sukhatme, A Textbook on Heat Transfer, Universities Press.

2. R.C. Sachdeva, Fundamentals of Engineering Heat and Mass Transfer, New Age Science.

3. P.K. Nag, Heat & Mass Transfer, McGraw Hill Education Private Limited. 4. M. M. Rathod, Engineering Heat and Mass Transfer, Third Edition, Laxmi

Publications, New Delhi

5. V. M. Domkundwar, Heat Transfer, Dhanpat Rai Publications. 6. Dr. D. S. Kumar, Heat Transfer, Kataria Publication.

Reference Books

1. F.P. Incropera, D.P. Dewitt, Fundamentals of Heat and Mass Transfer,

John Wiley. 2. Y. A. Cengel and A.J. Ghajar, Heat and Mass Transfer – Fundamentals and

Applications, Tata McGraw Hill Education Private Limited.

3. S. P. Venkatesan, Heat Transfer, Ane Books Pvt. Ltd 4. Holman, Fundamentals of Heat and Mass Transfer, McGraw – Hill

publication.


Phone: 02594-222541, 222582 Fax: 02594 222555


Date

Issue No./


SUN/SOET/MECH/_______/_______/2018



Course: Theory of Machines Course Code: YME504



Course Objectives

1 To develop competency in understanding of theory of all types of gears.

2 To demonstrate different types of gear trains and its applications.

3 To acquaint with working principles and applications of gyroscope

4 To make the student conversant with synthesis of the mechanism.

5 To develop competency in drawing the cam profile and understand the follower motion.

Unit


I

Toothed Gearing, Classification of Toothed Gearing, Spur gear: definition, terminology, fundamental law of toothed gearing, involute and cycloidal profile,

path of contact, arc of contact, conjugate action, contact ratio, minimum number of teeth, interference and under cutting, Force analysis and Friction in gears. Introduction to helical, worm & worm wheel, Spiral and Bevel Gears

10

II

Gear Trains, Types of Gear Trains, analysis of epicyclic gear trains, Holding torque – Simple, compound and epicyclic gear trains, torque on sun and planetary gear train, compound epicyclic gear train. Types of gearboxes.

8

III

Gyroscopes, Gyroscopic forces and Couples, Gyroscopic stabilisation for ship and

Aeroplane, Stability of four wheel drive vehicle moving on curved path, Stability of a two wheel vehicle.

9

IV

Synthesis, 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. Graphical synthesis: Two and three position synthesis using relative pole

method and inversion method for single slider crank and four bar mechanism. Freudenstein‟s equation for four bar Mechanism, Three position function generation

using the equation.

8

V

Cams and Followers, Types of cams and followers, analysis of standard motions to the follower, Determination of cam profiles for different follower motions, analysis

of circular arc cam with flat face follower. Methods of control: pressure angle, radius of curvature and undercutting. Jump phenomenon of Eccentric cam. Applications of cam and follower mechanism.

10

Total 45

Course Outcomes

1 The students will understand the gear theory which will be the prerequisite for gear design.


Phone: 02594-222541, 222582 Fax: 02594 222555


Date

Issue No./


SUN/SOET/MECH/_______/_______/2018

2 The students will Analyze and select gear trains.

3 The students will Analyze gyroscopic effect on various applications.

4 The students will apply the concept of synthesis in design of mechanism.

5 The students will understand design of mechanism and cam profile.

Resources

Reference Books 1. Thomas Bevan, “Theory of Machines”, C. B. S. Publishers 2. S. S. Ratan, “Theory of Machines”, Tata McGraw Hill 3. P. L. Ballaney, “Theory of Machines”, Khanna Publishers, Delhi 4. Amitabh Ghosh and A. Kumar Mallik, “Theory or Mechanisms and Machines” 5. J. J. Uicker, G .R. Pennock, J.E.Shigley, “Theory of Machines and Mechanisms”,

Third Edition, International Student Edition, OXFORD 6. Sadhu Singh, “Theory of Machines”, Pearson 7. R L Norton, “Kinematics and Dynamics of Machinery”, First Edition, McGraw Hill

Education (India) P Ltd. New Delhi


Phone: 02594-222541, 222582 Fax: 02594 222555


Date

Issue No./


SUN/SOET/MECH/_______/_______/2018

School of Engineering & Technology Programme: Bachelor of Technology(B.Tech)

Year : Third Year Semester -V

Course: Precision Measurement & Quality

Planning

Course Code: YME505



Objectives

1 Selection of tool and techniques for determining geometry and dimensions.

2 Design and calibration of measuring tools and equipment‟s.

3 Application of Quality Control Techniques.

4 Application of Quality Management Concept.

Unit


1

Measurement standards and comparators: Principles of Engineering metrology,

Measurement standards, Types and sources of errors, Accuracy and Precision, introduction to uncertainty in measurement, linear and angular measuring

instruments and their applications. Calibration: Concept and procedure, traceability, Gauge R&R Comparators: Mechanical, Pneumatic, Optical, Electrical (LVDT).Checking all

geometrical forms.

9

2

Design of gauges, Interferometers and Surface Roughness measurements

Design of Gauges: Tolerances, Limits and Fits, Taylor‟s principle, Types of

gauges and gauge design (numerical). Interferometer: Principle, NPL Interferometer, Laser Interferometer and their

applications. Surface Roughness Measurement: Surface texture, Parameters for

8

3

Metrology of Thread, Gears and Advance Metrology

Measurement of Thread form: Thread form errors, Measurement of Minor, Major and Effective diameter (Three Wire Method), Flank angle, pitch, Floating Carriage Micrometer (Numerical).

Gear Metrology: Types of errors, Gear tooth Vernier, Constant chord, Base tangent (Numerical), Gear Rolling Tester. Profile Projector, Tool maker‟s

microscope and their applications. Advancements in Metrology: Introduction & applications of: Co-ordinate Measuring Machine, Universal Measuring Machine, Laser in Metrology,

Automatic inspection system, Machine vision for online-offline inspection.

