sandip university · 1 the behaviour of engineering material under the loading 2 computation of...

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

Phone: 02594-222541, 222582 Fax: 02594 222555

Course Objectives

1 To solve linear differential equations and use it in application

2 To know to formulate and solve partial differential equations

3 To learn to solve boundary value problems

4 To be familiar with applications of PDE in two dimensional heat equation

5 To gain good knowledge in the application of Fourier transform

Unit

Number Details Hours

I

Linear Differential Equations and Applications

Linear Differential Equations with constant coefficients of nth

order method of

variation of parameters, Cauchy's and Legendre's Differential Equations ,

Simultaneous Differential Equations , Symmetric simultaneous Differential

Equations , Modeling of mass spring systems using eigen values and eigen

vectors

8

II

Partial Differential Equations

Solution of standard types of first order equations, Lagrange's equation, Linear

Homogeneous partial differential equations of second and higher order with

constant coefficients.

8

III

Boundary Value Problems

Classification of second order linear partial differential equations, Solutions of

one-dimensional wave equation, one dimensional heat equation

8

IV

Two dimensional Heat Equation

Steady state solution of two dimensional heat equation Laplace equation

Fourier series solutions in Cartesian coordinates and Polar coordinates 10

V

Fourier Transforms

Statement of Fourier integral theorem (without proof), Fourier transform pairs,

Fourier Sine and Cosine transforms, Properties , Transforms of simple functions,

6

School: School of Engineering and Technology Programme: Mechanical Engineering

Year : Second Year Semester - III

Course: Differential Equation & Applications Course Code: YME301

Theory: 3Hrs/Week

Tutorial : 1Hr/Week Max. University Theory Examination: 50 Marks

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


Phone: 02594-222541, 222582 Fax: 02594 222555

Convolution theorem, Parseval's identity.

Total 40

Course Outcomes

1 linear differential equations and its applications to mechanical systems

Resources

Reference Books 1. Peter V. O' Neil, Advanced Engineering Mathematics, 7th

edition, 2012,

Cengage Learning.

2. P. Kandasamy, Engineering Mathematics, Vol. II & Vol. III (4th

revised

edition), S.Chand & Co.

3. Ervin Kreyszig, Advanced Engineering Mathematics, 10th

edition, 2010, John

Wiley and Sons.


Phone: 02594-222541, 222582 Fax: 02594 222555

Unit


I

Simple Stresses and Strains:

Mechanical properties of materials, analysis of internal forces, simple stress and

strain, stress-strain curve, Hooke’s law, modulus of elasticity, shearing, thermal

stress, Hoop stress, Poisson’s ratio, volumetric stress, bulk modulus, shear

modulus, relationship between elastic constants. Thermal stresses – simple bars

10

II

Analysis of Beams:

Types of beams and loads. Shear Force and Bending Moment diagram for point

load, Uniformly distributed load and uniformly varying load. Maximum bending

moment and position of points of contra flexure.

08

III

Stresses in Beams:

Moment of inertia of different sections, bending and shearing stresses in a beam,

theory of simple bending, derivation of flexural formula, economic sections,

horizontal and vertical shear stress, distribution shear stress for different

geometrical sections- rectangular, solid circular, I-section, other sections design

for flexure and shear

12

IV

Transverse Beam Deflections:

Differential equation of deflected beam, slope and deflection at a point,

calculations of deflection for determinate beams by double integration,

Macaulay’s method, deflection of cantilever beams, deflection in simply

08



Course: Mechanics of Solids Course Code: YME302

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

Tutorial:1 Hr./Week Practical: 2Hrs/Week Continuous Internal Assessment: 50 Marks

Max. Time for Theory Exam.: 3 Hrs Term Work: 25 Marks

Course Objectives

1 The behaviour of Engineering Material under the loading

2 Computation of stresses and strains in simple members

3 Computation of area moment of inertia of cross section of the beams

4 Determination of bending and shear stress in beams

5 Computation of Torsional shear stresses in shaft.


Phone: 02594-222541, 222582 Fax: 02594 222555

supported beams.

V

Torsion in Circular Shaft:

Torsional shear stress in solid, hollow and stepped circular shafts, angular

deflection and power transmission capacity.

