Kurukshetra Institute of Technology & Management,...

Kurukshetra Institute of Technology & Management, Kurukshetra Course Plan (7th semester)

Course No : EE-401N L T P/D TOTAL

Course Title : UEE 3 1 - 4

Name of Teacher: Er. Veenu Sessional: 25 Marks

Theory: 75 Marks

S. No.

Topic No. of

Lectures

Planned

No. of

Lectures

Delivered

Contents for the 1st sessional

1

UNIT 1: Illumination: Term used in illumination, Laws of illumination, sources of light

3

2 arc lamp incandescent lamp, discharge lamp, sodium vapour, mercury vapour lamp

3

3 florescent tubes, lightening schemes, method of lightning calculation.

3

4 UNIT II: Electrical Heating: Advantages of Electrical Heating, various types of Electrical heating

2

5 Power frequency and High frequency heating, Degree of heating Elements

2

6 Equivalent circuit of arc furnace, Resistance heating, Arc heating

Induction heating, dielectric heating.

4

Contents for the 2nd sessional

7 Electric Welding: All types of electrical welding, resistance

welding, arc welding, electrical winding equipment

3

8 Comparison between AC & DC welding, types of electrodes,

advantages of coated electrodes.

2

9 UNIT III: Electroplating: Basic principle, faraday’s law of

electrostatics, terms used, Application of electrolysis, factors

governing electro deposition, power supply.

3

Contents for the 3rd sessional

10 Refrigeration & Air Conditioning: Basic principle, various

compression cycle & system its application, electric circuit of

refrigerator, air conditioner.

3

11 UNIT IV: Traction Motors : Different system of electric

traction, comparison between AC & DC system, block diagram

of traction system ,Starting-Speed control and braking-Speed

control .

4

12 Braking –Speed time curves,-Mechanics of Train movement-

Tractive effort for acceleration – Power and energy output from

driving axles-Specific energy output and consumption-Train

4

resistance.

TOTAL 36

(Teacher In-charge) H.O.D

TEXT BOOK:

1. H. Pratap, Art and Science of Utilization of Electric Energy, Dhanpat Rai & Sons,

New Delhi,1980.

2. J.B.Gupta, Utilization Of Electrical Energy and Traction. SK Kataria and Sons

REFERENCE BOOK:

1. Dr.S.L.Uppal, Electrical Power ,Khanna Publishers, New Delhi,1980.

2. M.L.Soni,P.V.Gupta,U.S.Bhatnagar,A.Chakrabarti,A Text Book On Power

System Engineering, Dhanpat Rai & Co,New Delhi1997-98

Kurukshetra Institute of Technology & Management, Kurukshetra

Course Plan (7th Sem)

Course No. : EE- 403-N L T P/D TOTAL

Course Title : High Voltage Engineering 4 1 - 5

Name of Teacher : Er. Deepak Puri Sessional : 25

Theory : 75

Sr. NO.

TOPICS No. of

Lectures

Planned

No. of

Lectures

Delivered

Contents for 1st Sessional Test

UNIT-1

1 Gases - Ionization process, town sends current growth equation. 1st &

2nd ionization coefficients. Town sends criterion for breakdown.

03

2 Streamer theory of breakdown. Paschen's law of gases. Gases used in practice.

02

3 Liquid Dielectrics - Conduction & breakdown in pure & commercial liquids, suspended particle theory, stressed oil volume theory, liquid dielectrics used in practice. Solid Dielectrics - Intrinsic, electromechanical, & thermal breakdown, compos it dielectric, solid dielectrics used in practice.

04

Contents for 2nd Sessional Test

UNIT-2

4 Application of insulating materials in power transformers, rotating machines, circuit breakers, cables & power capacitors.

03

5 Generation of high D.C., A.C. impulse voltage & impulse currents. Tripping & control of impulse generators.

03

6 Measurement of high D.C., A.C. (Power frequency & high frequency) voltages, various types of potential dividers, generating voltmeter, peak reading A.C. voltmeter, Digital peak voltmeter, electrostatic voltmeter, Sphere gap method, factors influencing the spark voltage of sphere gaps.