10

4

Introduction to Quality and Quality Tools Quality: Dimensions, Statements, Cost of quality & value of quality, Deming‟s

cycles & 14 Points, Juran Trilogy approach, Seven Quality Tools, Introduction to New Seven Tools, Quality Circle, Criteria for Quality Award (National & International).

8


Phone: 02594-222541, 222582 Fax: 02594 222555


Date

Issue No./


SUN/SOET/MECH/_______/_______/2018

5

Statistical quality control: Statistical concept, Frequency diagram, Concept of

variance analysis, Control Chart for Variable (X & R Chart) & Attribute (P & C Chart), Process capability (Indices: cp, cpk, ppk), Statistical Process Control (Numerical). Production Part

Approval Method (PPAP). Acceptance Sampling: Sampling Inspection, OC Curve and its characteristics,

sampling methods, Sampling Plan: Single, Double (Numerical), Multiple, Comparison of Plan, calculation of sample size, AOQ, Probability of Acceptance (Numerical).

10

Total 45

Course Outcomes

1 An ability to apply knowledge of various tools and techniques used to determine geometry and dimensions of components in engineering applications.

2 An ability to perform experiments, as well as to analyze and interpret data.

3 An ability to design gauges to meet desired needs within realistic constraints.

4 An understanding of Quality Control Techniques and its applications in engineering industries.

Resources

Recommended

Books

1. Jain R.K., Engineering Metrology, Khanna Publication. 2. Juran J. M., Quality Handbook, McGraw Hill Publications.

3. Grant S.P., Statistical Quality Control, Tata McGraw hill Publication. 4. Kulkarni V. A. and Bewoor A. K., Quality Control, John Wiley

Publication.

Reference Books

1. Narayana K.L., Engineering Metrology. 2. Galyer J.F &Shotbolt C.R., Metrology for engineers 3. Gupta I.C., Engineering Metrology, DhanpatraiPubliartions

4. Judge A.W., Engineering Precision Measurements, Chapman and Hall 5. Francis T. Farago, Mark A. Curtis, Handbook of dimensional

measurement. 6. ASTME, Handbook of Industrial Metrology, Prentice Hall of India Ltd. 7. Harrison M. Wordsworth, Stefeen Godfrey, Modern Methods for Quality

control and Improvement, Willy publication. 8. Hume K.J., Engineering Metrology, Macdonald Publications


Phone: 02594-222541, 222582 Fax: 02594 222555


Date

Issue No./


SUN/SOET/MECH/_______/_______/2018



Course: Manufacturing Process-II Lab Course Code: YME511

Practical: 02 Hrs/Week Practical / Oral Examination: 50 Marks

Oral will be based on following:

1. Assembly consisting of at least two components involving use of lathe, drilling, milling, grinding and any additional machine tool or processes as per requirement.

2. Development and execution of one simple turning job on CNC (Trainer) machine

3. Two views of at least one jig and a fixture designed, for the simple component on a half empirical sheet.(manual drafting)

4. Report based on industrial visit to any machine shop

Lab Work:

Lab Work assessment shall be conducted for the Project, Laboratory and Seminar. Lab work is continuous assessment based on work done, submission of work in the form of job/report/journal, timely completion, attendance, and understanding. It should be assessed by corresponding course teacher. At the

end of the semester, the final grade for a Lab Work shall be assigned based on the performance of the student and is to be submitted to the University.

Notes

1. Each student should perform all the above experiments.

2. The regular attendance of students during the syllabus practical course will be monitored and marks will be given accordingly.

3. Students should undergo good laboratory practices.


Practical/Oral/Presentation shall be conducted and assessed jointly by internal and external examiners. The performance in the Practical/Oral/Presentation examination shall be assessed by at least a pair of examiners appointed as examiners by the University. The examiners will prepare the mark/grade sheet in

the format as specified by the University, authenticate and seal it. Sealed envelope shall be submitted to the head of the department or authorized person.

Notes

1. One experiment from the regular practical syllabus will be conducted. (Total 15 Marks).

2. Complete laboratory journal/records (05 Marks).

3. Viva-voce (05 Marks).


Phone: 02594-222541, 222582 Fax: 02594 222555


Date

Issue No./


SUN/SOET/MECH/_______/_______/2018


Year: Third Year Semester – V

Course: Heat Transfer Lab Course Code-YME512

Practical: - 2 Hrs./Week PR/OR Examination: 25 Marks

Sr. No. Description

1 Determination of Thermal Conductivity of metal rod

2 Determination of Thermal Conductivity of insulating powder

3 Determination of Thermal Conductivity of Composite wall

4 Determination of Thermal Contact Resistance

5 Determination of heat transfer coefficient in Natural Convection

6 Determination of heat transfer coefficient in Forced Convection

7 Determination of temperature distribution, fin efficiency in Natural /Forced Convection

8 Determination of Emissivity of a Test surface

9 Determination of Stefan Boltzman‟s Constant

10 Study of pool boiling phenomenon and determination of critical heat flux

Term Work:

Term Work assessment shall be conducted for the Project, Tutorials and Seminar. Term work is

continuous assessment based on work done, submission of work in the form of report/journal, timely completion, attendance, and understanding. It should be assessed by subject teacher of the institute. At the end of the semester, the final grade for a Term Work shall be assigned based on the performance of

the student and is to be submitted to the University.

Notes

1 Each student should perform any eight of the above experiments.

2 The regular attendance of students during the syllabus practical course will be monitored and marks will be given accordingly (05 Marks).

3 Good Laboratory Practices (05 Marks)


Phone: 02594-222541, 222582 Fax: 02594 222555


Date

Issue No./


SUN/SOET/MECH/_______/_______/2018


Year: Third Year Semester - V

Course: Theory of Machines Lab Course Code- YME513

Practical: - 2 Hrs./Week Practical/ Oral Examination: 25 Marks

Sr. No. Description

1 To draw conjugate profile for any general type of gear tooth

2 To generate involute gear tooth profile and to study the effect of undercutting and rack shift

using model.