7

Total 45

Course Outcomes

At the end of the course the students will be able to,

1 Understand the behaviour of Engineering Material under the loading.

2 Compute of stresses and strains in simple members.

3 Compute of area moment of inertia of cross section of the beams.

4 Determine of bending and shear stress in beams.

5 Compute Torsional shear stresses in shafts.

List of Experiments

Sr. No. Description

1 Tensile test on Mild steel rod

2 Compression test

3 Shear Test

4 Torsion Test

5 Assignment on Shear force and bending moment diagrams with different end conditions

6 Assignment on Slope and deflection

7 Assignment on torsional shear stresses in shaft

8 Demonstration on obtaining Shear Force and Bending Moment Diagram by using suitable

software package

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 experiments from above list.


Phone: 02594-222541, 222582 Fax: 02594 222555

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)

Practical/Oral/Presentation:

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).

Resources

Reference Books 1. E.P. Popov, Introduction to Mechanics of Solid, prentice- Hall, Second

Edition 2005.

2. S.H. Crandall, N.C. Dahl. and T.J.Lardner, An Introduction to the Mechanics

of Solids, Tata McGraw Hill, 1978.

3. Dr. H.J. Shah and S.B. Junnarkar, Mechanics of Structure vol.1, 31st edition,

2014, Charotar Publishers, Anand (India).

4. Dr. B.C. Punmia, Er. Ashok Kumar Jain, and Arun Kumar Jain, 2011,

Strength of Materials, Laxmi Publications.


Phone: 02594-222541, 222582 Fax: 02594 222555

Course Objectives

1 To acquaint students with the basic concepts and properties of Material Science

2 To impart a fundamental knowledge of Materials Processing

3 Selection and application of different Metals & Alloys

4 To understand the structure of Engineering Materials

5 To develop futuristic insight into Materials

Unit


I

Introduction to Materials, Structure of Materials & Diffusion in Solids

Introduction to Materials, Classification and selection of engineering materials.

Structure of Materials Bonds in solids: Types of bonds and their energies, Primary Bonds or

Interatomic bonds, Ionic, covalent & Metallic bonds, Secondary Bonds, Vander

Waals forces. Chemical Bonding and Properties of Solid materials. Comparison

between Ionic, Covalent and Metallic bonds.

Crystal Structure , Indexing of Lattice Planes and Lattice Directions, Co-

ordination Number, Atomic Packing Factor, Volumetric and planar density

calculations.

Defects in crystals,

Diffusion in Solids Introduction, Applications of diffusion, Laws of diffusion, Ficks First Law of

Diffusion and Ficks Second Law of Diffusion.

8

II

Phase Diagrams and Mechanical Properties of materials

Phase Diagrams Introduction, Mono Component Systems, Gibbs Phase Rule, Binary Phase

Diagrams, Isomorphous System, Application of Phase Diagrams, Lever Rule,

Alloy Systems, Phase diagrams of common Engineering alloy systems.

Mechanical Properties Different types of loads or forces in determining the mechanical properties of

materials. Relation between Engineering Stress Strain Curve and True Stress

Strain Curve. Evaluation of Mechanical Properties. Various tests in assessment

of Mechanical Properties like Tensile test, Compressive test, Impact Test,

8



Course: Materials Science Course Code: YME303




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Various Hardness Tests & Jominy End Quench Test for Hardenability.

III

Deformation behavior of materials and Heat Treatment

Deformation behavior of materials Elastic and Plastic Deformation. Modes of Plastic deformation: Slip and

Twinning. Critical Resolved Shear Stress for single crystal, Work hardening ,

Rotation of slip plane method and Theory of dislocations ( Frank-Reed source)

Strengthening Mechanisms of Materials. Changes in properties due to cold

working & hot working

Heat Treatment

Iron -Iron Carbide Equilibrium diagram, Time Temperature Transformation

(TTT) Diagram, Continuous Cooing Transformation (CCT) Diagrams, Heat

Treatment of Steels, Various Heat Treatment Processes.

8

IV

Thermal, Electronic and Magnetic Properties of Materials

Thermal Properties of Materials

Introduction, Temperature Scale, Specific Heat Capacity, Specific Latent Heat,

Thermal Expansion Coefficient, Thermal Conductivity, Thermal Sensors,

Measurements using Thermal Sensors, Thermal Conductivity and Thermal

Diffusivity. High Temperature materials and Insulating Materials.