04

UNIT-3

7 High Voltage Testing of Electrical Apparatus.

03

8 Testing of insulators, bushings, circuit breakers power capacitors & power transformers. Over voltage Phenomenon & Insulation Co-ordination:

03

Contents for 3rd Sessional Test

9 Theory of physics of lightning flashes & strokes. Insulation co-ordination, volt time and circuit time characteristics.

03

10 Boys camera, standard voltage & current shapes produced in Lab., Horn gap single diverters, ground wires, surge absorbers.

02

UNIT-4

11 Need for E.H.V. transmission, use of bundled conductors, corona

characteristics of smooth bundled conductors with different

configurations, corona loss, factors, affecting the corona. Shunt &

Series compensation of E.H.V. lines. Tuned power lines. & H.V.D.C.

Transmission

05

12 Advantages, disadvantages & economics of H.V.D.C. transmission

system.

02

13 Types of D.C. links, converter station equipment, their characteristics.

03

TOTAL 40

Reference Books:

“HV Engg.” By Kamaraju & Naidu

“HVDC Transmission” by S.K.Singh

Name & Signature of Teacher Head’s Signature with Date

1. ………………………..

2. ………………………..

3. ………………………..



Course Title : Power System Operation & Control 4 1 - 5

Name of Teacher: Er. VEENU Sessional: 25 Marks

Theory: 75 Marks

S.No. Topic

No. of

Lectures

Planned

No. of

Lectures

Delivered

Contents for First Sessional Test

UNIT I

1.

AUTOMATIC GENERATION CONTROL: Load

frequency control (single area case); load frequency control

and economic dispatch; optimal load frequency control; load

management.

7

UNIT II

4.

ECONOMIC LOAD DESPATCH: Introduction; Optimal

Operation of Generators of Bus bar; Unit Commitment;

Reliability Considerations; Optimal Generation Schedule

Hydro thermal optimal scheduling

8

Contents for Second Sessional Test

. UNIT III

6.

POWER SYSTEM STABILITY: Steady state; transient

and dynamic stabilities; equal area criteria; effect of fault

clearing time on transient stability; dynamics of synchronous

machine;factors affecting transient stability.

10

Contents for Third Sessional Test

UNIT IV

11.

AUTOMATIC VOLTAGE CONTROL &

EXCITATION SYSTEMS: AVRs; role of AVR on

transient stability of system; type 0 and 1 excitation system;

power system stabilizers.

10

12.

VOLTAGE STABILITY: Basic concept; Voltage collapse;

modelling and prevention.

4

S.No. Topic

No. of

Lectures

Planned

No. of

Lectures

Delivered

14 Revision 3

Total 42

Nagrath .I.J. and Kothari. D.P. “Power System Engineering”, Tata Mcgraw Hill,. 2006

Reference Books:

1. E.W. Kimbark, “Power System Stability”, John Wiley & Sons, 2001

2. P.Kundur, “Power System Control and Stability”, Tata McGraw Hill, 2006

3. B.R.Gupta, “Power System Analysis & Design”, S. Chand & Sons, 2008

4. S.Rao “EHV-AC/DC Transmission System” ;Khanna Pulishers, 1999.

5. William D. Stevenson, Jr., “Elements of Power System Analysis”, Mc-Graw Hill

International, Fourth Edition,1982



Course Title : Transducer & Their Application 3 1 - 4

Name of Teacher: Er. Dimpy Ahuja Sessional: 25 Marks

Theory: 75 Marks

S.No. Topic

No. of

Lectures

Planned

No. of

Lectures

Delivered


UNIT I

1.

Definition of Transducer. Advantages of an electrical signal

as out-put. Basic requirements of transducers. 2

2

Types of Transducer: Primary and Secondary Transducer,

Analog or digital types of transducers. 2

3.

Hall effect transducers, Resistive, inductive, capacitive

transducers, piezoelectric transducers, photoelectric

transducers.

3

UNIT II

4.

Characteristics Of A Transducer: Static characteristics -

Accuracy, Precision, Sensitivity, Linearity, Hysteresis,

Threshold, Resolution, Dead time, Dead zone, Scale range,

Scale span.

3


5.

Dynamic characteristics - Speed of response, Measuring

lag, Fidelity, Dynamic error mathematical model of

transducer - Zero, I & II order transducer-Response to step,

ramp & impulse inputs.

3

UNIT III

6.