3 To study various types of gearboxes- constant mesh, sliding mesh, synchromesh gear box, Industrial gearbox, differential gearbox.

4 To measure holding torque of the epicyclic gear train.

5 To verify the gyroscopic principles.

6 To verify the cam jump phenomenon for an eccentric cam

7 Motion analysis and plotting of displacement-time, velocity-time, acceleration- time, jerk- time and Layout of cam profiles- 3 to 5 Problems

8 To synthesize the four bar and slider crank mechanisms using relative pole and inversion methods with three precision positions

9 Assignment on synthesis of mechanism using analytical method.

Term Work:

Term Work assessment shall be conducted for the Project, Tutorials and Seminar. Term work is continuous assessment based on work done, submission of work in the form of report/journal, timely completion, attendance, and understanding. It should be assessed by subject teacher of the institute. At

the end of the semester, the final grade for a Term Work shall be assigned based on the performance of the student and is to be submitted to the University.

Notes

1 Each student should perform any 08 of the above experiments.





The performance in the Practical/Oral/Presentation examination shall be assessed by at least a pair of examiners appointed as examiners by the University. The examiners will prepare the mark/grade sheet

in the format as specified by the University, authenticate and seal it. Sealed envelope shall be submitted to the head of the department or authorized person.

Notes

1 One experiment from the regular practical syllabus will be conducted. (Total 15 Marks).

2 Complete laboratory journal/records (05 Marks).

3 Viva-voce (05 Marks).


Phone: 02594-222541, 222582 Fax: 02594 222555


Date

Issue No./


SUN/SOET/MECH/_______/_______/2018


Year: Third Year Semester - V

Course: Computer Aided Drafting & Modelling Lab Course Code- YME514

Practical: - 2 Hrs./Week Practical/ Oral Examination: 25 Marks

Sr. No. Description

1 Introduction of interface and demonstration of 2D modeling software.

2 Limits, Fits, Tolerances, Drawing standards and drafting the sheet on drawing conventions.

3 Drafting the details and assembly of any mechanical component like C-Clamp, Steam stop

valve etc.

4 Drafting the details and assembly of any mechanical component like screw jack, tailstock, Plummer block etc

5 Introduction of interface and demonstration of 3D modeling software.

6 Creating 3D models for the parts of the experiment 3

7 Creating 3D models for the parts of the experiment 4

8 Assembly of parts modeled in assignment 6

9 Assembly of parts modeled in assignment 7

Term Work:


continuous assessment based on work done, submission of work in the form of report/journal, timely completion, attendance, and understanding. It should be assessed by subject teacher of the institute. At

the end of the semester, the final grade for a Term Work shall be assigned based on the performance of the student and is to be submitted to the University.

Notes





Practical/Oral/Presentation shall be conducted and assessed jointly by internal and external examiners. The performance in the Practical/Oral/Presentation examination shall be assessed by at least a pair of

examiners appointed as examiners by the University. The examiners will prepare the mark/grade sheet in the format as specified by the University, authenticate and seal it. Sealed envelope shall be

submitted to the head of the department or authorized person.


Phone: 02594-222541, 222582 Fax: 02594 222555


Date

Issue No./


SUN/SOET/MECH/_______/_______/2018

Notes




Resources

Reference

Books

1. Bhat N. D., “Machine Drawing”, Charotar Publications.

2. Ajeet Singh, “Machine Drawing”, McGraw Hill Publications.

3. ASME Y14.5 -2009, ASME, 2009


Phone: 02594-222541, 222582 Fax: 02594 222555


Date

Issue No./


SUN/SOET/MECH/_______/_______/2018

School of Engineering and Technology

Course Structure for B.Tech. in Mechanical Engineering

Semester – VI (Third Year Engineering)

Sr. No

Code Course Code

Theory Paper/Practical

Teaching Scheme (Hrs/Week)

C

Duration of University

Exam. (Hrs.)

Formative

CIA

Summative

Total Marks

L T P Total TH OR / PR

1. UC YME614 Minor Course$ -- -- -- -- 03 03 50 50 25* 125

2. PC YME601 Numerical Methods and

Programming 03 -- -- 03 03 03 50 50 -- 100

3. PC YME602 Machine Design 03 01 02 06 05 03 50 50 25* 125

4. PC YME603 Hydraulic Machines 03 01 -- 04 04 03 50 50 -- 100

5. PC YME604 Refrigeration & Air

Conditioning 03 -- -- 03 03 03 50 50 -- 100

6. PC YME605 Industrial Engineering 03 -- -- 03 03 03 50 50 -- 100

7. PC YME611 Numerical Methods and

Programming Lab -- -- 02 02 01 50 50

8. PC YME612 Hydraulic Machines Lab -- -- 02 02 01 25* 25

9. PC YME613 Refrigeration & Air

Conditioning Lab -- -- 02 02 01 25 25

10. PC YME615 Seminar -- -- 02 02 01 25 25

Total 15 02 10 27 27 300 300 175 775

CIA: Continuous Internal Assessment L: Theory Lecture

T: Tutorial P: Practical

TH: Theory Exam. $: Minor courses are optional

*: O ral Examination UC: University Core PC: Programme Core

Details of Continuous Internal Assessment (CIA)

CIA Weightage Description

CIA 1 10% Home Assignment

CIA 2 20% Mid-Term Exam (MTE)

CIA 3 10% Presentation by students

CIA 4 10% Research Based Activity

TOTAL 50%


Phone: 02594-222541, 222582 Fax: 02594 222555


Date

Issue No./


SUN/SOET/MECH/_______/_______/2018


Year : Third Year Semester – VI

Course: Numerical Methods and Programming Course Code: YME 601



Course Objectives

1 Revising & learning a programming Language

2 Understanding the difference between Analytical & Numerical methods & Importance of the

numerical methods

3 Developing skills to code the sequence of a numerical method & verification by manual solution

4 Optimize the solution for different real life problems with available constraints.

Unit


I

Basics of programming language: -Character set, Special symbols, Keywords,

variables, Types of statements, logical operators, Sequential programs, Decision

Making, Looping, arrays, simple programs on decision making & looping.