Electronic and Magnetic Properties of Materials

Electrical Conductivity, Electron Mobility, Electrical Resistivity of materials,

Intrinsic and Extrinsic Semi Conduction, Magnetic Properties of Materials,

Diamagnetic, paramagnetic and Ferromagnetic materials Superconductivity.

10

V

Polymers Introduction, Formation of Polymers, Classification of Polymers, Thermoplast

and Thermosetting Polymers. Polymerization Mechanisms: Addition

polymerization and Condensation polymerization.

Composite Materials Introduction, Classification, Fibre reinforced materials, Laminated materials and

Disperse materials, Loading under isostrain conditions and Loading under

isostress conditions. (Numerical)

Ceramics

Introduction to Ceramic materials, Glass transition temperature, applications of

ceramics.

6

Total 40

Course Outcomes

1 Understand the basic concepts and properties of Material.

2 Understand about material fundamental and processing.

3 Select proper metal, alloys, for specific requirement

4 Detect the defects in crystal and its effect on crystal properties.

5 Recognize how metals can be strengthened by cold - working and hot working

Resources


Phone: 02594-222541, 222582 Fax: 02594 222555

Reference Books 1. William D Callister and Jr., David G. Rethwisch, Materials Science and

Engineering : An Introduction, 9th

edition, 2013, John Wiley & Sons, Inc.

2. Reza Abbaschian, Lara Abbaschian and Robert E. Reed-Hill, Physical

Metallurgy Principles, Fourth edition, 2009.

3. Lawrence H.Van Vlack, Elements of Materials Science & Engineering, 6th

edition, 1989, Pearson Publication.

4. G.E. Dieter, Mechanical Metallurgy, 3rd

edition, 1986, McGraw-Hill

Education, London.

5. V. Raghvan, Materials Science and Engineering, 5th edition, 2004, Prentice

Hall of Learning Private Limited, India.

6. I.P.Singh, Subhash Chander and Rajesh K. Prasad, Material Science and

Metallurgy.

7. V.D. Kodgire, Material science and Metallurgy Everest Publishing House.


Phone: 02594-222541, 222582 Fax: 02594 222555

Unit


I

Introduction of Thermodynamics: Basic concepts of Thermodynamics,

Thermodynamic system - Closed and open systems, Macro and Microscopic

Approach, State and equilibrium, Properties of a system, processes and cycles,

introduction to gas laws and gas equations, concept of enthalpy, forms of energy

- Work and heat transfer, Temperature and Zeroth law of thermodynamics, First

law of thermodynamics, Applications of first law to flow and non flow processes

and cycles. Steady flow energy equation and its application to different devices

like turbine, centrigugal pump, compressors, boiler, condensor, evaporator.etc.

PMM I.

09

II

Second Law of Thermodynamics:

Part A: Limitations of first law of thermodynamics, Heat Engine, Heat Pump

and Refrigerator, Second Law of Thermodynamics, Equivalence of Clausius

and Kelvin Planck Statement, PMM II., Carnot cycle, Carnot Principle &

Theorem.

Part B: Concept of Reversibility and Irreversibility, Clausius inequality,

Concept of Entropy, Entropy changes during reversible processes.

Temperature-Entropy diagrams, Principle of increase of entropy, Numerical

Treatment to estimate entropy of a system/process

09

III Part A: Ideal gas equation and Processes:

Ideal Gas definition, Equation of State, Ideal Gas constant and Universal Gas 09



Course: Engineering Thermodynamics Course Code: YME304

Max. University Theory Examination: 50 Marks

Theory: 3 Hrs/Week Continuous Internal Assessment: 50 Marks

Max. Time for Theory Exam.: 3 Hrs Term Work: 25 Marks

Course Objectives

1 To learn the basic principles of classical thermodynamics.

2 To understand various ideal gas laws and its applications to gas mixtures.

3 To learn the thermodynamic processes and cycles.

4 To use thermodynamic tables, charts, and equation of state to obtain appropriate property

data to solve thermodynamics problems.

5 To get conversant with steam generator and its performance calculations


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constant,Ideal gas processes on P-V and T-S diagrams, Constant Pressure,

Constant Volume, Isothermal, Adiabatic, Polytropic, Throttling Processes,

Calculations of heat transfer, work done, internal energy. Change in entropy,

enthalpy for different processes

Part B : Thermodynamic cycles :

Air Standard Cycle, Efficiency and Mean Effective Pressure, Otto Cycle, Diesel

cycle, Dual cycle, Comparison of cycles.