Resistance Transducers: Principle of operation,

construction, characteristics and applications of

potentiometer, loading effects, Strain gauge - theory, types,

temperature compensation, applications.

4

S.No. Topic

No. of

Lectures

Planned

No. of

Lectures

Delivered

7.

Inductive Transducers: Self-inductance, Mutual

inductance transducer ,Induction potentiometer ,Variable

reluctance transducers , LVDT, RVD.

4


8.

Capacitive Transducers: Variable air gap type -Variable

area type - Variable permittivity type

Capacitor displacement transducer, Capacitor microphone

and its applications.

4

UNIT IV

11.

Analog And Digital Transducers: Thermo electric

transducer , Photovolatic cell-Hall effect, Sound sensor ,

Seismic transducer ,Piezo electric , Magnetostrictive , Fibre

optic.

4

12.

Digital displacement transducer , Shaft angle encoder,

Digital speed transducer. 3

13 Introduction to MEMS and NANO sensors.

2

Total 34

Reference Books: Instrumentation Measurement and Analysis, by B.C. Nakra, K.K. Chaudhry, Tata McGraw-Hill Publishing

Company Limited, New Delhi.

A course in Mechanical Measurements and Instrumentation, by A.K. Sawhney, Dhanpat Rai & Sons

A Course in Electrical and Electronic Measurements and Instrumentation, by A.K. Sawhney, Dhanpat Rai &

Sons

Name & Sign of Teacher Head’s Signature with Date

1. ………………………

2. ………………………


Course Plan (5th semester)

Course No : EE-303 N L T P/D TOTAL

Course Title : Control System 4 1 - 5


Theory: 75 Marks

S.No. Topics

No. of

Lectures

Planned

No. of

Lectures

Delivered

Sessional 1

1

Control Systems: Basics & Components: Introduction to basic terms,

classifications & types of Control Systems, block diagrams & signal flow

graphs

6

2

, Mathematical Models of Physical System, Differential equation of physical

systems & electrical systems with analogy. Transfer function, determination

of transfer function using block diagram reduction techniques and Mason’s

Gain formula.

8

3

Error detectors, Signal conditioners, Modulators, Demodulators, Servo

amplifiers voltage and power, Actuators including servomotors,

Techogenerators, Stepper motor.

4

4 Unit 2: time response analysis: standard test signals, Time response of

first order and second order systems, 4

Sessional 2

5 Steady – state errors and error constants, response with P, PI and PID

controllers, limitations of time domain analysis. 2

6

Unit 3: Frequency Domain Analysis and Stability : Concept of stability,

graphic and numeric techniques of stability analysis, Routh Hurwitz,

Nyquist, Bode plot

4

7 Root locii and polar plots, frequency domain specifications and performance

of LTI systems, Gain and phase margins, relative stability. 5

8 Correlation with time domain performance closed loop frequency responses

from open loop response. Limitations of frequency domain analysis. 2

Sessional 3

9

Unit 4: State Space & Compensation Techniques: State space

characteristics of control systems. Concepts of state variable, Transfer

Function controllability and observability. Concepts of compensation,

series/parallel/ series-parallel/feedback compensation, Lag/Lead/Lag-Lead

networks for compensation.

6

Total Lectures: 41


References :

1. Control System Engg. By Nagrath and Gopal.

2. Control System Engg. By K.Ogata.

3. Liner Control System by R.S. Chauhan, (Umesh Publications)

4. Feedback control system Analysis and Synthesis by D’Azzo and Houpias.

5. Control System by B.C. Kuo



Course No : EE 301- N L T P/D TOTAL

Course Title : Power Electronics-I 4 1 - 5


Theory: 100 Marks

S.No. Topic

No. of

Lectures

Planned

No. of

Lectures

Delivered


UNIT I

1.

Power Diodes: depletion region, barrier potential, effect of

forward & reverse bias, V-I characteristics, types of power

diode, special features of power diode, power diode ratings,

applications

04

2

Power Transistors: Introduction, Bipolar junction transistor,

construction, transistor operations, BJT characteristics, load

line, operating point, leakage currents, saturation and cut off

mode of operations, applications of power BJT.

05

UNIT II

3. Thyristor , Construction, principal of operation , characteristics

of Thyristor: 02


6.