Introduction to a mathematical solver.

Errors: -Types of errors, Concept of convergence.

10

II

Numerical solution of Algebraic & Transcendental equations: - Bisection,

Regula- falsi, Newton Raphson & successive approximation methods.

Curve fitting: - Criteria of least squares- Applied to linear equation, Power

equation, Exponential equation and Quadratic equation.

8

III

Numerical integration: - Trapezoidal rule, Simpson‟s Rule (1/3rd and 3/8th), Gauss

Quadrature 2-point and 3-point method. Double Integration: Trapezoidal rule,

Simpsons 1/3rdRule.

Interpolation: -Lagrange‟s Interpolation, Newton‟s Forward difference

interpolation, inverse interpolation.

9

IV

Ordinary Differential Equations [ODE]

Taylor series method, Euler Method, Modified Euler Method(Iterative), Runge-

Kutta Second order, Runge-Kutta fourth order Method, Simultaneous equations

using Runge Kutta Second order method.

8

V

Partial Differential Equations [PDE]: Finite Difference methods

Introduction to finite difference method, PDEs- Parabolic equations- explicit

solution, Elliptic equation- explicit solution.

Simultaneous equations: -Gauss Elimination Method, Partial pivoting, Gauss-

Seidal method.

10

Total 45


Phone: 02594-222541, 222582 Fax: 02594 222555


Date

Issue No./


SUN/SOET/MECH/_______/_______/2018

Course Outcomes

1 Formulating the relevant algorithms & coding for the numerical method

2 Selection of appropriate numerical method for solution of complex mechanical engineering problems

3 Use of mathematical solver for verifying the results obtained from the code.

Resources

Recommended

Books

1. Dr. B. S. Grewal, “Numerical Methods in Engineering and Science”, Khanna

Publishers.

2. Steven C. Chapra, Raymond P. Canale, “Numerical Methods for Engineers”,

4/e, Tata McGraw Hill Editions

3. Rao V. Dukkipati, “Applied Numerical Methods using Matlab”, New Age

International Publishers

Reference Books 1. E. Balagurusamy, Numerical Methods, Tata McGraw Hill

2. S. S. Sastry, Introductory Methods of Numerical Analysis, PHI.

3. Gerald and Wheatley, Applied Numerical Analysis, Pearson Education Asia


Phone: 02594-222541, 222582 Fax: 02594 222555


Date

Issue No./


SUN/SOET/MECH/_______/_______/2018



Course: Machine Design Course Code: YME602


Practical: 02

Hrs/Week Tutorial: 01 Hrs/Week Continuous Internal Assessment: 50 Marks

Max. Time for Theory Exam.: 03 Hrs Oral Examination: 25 Marks

Course Objectives

1 To understand the concepts of strength design related to various components.

2 To understand and effectively use the design data books & various codes of practice.

3 To study selection of rolling element bearing & hydrodynamic bearing.

4 To make familiar with preparation of working drawings based on designs.

5 Enable students to design various transmission elements like belt, chain, flywheel etc.

Unit


I

Design of Spur & Helical Gears

Spur Gear: Basic nomenclature of Spur gear, Stresses induced in gears, Lewis bending equations, Buckingham‟s equation for wear, Calculation of appropriate

safety factors and power rating, Design of spur gears for simple power transmission.

Helical Gear: Basic nomenclature of Helical gear, Transverse and normal module, Virtual no of teeth, Force analysis, Beam and wear strengths, Design of helical

gears.

09

II

Design of Bevel & Worm Gears

Bevel Gears: Basic nomenclature of Bevel gear, Formative number of teeth, Force analysis, Beam and wear strengths, Design of straight tooth bevel gears.

Worm Gears: Basic nomenclature of Worm gear, Types of worm and worm gears, Standard dimensions, Force analysis of worm gear drives, Friction in Worm gears and its efficiency, Worm and worm-wheel material, Thermal considerations.

09

III

Sliding Contact Bearings

Design of hydrodynamic bearings for various types of shaft loadings and end conditions, 2D Basic Reynolds Equation, Somerfield number, Raimondi and Boyd

method, Temperature Rise & Parameters of bearing design.

Introduction to hydro static bearings, Properties, additives & selection of lubricating oils, Types and selection of Mechanical seals.(No Numerical Treatment)

09

IV

Rolling Contact Bearings

Types of bearing and designation, Stribeck‟s Equation, Equivalent bearing load,

Load-life relationship, Selection of bearing life, Choice of rolling contact bearings based on constant, variable load & speed conditions from charts,

Lubrication and mounting of bearings, Preloading of rolling contact bearings, Types

08


Phone: 02594-222541, 222582 Fax: 02594 222555


Date

Issue No./


SUN/SOET/MECH/_______/_______/2018

of failure in rolling contact bearings – causes and remedies.

V

Design of Belts & Flywheel

Belts: Nomenclature, types of drives, derivation of belting equation, Design of flat belt and „V‟ belt for simple power transmission between shafts, concept of slip & creep Selection of flat and V belts from manufacturer‟s catalogue & Choices of

pulleys appropriate for the drives.

Flywheel: Introduction, Fluctuation of energy and speed, turning moment diagram, estimating inertia of flywheel for reciprocating prime movers and machines, stresses

in rims and arms.

Wire Rope & Chain Drive: (No Numerical Treatment) Construction of wire ropes, lay of wire ropes, stresses in wire rope, selection of wire ropes, Types of power

transmission chains, Geometry of Chain, Polygon effect of chain, Modes of failure for chain, Lubrication of chains.

10

Total 45

Course Outcomes

1. Students will be able to select appropriate gears for power transmission on the basis of given load and speed.

2. Acquire skill in using design data books in designing various components.

3. Ability to design and select different types of bearings from manufacturer‟s catalogue.

4. Enhancement in proficiency of CAD software for design and analysis so that students are capable to generate production drawing.