IV

Properties of Pure substances :

Property diagram for phase change processes. Steam properties, Dryness

fraction, Wet, dryand superheated steam, Use of Steam Table and Mollier Chart

to find out specific volume, enthalpy, entropy and internal energy for wet, dry

saturated and superheated steam, Study of steam calorimeters (Barrel,

Separating, Throttling and combined)

Vapour power cycles : Carnot cycle, Rankine cycle, Comparision of Carnot

cycle and Rankine cycle, Efficiency of Rankine cycle (Numerical Treatment),

Reheat & Regenerative cycle. (no numerical for reheat & regenerative )

09

V

Steam Generators & Fuels –Combustion : Classification of Boilers, Features

of Low pressure & High pressure boiler, Boiler mountings and accessories

Boiler performance calculations-Equivalent evaporation, Boiler efficiency.

Fuels & Combustion : Introduction to fuels, Theoretical amount of Oxygen /

Air required for combustion. Stoichiometric Air: Fuel ratio, Excess air, lean and

rich mixtures, Bomb and Boy’s gas calorimeters. (No Numerical Treatment on

fuels and combustion )

09

Total 45

Course Outcomes

1 Students will be able to umderstand thermal processes and their applications.

2 Students will be able to determine thermal properties as well as heat, work and entropy

3 Students will be able to determine dryness fraction of steam, performance of boiler,

efficiencies of cycles and remedies to improve efficiency of cycle.

4 Students will be able to calorific value of fuels and their use with effective combustion.

5 Students will be able to learn and use of steam tables and Mollier Diagram for applications.

Resource

Text Books 1. P.K. Nag, Engineering Thermodynamics, 5th

edition, 2013, Tata McGraw Hill

publication. 2. R K Rajput, Engineering Thermodynamics, 5

th edition, 2017, Laxmi

Publications. 3. D.S. Kumar, Thermal Science & Engineering, Reprint 2013 edition, S.K.


Phone: 02594-222541, 222582 Fax: 02594 222555

Kataria & Sons.

Reference Books 1. Yunus A. Cengel and Michael A. Boles, Thermodynamics: An Engineering

Approach, 8th

edition, 2014, Tata McGraw Hill publication. 2. C P Arora, Thermodynamics, 1

st edition, 2001, Tata McGraw Hill Education.

3. Sonntag, Borgnakke and Van Wylen, Fundamentals of Thermodynamics, 7th

edition, 2008, John Wiley & Sons. 4. S.C. Gupta, Thermodynamics, 1

st edition, 2005, Pearson Education India.

5. Ethirajan Rathakrishnan, Fundamentals of Engineering Thermodynamics, 2nd

edition, 2005, Prentice-Hall India Learning Pvt. Ltd.


Phone: 02594-222541, 222582 Fax: 02594 222555


Year: Second Year Semester - III

Course: Engineering Thermodynamics Lab Course Code- YME314

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

List of Experiment

Sr. No. Description

1 Joule’s experiment to validate first law of thermodynamics

2 Study of Boiler Mountings with construction and working.

3 Study of Boiler Accessories with construction and working.

4 Study & Performance estimation of Air standard cycle using standard simulation software’s

(any programming language) etc.

5 Determination of calorific value using Bomb calorimeter

6 Determination of dryness fraction of steam.

7 Trial on boiler to determine boiler efficiency, equivalent evaporation and Energy Balance.

8 Industrial visit to any process industry which uses boiler and submission of detailed report

9 Measurement of fuel properties such as Flash point, Fire Point.

10 Measurement of fuel properties such as Pour Point and Cloud Point.

Term Work:






Notes

1 Each student should perform any 8 experiments from the above list of experiments.

2 Experiment performance and submission of reports will carry 15 marks.






Phone: 02594-222541, 222582 Fax: 02594 222555






Notes




Resource

Text Books 4. P.K. Nag, Engineering Thermodynamics, 5th

edition, 2013, Tata McGraw Hill

publication.

5. R K Rajput, Engineering Thermodynamics, 5th

edition, 2017, Laxmi

Publications. 6. D.S. Kumar, Thermal Science & Engineering, Reprint 2013 edition, S.K.