Thyristor turn on methods gate control, trigger voltage, trigger

current, turn on process, conduction, turn off process ,turn on

and turn off times Thyristor specifications and ratings, methods

to improve di/dt and dv/dt ratings,

07

S.No. Topic

No. of

Lectures

Planned

No. of

Lectures

Delivered

7. DIAC, TRIAC, UJT: Ratings, Construction, principle of

operation. Characteristics & applications 03

UNIT-III

9.

SCR Triggering Circuits: Resistance triggering, R-C

triggering, UJT triggering, triac triggering, pulse transformer

triggering Thyristor in series, in parallel, snubber circuit.

06

10. SCR Commutation: methods, commutating circuits,

protection. 04


11. Thyristor family RCT, GTO, LASCR, MCT, PUT, SUS,

SBS, SCS 03

UNIT-IV

12.

Convertors (Rectifiers): One, two, three, six and twelve pulse

converters, fully and half controlled converters, load voltage

waveforms, output voltage equation, continuous and

discontinuous modes of operation,

04

13.

input power factor of converter, reactive power demand effect

of source inductance, introduction to four quadrant/ dual

converter, power factor improvement techniques, forced

commutated converter, MOSFET and transistor based

converters.

04

Total 46

Text Books:

1. Power Electronics : MH Rashid; PHI

Reference Books:

1. Power electronics: PC Sen; TMH.

2. Power Electronics: HC Rai; Galgotia

3. Thyristorised power Controllers: GK Dubey, PHI

4. Power Electronics: P.S Bhimbra.


Er. Veenu

1. ………………………

2. ………………………

3. ………………………



Course No : EE 309- N L T P/D TOTAL

Course Title : Power Transmission & Dist. 4 1 - 5


Theory: 75 Marks

S.No. Topic

No. of

Lectures

Planned

No. of

Lectures

Delivered


UNIT I

1.

Transmission of Power by A.C. & D.C. system: Typical power

system, Modern trends in power system transmission.

Underground and overhead system, Effects of increase in Voltage

on transmission line efficiency.

04

2

Distribution of Power: General consideration, Radial and ring

main system. Different types of distributors; 02

3. Relative copper consumption in various system.

03

4. Conductor size and Kelvin’s Law, Tariffs and power factor

improvement. 03

UNIT II

5. Resistance of transmission lines, skin effects, Proximity effect, 02

6

Inductance of a single phase & two phase line, Composite

conductor lines, Three phase lines with symmetrical and

unsymmetrical spacing, , Bundled conductors

05

19


S.No. Topic

No. of

Lectures

Planned

No. of

Lectures

Delivered

7. Capacitance of two-wire line, three phase line with symmetrical

and unsymmetrical spacing, Effect of earth capacitance. 04

UNIT-III

8.

PERFORMANCE OF LINES Short, medium and long lines –

their representation, Performance calculation, determination of

ABCD parameters, Ferranti effect, Surge impedance Loading of

transmission lines, , Calculation of synchronous phase modifier

capacity.

06

9.

Corona loss & radio interference Factors affecting corona ,

advantages and disadvantages of corona, disruptive critical

voltage, visual critical voltage, corona power loss, methods of

reducing corona effects, advantages & disadvantages of corona,

interference of power lines with neighboring communication

lines.

04

14

02


Unit 4

10.

Insulation resistance and capacitance, capacitance measurement,

cable loss, Power factor in cable. Heating of cables Thermal

characteristics, Use of inter sheaths, Capacitance grading.

05

11.

Mechanical Considerations Types of Insulators, Methods of

equalizing voltage distribution, Line supports, various types of

conductor material, Sag calculations, Effect of wind, Ice and

temperature on sag, Conditions at erection.

05

12

Total 45

Text Books/References: 1. Power System analysis and Stability by S.S. Vadhera

2. Electrical Power System by C.L. Wadhwa

3. Electrical Power System by Ashfaq Hussain

4. Elements of Power System Analysis by W.D. Stevenson

5. Electric Power System by B.M. Weddy

6. The transmission and Distribution of Electric energy by H. Cotton

7. Modern Power System Analysis by I.J. Nagrath and D.P. Kothari

8. A Course in Electrical Power by Soni, Gupta and Bhatnagar


1. ………………………

2. ………………………

3. ………………………


Date: 25th July, 2018

Course Plan (5th Semester)

Course No. : EE-305 E L T P/D TOTAL

Course Title : NCES 3 0 - 3

Name of Teacher : Er. Yogesh Gupta Theory: 75 Marks

Sessional: 25 Marks

S.No. Topic No. of Lectures

planned

No of

Lectures

Delivered


1.