5. Select and/or design belts and flywheel for given applications.

Lab work will consist of following:

1.

One design project based on following topic:

1. Design of Spur & Helical gear box

2. Design of Helical & Bevel gear box

3. Single stage worm gear box.

2.

Each assignment containing at least 2- numerical based on following topics. These design

exercises should be in the form of design calculations with sketches and/ or drawings.

1. Rolling contact bearings

2. Sliding contact bearing

3. Design of belt, chain and flywheel

Lab Work:

Lab Work assessment shall be conducted for the Project, Laboratory and Seminar. Lab work is

continuous assessment based on work done, submission of work in the form of report/journal, timely

completion, attendance, and understanding. It should be assessed by corresponding course teacher. At the

end of the semester, the final grade for a Lab Work shall be assigned based on the performance of the

student and is to be submitted to the University.


Phone: 02594-222541, 222582 Fax: 02594 222555


Date

Issue No./


SUN/SOET/MECH/_______/_______/2018

Notes

1 Each student should perform all the above experiments.

2 The regular attendance of students during the syllabus practical course will be monitored and marks will be given accordingly.

3 Students should undergo good laboratory practices.



The performance in the Practical/Oral/Presentation examination shall be assessed by at least a pair of

examiners appointed as examiners by the University. The examiners will prepare the mark/grade sheet in

the format as specified by the University, authenticate and seal it. Sealed envelope shall be submitted to

the head of the department or authorized person.

Notes




Resources

Recommended

Books

1. Bhandari V.B., “Design of Machine Elements”, Tata McGraw Hill Publication Co.

Ltd

2. C. S. Sharma and KamleshPurohit, “Design of Machine Elements”, Prentice Hall India Publication.

3. Shigley J.E. and Mischke C.R., “Mechanical Engineering Design”, McGraw Hill

Publication Co. Ltd.

Reference

Books

1. Robert L. Norton, “Machine Design: An Integrated Approach”, Fifth Edition

2. Richard Budynas, Keith Nisbett, “Shigley‟s Mechanical Engineering Design”, Mc Graw Hill, Ninth Edition

3. D.K.Aggarwal&P.C.Sharma, “Machine Design”, S.K Kataria and Sons 4. Black P.H. and O. Eugene Adams, “Machine Design”, McGraw Hill Book Co. 5. Spotts M.F. and Shoup T.E., “Design of Machine Elements”, Prentice Hall Int.

6. Design Data - P.S.G. College of Technology, Coimbatore. 7. Bhandari V. B., “Machine Design data book”, Tata McGraw Hill Publication Co.

Ltd.


Phone: 02594-222541, 222582 Fax: 02594 222555


Date

Issue No./


SUN/SOET/MECH/_______/_______/2018



Course: Hydraulic Machines Course Code: YME 603

Tutorial: 1 Hr/Week



Course Objectives

1 To provide the knowledge of basic principles, governing equations and applications of turbo

machine.

2 To explain construction and working principle with detail of velocity diagram of impulse turbine.

3 To explain construction and working principle with detail of velocity diagram of reaction turbine.

4 To provide adequate knowledge about the performance and governing of turbines.

5 To explain construction and working principle with detail of velocity diagram of hydraulic pumps.

Unit


I

Basics of Turbo Machinery: Turbo machines (Hydraulic & Thermal), Classification of Turbo machines, Comparison with positive displacement

machines, Fundamental equation governing turbo machines, Different losses associated with turbo-machinery, Applications of Turbo machines, Introduction to hydro-electric power plant.

Impact of Jet Impulse – momentum principle, jet impingement - on a stationary flat plate, inclined plate and a hinged plate, at the center of a stationary vane, on a

moving flat plate, inclined plate, a moving vane and a series of vanes, Jet striking tangentially at the tip of a stationary vane and moving vane(s), jet propulsion of ships.

10

II

Impulse Turbine: Classification – impulse and reaction turbines, water wheels, component parts, construction, operation of a Pelton wheel, work done, effective head, available head and efficiency of a Pelton wheel, design aspects, speed ratio,

flow ratio, jet ratio, number of jets, number of buckets and working proportions, Problems.

8

III

Reaction Turbine: Component parts, construction and operation of a Francis

turbine, Propeller, Kaplan turbine, differences between the Francis and Kaplan turbines, work done by the turbine runner, working proportions and design parameters, slow, medium and fast runners, degree of reaction, inward/outward flow

reaction turbines, construction and operation of a draft tube - its function and different forms, Introduction to new types of turbine, Deriaz ( Diagonal ), Bulb,

Tubular turbines, Problems.

9

IV

Model Similitude: Performance Characteristics and governing of impulse turbines , Performance Characteristics and Governing of reaction turbine, Unit quantities, specific speed and model relationships for turbines, scale effect, cavitations – its

causes, harmful effects and prevention, Thomas cavitation factor, permissible installation height, Problems.

8


Phone: 02594-222541, 222582 Fax: 02594 222555


Date

Issue No./


SUN/SOET/MECH/_______/_______/2018

V

Hydraulic Pumps: Pumps: definition and classifications - Centrifugal pump:

classifications, working principles, velocity triangles, specific speed, efficiency and performance curves- Reciprocating pump: classification, working principles, indicator diagram, work saved by air vessels and performance curves - cavitations

in pumps - rotary pumps: working principles of gear and vane pumps

10

Total 45

Course Outcomes

On successful completion of the course, the student will be able to,

1 Comprehend the concepts of Turbo machinery

2 Analyze the performance and understand the working principles of impulse turbine

3 Understand the working principles and ability to select turbo machine for given application.

4 Predict the performance and understand the governing of turbine and the characteristics of turbine.

5 Understand the working principles and various types of hydraulic pumps.

Resources

Recommended

Books

1. Modi & Seth, Fluid Mechanics, Hydraulic and Hydraulic Machines, Standard

book house.