Kataria & Sons.

Reference Books 6. Yunus A. Cengel and Michael A. Boles, Thermodynamics: An Engineering

Approach, 8th

edition, 2014, Tata McGraw Hill publication.

7. C P Arora, Thermodynamics, 1st edition, 2001, Tata McGraw Hill Education.

8. Sonntag, Borgnakke and Van Wylen, Fundamentals of Thermodynamics, 7th

edition, 2008, John Wiley & Sons. 9. S.C. Gupta, Thermodynamics, 1

st edition, 2005, Pearson Education India.

10. Ethirajan Rathakrishnan, Fundamentals of Engineering Thermodynamics, 2nd

edition, 2005, Prentice-Hall India Learning Pvt. Ltd.


Phone: 02594-222541, 222582 Fax: 02594 222555

Course Objectives

1 To gain knowledge of conventional representation of various machining and mechanical

details as per IS.

2 To visualize an object and convert it into a drawing.

Unit


I

Machine Elements: Preparation of 2-D drawings of standard machine elements

(nuts, bolts, keys, cotter, screws, spring etc.). Conventional representation of

assembly of threaded parts in external and sectional views, Types of threads;

thread designation, Conventional representation of machine components and

materials, Designation of standard components.

2

II Limits fits and tolerances: Dimensioning with tolerances indicating various types

of fits in details and assembly drawings, 3

III

What is Geometrical Dimensioning & tolerance, Terminology & Basic Rules,

Introduction to Features and Material Conditions, Introduction to Datums, The

Datum Reference Frame, Primary Datum Controls, Form Tolerances,

Orientation Tolerances, Profile Tolerances, Location Tolerances, Runout

Tolerances

3

IV Introduction to the unit assembly drawing, steps involved in preparing assembly

drawing from details and vice-versa, Sequence in assembly 3

V

Use of Design Data Book for material selection, various reference and

applicable standards, machine elements usage and standard sizes viz. bearing

sizes, nomenclature, belt sizes, gear nomenclature, gear selection, fundamentals

on fluid power, control elements, hardware, tools, et al.

1

Total 12

Course Outcomes

1 Visualize and prepare detail drawing of a given object.

2 Draw details and assembly of mechanical systems.

3 Read and interpret a given drawing.



Course: Machine Drawing Course Code- YME305

Theory: 1 Hrs/Week Term Work: 25 Marks


Phone: 02594-222541, 222582 Fax: 02594 222555

Resources

Reference Books 1. N. D. Bhatt, Machine Drawing.

2. Sidheshwar and Kanheya Machine Drawing

3. R. B. Gupta, A text book of Machine Drawing, Satyaprakashan, Tech.

Publication.

4. N. D. Bhatt, Engineering Drawing

5. M. B. Shah, Machine Drawing

6. Design Data Book, PSG College of Technology, Coimbatore


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Unit


I

a) Electrical Power Measurement: - Measurement of active and Reactive

Power in three phase balanced loads by using one wattmeter & two wattmeter,

effect of power factor on wattmeter reading.

b) Electrical Energy Measurement: - Single Phase Energy meter

(construction and Working), Use of CT & PT for measurement of Power /

Energy in single phase and three phase system (Theoretical Treatment only),

standard specifications of single and three phase energy meter.

c) Tariff- Introduction, objectives & Details of H.T. and L.T tariff, TOD tariff,

advantages and improvement of power factor (Theoretical Treatment only)

08

II

a) Single phase Transformer: - Types, KVA rating, approximate equivalent

circuit, voltage regulation and efficiency of transformer, condition for

maximum efficiency.

b) Three phase Transformers: Types of transformer connection (star/star,

star/delta,delta/star, and delta/delta) and applications based on connections.

(Theoretical Treatment only) Introduction of power transformer, distribution

transformer, study of typical distribution transformer substation, specifications

of transformer (KVA rating, voltage ratio, current rating)

c) Three phase Induction Motor:-Constructional feature, working principle of

three phase induction motors, types; torque equation, torque slip characteristics;

power stages; efficiency; types of starters; methods of speed control Industrial

08



Course: Electrical Technology Course Code: YEE306



Course Objectives

1 To introduce basic concept of Electrical Energy

2 To impart basic knowledge of electrical measurement, tariff, illumination and transformers

3 Principle of operation and speed control of DC machines

4 Principle of operation and speed control of AC machines

5 Induction motor principle and its applications

6 Working principle of special purpose motors

7 Power electronics devices with their characteristics


Phone: 02594-222541, 222582 Fax: 02594 222555

applications.