UNIT I

SOLAR ENERGY: Introduction to Solar Radiation and its

measurement. Solar Energy Collectors & Storage, Flat plate

collectors, liquid and air type.

02

2.

Theory of flat plate collectors, advanced collectors, optical

design of concentrators, solar water heating, solar dryers,

Solar stills, solar cooling and refrigeration. Thermal storage.

03

3.

APPLICATIONS OF SOLAR ENERGY: Solar Thermal

Electric Conversion, Thermal Electric Conversion Systems,

Solar Electric power Generation, Solar Photo-Voltaic.

02

4.

Solar Cell Principle, Semiconductor Junctions, Conversion

efficiency and power output, Basic Photo Voltaic System

for Power Generation.

02

5.

UNIT II

WIND ENERGY: Characteristics of wind, wind data.

Horizontal & Vertical axis wind Mills, Wind Energy

Extraction, Wind Characteristics, Power Density Duration

Curve.

03

6. Design of Wind Turbine Rotor, Design of Regulating

System for Rotor. 01



planned

No of

Lectures

Delivered

7.

Wind Power Generation Curve, Sub-systems of a Horizontal

Axis Wind Turbine Generator, Modes of Wind Power

Generation, Estimation of Wind Energy Potential, Selection

of Optimum Wind Energy Generator (WEG),

02

8. Grid Interfacing of a Wind Farm, Methods of Grid

Connection, Grid System and Properties, 02

9.

Capacity of Wind Farms for Penetration into Grid, Control

System for Wind Farms, Economics of Wind Farms.

01

10. UNIT III

GEOTHERMAL ENERGY: Structure of the Earth's

Interior, Plate Tectonic Theory, Geothermal Sites.

01

11.

Geothermal Field, Geothermal Gradients, Geothermal

Resources, Geothermal Power Generation, Geothermal

Electric Power Plant, Geothermal-Preheat Hybrid with

Conventional Plant.

02


12.

OCEAN ENERGY: Development of a Tidal Power

Scheme, Grid Interfacing of Tidal Power, Wave Energy,

Mathematical Analysis of Wave Energy, Empirical

Formulae on Wave Energy, Wave Energy Conversion,

Principle of Wave Energy plant, Wave Energy Conversion

Machines.

03

13.

FUEL CELLS: Principle of Operation of Fuel Cell, Fuel

Processor, Fuel Cell Types, Energy Output of a Fuel Cell,

Efficiency, EMF of a Fuel Cell, Operating Characteristics of

Fuel Cells, Thermal Efficiency of a Fuel Cell.

02

14.

UNIT IV

BIOMASS ENERGY: Introduction to biomass, biofuels &

their heat content, Brief overview about biomass conversion

technologies, Biochemical conversion and Biogas

technologies. Factors affecting biogas production,

03


planned

No of

Lectures

Delivered

15.

Biogas plants- types & description. Utilization of biogas -

Gasifiers, directs thermal application of Gasifiers.

Advantages & problems in development of Gasifiers, use in

I.C. engines, Energy plantation. Pyrolysis scheme.

Alternative liquid fuels –ethanol and methanol.

04

16. HYBRID ENERGY SYSTEMS: Hybrid Systems and its

types. Concept of Electric and Hybrid Electric Vehicles. 03

TOTAL 36

Reference & Text Books:

1. Renewable Energy Sources and Emerging Technologies by Kothari, Singal and Ranjan, Prentice Hall

Publications.

2. Non-Conventional Sources of Energy by G.D. Rai, Khanna Publishers.

3. Non-Conventional Energy Resources by B H Khan, Tata McGraw Hill Education

4. Renewable energy sources and conversion technology by Bansal N.K., M. Kleemann, M. Heliss, TMGH.

Er. Yogesh Gupta


1. ………………………

2. ………………………

3. ………………………

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