2. S S Rattan, Fluid Mechanics and Hydraulic Machines, Khanna Publishers

3. Narayana pillai, Fluid Mechanics & Fluid machines, Universities press.

4. Hydraulic Machines, Dr. J. Lal, Metropolitan Book Co. Pvt. Ltd., Delhi

Reference Books 1. S K Som and G Biswas, Introduction to Fluid Mechanics and Fluid Machines,

Tata McGraw Hill.

2. D. S. Kumar, Fluid Mechanics and Fluid Power Engineering, S.K.Kartha and

sons.

3. R. K. Bansal, Fluid Mechanics and Hydraulic machine, Laxmi Publications (p)

ltd., New Delhi

4. Rajput, Fluid mechanics and fluid machines, S. Chand &Co.

5. Vasandani, V.P., Hydraulic Machines-Theory and Design, Khanna Publishers,

1992.


Phone: 02594-222541, 222582 Fax: 02594 222555


Date

Issue No./


SUN/SOET/MECH/_______/_______/2018

School of Engineering & Technology Programme: Mechanical Engineering

Year : Third Year Semester -VI

Course: Refrigeration & Air Conditioning Course Code: YME604



Objectives

1 To understand the refrigerant types with their properties and their impact on environmental

system.

2 To get acquainted with VCC and VAS with their applications

3 To understand methods of multi-pressure systems, selection and their implementations.

4 To determine various parameters of psychrometry.

5 To learn the radiative heat transfer between surfaces.

Unit


I

Refrigerant and Applications of Refrigeration and Air Conditioning:

Classification of refrigerants, Designation of refrigerants, Desirable properties of refrigerants, environmental issues, Ozone depletion and global warming, ODP, GWP & LCCP, selection of environment friendly refrigerants, secondary

refrigerants, anti-freeze solutions, Zeotropes and Azeotropes, refrigerant: recovery reclaims, recycle and recharge.

Applications Domestic Refrigerator, Domestic Air Conditioners, Automotive Air Conditioners, Evaporative coolers, water coolers, Commercial Refrigeration- Dairy, Cold

storage, Ice plant, Commercial Air Conditioning-Multiplex, Hospitals.

10

II

Vapour Compression System:

Working of simple vapour compression system, representation of vapour

compression cycle (VCC) on T-s and P-h diagram, COP, EER, SEER, IPLV, NPLV, effect of operating parameters on performance of VCC, actual VCC, methods of improving COP using flash chamber, sub-cooling, liquid vapour heat

exchanger, comparison of VCC with Reverse Carnot cycle, Air Refrigeration systems.

Vapour absorption systems: Introduction, Working of simple vapour absorption system (VAS), desirable properties of binary mixture (aqua-ammonia), performance evaluation of simple

VAS (simple numerical treatment), actual VAS, Li-Br absorption system, three fluid system (Electrolux refrigeration)

8

III

Multiple pressure refrigeration system:

Introduction, need of multistage system, Intermediate pressure, two stage compression with flash gas removal and liquid intercooler, single compressor with multiple evaporator: individual and multiple expansion valves, individual

compressors, cascade system: application and numerical (numerical by using p-h chart),

Introduction to cryogenics: (Linde - Hampson cycle) and applications (no numerical treatment)

8


Phone: 02594-222541, 222582 Fax: 02594 222555


Date

Issue No./


SUN/SOET/MECH/_______/_______/2018

IV

Psychrometry & Human Comfort:

Psychrometry: Basic Psychrometry and processes, BPF of coil, ADP, adiabatic mixing of two air streams, SHF, RSHF, GSHF, ESHF. Factors contributing to cooling load, Numerical based on load analysis

Human Comfort : Thermodynamics of human body, comfort and comfort chart, factors affecting human comfort, concept of infiltration and ventilation, indoor

air quality requirements

10

V

Air Conditioning Systems:

Working of summer, winter and all year round AC systems, all air system, all water system, air water system, variable refrigerant flow and variable air volume

systems, unitary and central air conditioning. Components of refrigeration and air conditioning systems

Working of reciprocating, screw and scroll compressors, working of air cooled, water cooled and evaporative condensers, working of DX, Flooded, Forced feed evaporators, Expansion devices –Capillary tube, TXV, EXV, operating and

safety controls.

9

Total 45

Resources

Recommended

Books

1. 1.Arora C. P., Refrigeration and Air Conditioning, Tata McGraw-Hill

2. Manohar Prasad, Refrigeration and Air Conditioning, New Age Publication.

3. Arora and Domkundwar, Refrigeration & Air Conditioning, Dhanpat rai&

Company, New Delhi . 4. Khurmi R.S. and Gupta J.K., Refrigeration and Air conditioning, Eurasia

Publishing House Pvt. Ltd, New Delhi. 5. Ballaney P.L., Refrigeration and Air conditioning, Khanna Publishers.

Reference Books 1. Dossat Ray J, Principles of refrigeration, S.I. version, Willey Eastern Ltd. 2. Stockers W.F and Jones J.W., Refrigeration and Air conditioning, McGraw

Hill International.


Phone: 02594-222541, 222582 Fax: 02594 222555


Date

Issue No./


SUN/SOET/MECH/_______/_______/2018

School of Engineering & Technology Programme: Mechanical Engineering

Year : Third Year Semester -VI

Course: Industrial Engineering Course Code: YME605



Objectives

1 To produce graduates to perform as industry leaders in the global marketplace, capable of

successfully production planning, controlling, and implementing large-scale projects.

2 To concern the design, improvement, installation, and management of integrated systems of

people, material, and equipment.

Unit


I

Method Study & Work Measurements: Productivity, Introduction to work

study, method study, definition, importance, selection, recording, different recording techniques, principal of motion economy. charts and diagrams for

recording data, therbligs, micro motion study and film analysis, SIMO chart, principles of motion economy. Introduction to work measurement, time study, Step in time study. Various

techniques to measure time, standard time, normal time, observed time. Allowances, measurement & significance. Industry 4.0

9

II

Production Planning and Control: Objectives, production planning and

control functions, Factors affecting production planning and control. aggregate production planning; master production scheduling; MRP, Scheduling & Shop floor Control.