III

a) Single phase induction motors: Types, construction, working principle of

split phase and shaded pole type induction motors, applications. Specifications

of induction motors (KW rating, rated voltage, current rating, frequency, speed)

b) Synchronous Generator: Constructional features (Salient and non- salient),

working principle, e m f equation, synchronous speed of an alternator, concept

of synchronous reactance and impedance, phasor diagram of loaded alternator,

voltage regulation of alternator by direct loading method and synchronous

impedance method. Specifications of synchronous generator.

08

IV

D.C. Machines Construction, working principle of D.C. generator, emf equation of D C

generator.

(Theoretical concept only). Working principle of D.C. motor. Types of D. C.

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

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

for speed control of D.C shunt and series motors, Industrial applications.

Special purpose motors: Construction, working principle, characteristic and

applications of stepper motors, A.C. and D.C servomotors, universal motors,

Industrial applications.

08

V

SCR:-Construction detail, V-I Characteristics, Methods to turn ON, switching

action during ON & OFF, specification, Concept of commutation of SCR.

applications

DIAC:- Construction, V-I Characteristics

TRIAC:- Construction, V-I Characteristics, turning ON process.

MOSFET:- Construction, transfer Characteristics, output characteristics,

Methods to turn ON & OFF, applications

IGBT:- Construction detail, transfer Characteristics, output characteristics,

Methods to turn ON & OFF, applications , GTO Construction ,working and

characteristic

08

Total 40

Course Outcomes

1

2

Resources


Phone: 02594-222541, 222582 Fax: 02594 222555

Text Books 1. B. L. Theraja Electrical Technology, S Chand Publication Co Ltd.

2. Ashfaq Husain, Fundamentals of Electrical Engineering’ Dhanpat Rai & Co.

3. D P Kothari and I J Nagrath, Electrical machines , , Tata McGraw Hill ,Third

Edition

4. S.K. Bhattacharya, Electrical Machinery, , TTTI Chandigarh

5. Edward Hughes, Electrical Technology, Pearson Education

6. H Pratap, Art and Science of Utilization of Electrical Energy , , Dhanpat Rai

and Co ,Third Edition.

7. Dr. P.S. Bhimbra, Power Electronics, , Khanna Publication

Reference Books 1. Lowe, Electrical Machines, , Nelson Publications.

2. A.E. Fitzgerald, Charles Kingsley, Stephen D. Umans, “Electrical Machines”,

Tata McGraw Hill Publication Ltd. Fifth Edition.


Phone: 02594-222541, 222582 Fax: 02594 222555



Course: Machine Drawing Lab Course Code- YME315


Sr. No. Description

1 Symbolic representation of machine elements

2 Draw the rigid or flexible coupling, muff coupling, bracket etc

3 Draw the simple machine elements in first angle projection

4 Draw the missing line problems, principle of visualization of objects, sectional views, full

and half sectional views, auxiliary views

5 Draw the engine connecting rod

6 Draw the pipe and flanged joint

7 Draw the various views of screw threads

Term Work:






Notes

1 Each student should perform all the above experiments.










Notes



Phone: 02594-222541, 222582 Fax: 02594 222555




Phone: 02594-222541, 222582 Fax: 02594 222555



Course: Electrical Technology Course Code- YEE316


Sr. No. Description

1 Measurement of active power in a three phase balanced inductive load using two Wattmeter

method

2 Study of a) D.C. motor starters, b) three phase induction motor starter

3 Speed control of a D. C. shunt motor by armature voltage and flux control methods

4 Load test on a D. C. shunt motor

5 Load test on a D. C. series motor

6 Load test on a three phase induction motor

7 Regulation of an alternator by synchronous impedance method

8 Regulation of an alternator by direct loading method

9 Study of V-I characteristics of SCR & TRAIC

10 Study of a distribution transformer substation and HT/LT energy bill

Term Work:






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


3. Good Laboratory Practices (05 Marks)






Phone: 02594-222541, 222582 Fax: 02594 222555



Notes




sandip university · 1 the behaviour of engineering material under the loading 2 computation of...

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