9

III

Facility Design: Facility location factors and evaluation of alternate locations;

types of plant layout and their evaluation; computer aided layout design techniques; assembly line balancing; materials handling systems.

9

IV

Quality Control: Concept of quality control, quality assurance elements of

quality control, statistical quality control, acceptance sampling, control charts for variables and attributes, Uses of X, R, P, C chart, OC curves, Concept of total quality management.

9

V

Operation Research: Linear programming – problem formulation, simplex

method, duality and sensitivity analysis; transportation and assignment models; Introduction to CPM & PERT.

9

Total 45

Resources

Recommended

Books:

1. Kanawaty G., “Introduction to work study” International Labor Office,

Geneva, 1992 2. Barnes, R.M. “Motion and Time Study” John Wiley and Sons, 1980

3. Mahajan M.,” Statistical Quality Control” Dhanpat Rai & Co. 4. Gupta & Hira “Operations Research” S. Chand Publications 5. Chary S.N., “Production & Operations Management” Tata McGraw Hills


Phone: 02594-222541, 222582 Fax: 02594 222555


Date

Issue No./


SUN/SOET/MECH/_______/_______/2018

Reference Books 1. Barnes Ralph M., “Motion & Time study: Design and Measurement of

Work”, Wiley Recommended Books, 2001. 2. Marvin E, Mundel& David L, “Motion & Time Study: Improving

Productivity”, Pearson Education, 2000.

3. Patil S.B, Karad, Kushare, “Industrial Engineering and Management” Technical Publication Pune, 2008

4. Chapman S.N, “The Fundamentals Of Production Planning And Control” Pearson Education, 2006


Phone: 02594-222541, 222582 Fax: 02594 222555


Date

Issue No./


SUN/SOET/MECH/_______/_______/2018


Year: Third Year Semester - VI

Course: Numerical Methods and Programming Lab Course Code- YME611

Practical: - 2 Hrs./Week Practical/ Oral Examination:50 Marks

Sr. No. Description

1 Simple programs (8 to10) using a suitable programming language

2

Programs on numerical solution of Algebraic & Transcendental equations :Bisection

Method, Regula- Falsi Method, Newton Raphson method and Successive approximation

method

3 Programs on Curve Fitting using Least square technique Straight line, Power equation,

Exponential equation, Quadratic equation

4

Programs on Numerical Integration: Trapezoidal rule, Simpson‟s Rules (1/3rd, 3/8th) [In a

single program only], Gauss Quadrature Method- 2 point, 3 point [In a single program only],

Double integration: Trapezoidal rule, Simpson‟s 1/3rdRule.

5 Programs on Interpolation: Lagrange‟s Interpolation, Newton‟s Forward interpolation,

Inverse interpolation

6 Programs on ODE: Euler Method(Iterative), Runge-Kutta Methods- fourth order,

Simultaneous equations.(Runge-Kutta 2nd order).

7 Program on PDE

8 Program on Simultaneous Equations: Gauss Elimination Method, Gauss-Seidal method.

Term Work:

Term Work assessment shall be conducted for the Project, Tutorials and Seminar. Term work is continuous assessment based on work done, submission of work in the form of report/journal, timely

completion, attendance, and understanding. It should be assessed by subject teacher of the institute. At the end of the semester, the final grade for a Term Work shall be assigned based on the performance of the student and is to be submitted to the University.

Notes






examiners appointed as examiners by the University. The examiners will prepare the mark/grade sheet in the format as specified by the University, authenticate and seal it. Sealed envelope shall be submitted to the head of the department or authorized person.


Phone: 02594-222541, 222582 Fax: 02594 222555


Date

Issue No./


SUN/SOET/MECH/_______/_______/2018

Notes





Phone: 02594-222541, 222582 Fax: 02594 222555


Date

Issue No./


SUN/SOET/MECH/_______/_______/2018


Year: Third Year Semester - VI

Course: Hydraulic Machines Lab Course Code- YME612

Practical: - 2 Hrs./Week Practical/ Oral Examination:25 Marks

Sr. No. Description

1 Determination of force exerted by a jet of water on a fixed vane (flat, curvature).

2 Determination of Coefficient of Discharge for Rectangular and Triangular Notches.

3 Study of performance characteristics of a Centrifugal pump at constant speed

4 Study of performance characteristics of a Centrifugal pump at different speeds

5 Study of performance characteristics of a Reciprocating pump at constant speed

6 Study of performance characteristics of a Pelton wheel turbine at constant speed

7 Study of performance characteristics of a Francis turbine at constant speed

8 Study of performance characteristics of a Kaplan turbine at constant speed

Term Work:

Term Work assessment shall be conducted for the Project, Tutorials and Seminar. Term work is continuous assessment based on work done, submission of work in the form of report/journal, timely

completion, attendance, and understanding. It should be assessed by subject teacher of the institute. At the end of the semester, the final grade for a Term Work shall be assigned based on the performance of the student and is to be submitted to the University.

Notes






examiners appointed as examiners by the University. The examiners will prepare the mark/grade sheet in the format as specified by the University, authenticate and seal it. Sealed envelope shall be

submitted to the head of the department or authorized person.

Notes





Phone: 02594-222541, 222582 Fax: 02594 222555


Date

Issue No./


SUN/SOET/MECH/_______/_______/2018


Year: Third Year Semester – VI

Course: Refrigeration Air Conditioning Lab Course Code-YME613

Practical: - 2 Hrs./Week PR/OR Examination : 25 Marks

Sr. No. Description

1 Test on Domestic Refrigerator for evaluation of EER

2 Test on Vapour Compression Test Rig

3 Test on Air Conditioning test rig

4 Test on Ice Plant test rig.

5 Test on Heat Pump test rig

6 Test/visit on Vapour absorption refrigeration test rig

7 Estimation of cooling load of simple air conditioning system (case study)

8 Visit to cold storage plant.

9 Visit to any air conditioning plant

10 Thermal analysis of refrigeration cycle using suitable software

11 Installation and servicing of split air conditioner.

Term Work:


continuous assessment based on work done, submission of work in the form of report/journal, timely completion, attendance, and understanding. It should be assessed by subject teacher of the institute. At the end of the semester, the final grade for a Term Work shall be assigned based on the performance of

the student and is to be submitted to the University.

Notes

1 Each student should perform any nine of the above experiments.

2 The regular attendance of students during the syllabus practical course will be monitored and

marks will be given accordingly (05 Marks).



Phone: 02594-222541, 222582 Fax: 02594 222555


Date

Issue No./


SUN/SOET/MECH/_______/_______/2018


Year: Third Year Semester – VI

Course: Seminar Course Code- YME615

Practical: - 2 Hrs./Week PR/OR Examination : 25 Marks

INSTRUCTIONS FOR SEMINAR REPORT WRITING

It is important that the procedures listed below be carefully followed by all the students of BTech

(Mechanical Engineering).

1. Prepare Three Hard Bound Copies of your manuscript.

2. Limit your Seminar report to 30-40 pages (preferably)

3. The footer must include the following:

School Name, BTech (Mechanical) - Times New Roman 10 pt. and centrally aligned.

4. Page number as second line of footer, Times New Roman 10 Pt, centrally aligned.

5. Print the manuscript using

a) Letter quality computer printing.

b) The main part of manuscript should be Times New Roman 12 pt. with alignment - justified.

c) Use 1.5 line spacing.

d) Entire report shall be of 5- 7 chapters.

6. Use the paper size 8.5’’ × 11’’ or A4 (210 × 197 mm). Please follow the margins given below.

Margin Location Paper 8.5’’ × 11’’ Paper A4 (210 × 197 mm)

Top 1‟‟ 25.4 mm

Left 1.5‟‟ 37 mm

Bottom 1.25‟‟ 32 mm

Right 1‟‟ 25.4 mm

7. All paragraphs will be 1.5 line spaced with a one blank line between each paragraph. Each paragraph

will begin with without any indentation.

8. Section titles should be bold with 14 pt typed in all capital letters and should be left aligned.

9. Sub-Section headings should be aligning at the left with 12 pt, bold and Title Case (the first letter of

each word is to be capitalized).

10. Illustrations (charts, drawings, photographs, figures) are to be in the text. Use only illustrations really

pertinent to the text. Illustrations must be sharp, clear, black and white. Illustrations downloaded from

internet are not acceptable.

a. Illustrations should not be more than two per page. One could be ideal

b. Figure No. and Title at bottom with 12 pt

c. Legends below the title in 10 pt

d. Leave proper margin in all sides

e. Illustrations as far as possible should not be photo copied.

11. Photographs if any should of glossy prints

12. Please use SI system of units only.


Phone: 02594-222541, 222582 Fax: 02594 222555


Date

Issue No./


SUN/SOET/MECH/_______/_______/2018

13. Please number the pages on the front side, centrally below the footer

14. References should be either in order as they appear in the thesis or in alphabetical order by last name

of first author

15. Symbols and notations if any should be included in nomenclature section only

16. Following will be the order of report

i. Cover page and Front page as per the specimen on separate sheet

ii. Certificate from the Institute as per the specimen on separate sheet

iii. Acknowledgements

iv. List of Figures

v. List of Tables

vi. Nomenclature

vii. Contents

viii. Abstract (A brief abstract of the report not more than 100-150 words. The heading of

abstract i.e. word “Abstract” should be bold, Times New Roman, 12 pt and should be typed at the

centre. The contents of abstract should be typed on new line without space between heading and

contents. Try to include one or two sentences each on motive, method, key-results and conclusions

in Abstract

References

ANNEXURE (if any)

(Put all mathematical derivations, Simulation program as Annexure)

17. All section headings and subheadings should be numbered. For sections use numbers 1, 2, 3, …. and

for subheadings 1.1, 1.2, …. etc and section subheadings 2.1.1, 2.1.2, …. etc.

18. References should be given in the body of the text and well spread. No verbatim copy or excessive

text from only one or two references. If figures and tables are taken from any reference then indicate

source of it. Please follow the following procedure for references

Reference Books

Collier, G. J. and Thome, J. R., Convective boiling and condensation, 3rd ed., Oxford University Press,

UK, 1996, pp. 110 – 112.

Papers from Journal or Transactions

Jung, D. S. and Radermacher, R., Transport properties and surface tension of pure and mixed refrigerants,

ASHRAE Trans, 1991, 97 (1), pp. 90 – 98.

Bansal, P. K., Rupasinghe, A. S. and Jain, A. S., An empirical correction for sizing capillary tubes, Int.

Journal of Refrigeration, 1996, 19 (8), pp.497 – 505.

Papers from Conference Proceedings

Colbourne, D. and Ritter, T. J., Quantitative assessment of flammable refrigerants in room air

conditioners, Proc. of the Sixteenth International Compressor Engineering Conference and Ninth

International Refrigeration and Air Conditioning Conference, Purdue University, West Lafayette, Indiana,


Phone: 02594-222541, 222582 Fax: 02594 222555


Date

Issue No./


SUN/SOET/MECH/_______/_______/2018

USA, 2002, pp. 34 – 40.

Reports, Handbooks etc.

United Nations Environmental Programme, Report of the Refrigeration, Air Conditioning and Heat

Pumps, Technical Option Committee, 2002, Assessment - 2002.

ASHRAE Handbook: Refrigeration, 1994 (Chapter 44)

Patent

Patent no, Country (in parenthesis), date of application, title, year.

Internet

www.(Site) [Give full length URL]

Documents

Sandip University · valve, bell crank lever, components subjected to eccentric loading. 09 II ... One experiment from the regular practical syllabus will be conducted