Microsoft Word - Electrical Engg,
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Microsoft Word - Electrical Engg,
1
TEACHING SCHEDULE & STUDY SCHEME
M. TECH. PROGRAMME
(Electrical Engineering)
PUNJAB TECHNICAL UNIVERSITY, JALANDHAR
August, 2003
2
DETAILED SYLLABUS AND OTHER CONDITIONS FOR THE
PROPOSED COURSE
M.TECH. ELECTRICAL ENGINEERING
Schedule of Teaching
Schedule of Examination
Lecture Tutorials Total
Time Theory Sessional Viva Total
(per week)
(Hrs.) Marks Marks
4 0 4 All theory subjects 3 100 50
150
Project
50 50 100
Seminar
100
100
Dissertation
Satisfactory/not Satisfactory
SEMESTER-I
ELE-501
Power System Operation and Control
ELE-502
Advanced Power System Analysis
ELE-503
Advanced Power Electronics
ELE-504
Digital Control Systems
ELE-505
Advanced Electrical Machines
SEMESTER-II
ELE-506
Power System Protection
ELE-507
Advanced Mathematics
ELE-508
HVDC Transmission
ELE-
Elective-I
ELE-
Elective-II
SEMESTER-III
ELE-
Elective-III
ELE-
Elective-IV
ELE-580
Project
ELE-590
Seminar
SEMESTER-IV
ELE-500
Dissertation
LIST OF ELECTIVES
ELECTIVE-I
ELE-509
Power System Stability
ELE-510
EHVAC Transmission
ELE-511
Optimization Techniques
ELECTIVE-II
ELE-512
Microprocessor and their Applications
ELE-513
Applied Instrumentation
ELE-514
Fast Transients in Power Systems
ELECTIVE-III
ELE-515
Energy Efficient Machines
ELE-516
Advanced Electrical Drives
ELE-517
Non Conventional Energy Systems
ELECTIVE-IV
ELE-518
Power System Reliability
ELE-519
Power System Planning
ELE-520
Power System Communication
3
L: 4
Marks Hrs.
ELE: 501
Power System Operations
and Control
Univ. Exam. 100 3
Sessional
50
1.
Characteristics of Power Generation Units
Characteristics of steam units, variation of steam unit characteristics,
cogeneration plants, Light Water, moderated nuclear reactor units, Hydroelectric Units, Composite
generation production cost functions.
2.
Economic dispatch of Thermal Units
The economic dispatch problem; Thermal dispatching with network losses considered, penalty
factors, lambda-iteration method, Gradient Method, Newtons Method, Economic Dispatch with
piecewise linear cost functions, Economic dispatch using dynamic programming. Base Point and
participation factors. George and Kron transmission loss formula (No derivation required),
limitations of loss formula exact method of calculating penalty factors from power flow,
Introduction to optimal power flow. Solution of optimal power flow by gradient method.
3.
Unit Commitment
Economic dispatch vs unit commitment, constraints in unit commitment, Unit Commitment
solution by priority list method and forward dynamic approach.
4.
Hydro-Thermal Co-ordination
Introduction to long range and short range hydro-scheduling, Types of short range scheduling
problems. Scheduling energy. The short term hydro-thermal scheduling problems and its solution
by Lambde-Gamma iteration method and by Dynamic programming. Hydro units in series,
Pumped storage hydro-plant.
5.
Generation Control
Generator, Prime mover, Governor, Tie line and load models. Load frequency and generation
control, supplementary control action, tie line control, generator, allocation, automatic generation
control (AGC) implementation.
6.
Interchanges of Power and Energy
Economy interchange between interconnected facilities. Pooling of interconnect systems. Analysis
of losses in interconnect systems. Theory of Economic operation of interconnect area.
7.
Development of overall Cost of Electric Power, Economic Philosophy of Revenue requirements,
Cost breakdown construction cost, Fuel Cost, O&M Cost.
8.
Reserve generating capacity, reliability, availability and capacity factor, load factor, generating
capacity mix.
4
Recommended Books:
a)
Allen J. Wood and Brace F Wollenberg, Power Generation operation and control, John Willey &
Sons 2
nd
edition 1996.
b)
O.I. Elgerd, Electric Energy system Theory : - An Introduction TMH, 2
nd
Edition.
c)
L.K. Krichmayer, Economic operation of Power Systems, John Willey & Sons, N.Y.
d)
E.L. Grant, Principles of Engineering Economy, Ronald Press, N.Y. 1970.
e)
Related IEEE/IEE publications.
Note:
1.
Eight questions, well distributed out of the entire syllabus are to be set.
2.
Five questions are to be attempted.
5
L: 4 Marks Hrs.
ELE: 502
Advanced Power System Analysis
Univ. Exam. 100 3
Sessional 50
1.
Formation of network matrices, singular and non-singular Transformation. Algorithms for
formation of bus admittance and bus impedance matrices. Sparsity Technique and optimal
ordering.
2.
Load flow studies using Y bus Gauses-Scidel, Neuton Raphson, Fast Decoupled Power Flow, Z-
Bus formulation for load flow solution, Comparison of various methods of load flow solution.
3.
Three Phase Networks, Three Phase Network Elements, Balanced Network, Transformation
Matricies, Three Phase Unbalanced network Elements, Algorithm formation of Three Phase Bus
Impedance Matrix, Modification of Three Phase Bus Impedance Matrix for changes in the
Network.
4.
Network faults and Ceontingency analysis: Facult computation using Z Bus, Short Circuit
Calculation for Three Phase Network using z-bus, Contingency analysis for power system.
5.
State estimation from online measurements: The line power flow state estimation, State estimation
and noisy measurements, Monitoring the Power System Determination of Varience Z2, to
normalize measurements, improvement state estimates by adding measurements.
Recommended Books
1.
Glonn N. Stagg and Aimed H. El-abiad, Computer Method in Power System Analysis McGraw
Hill, International addition 1988.
2.
George L. Kusic, Computer Aided Power System Analysis Prentice Hall, 1986.
3.
J. Arrillage, C.P. Amold and S. J. Harker, Computer Modeling of Electrical Power Systems
John. Willey and Sons 1983.
4.
O.I. Elgard, Electric Energy Systems An Introduction, Tata McGraw Hill, 1971.
5.
M.A. Pai, Computer Techniques in Power Systems Analysis Tata McGraw Hill, 1979
6.
A. Bramaller, R.N. Allan, Y.M Hamam , Sparisity, Pitman Publishing 1975.
7.
P.M. Anderson, Analysis of Faulted Power System, IEEE Press Book.
8.
Related IEEE/IEE Publication.
Note:
1.
Eight questions, well distributed out of the entire syllabus are to be set.
2.
Five questions are to be attempted.
6
L : 4 Marks Hrs.
ELE : 503
Advanced Power Electronics
Univ. Exam . 100 3
Sessional
50
1.
Power Semiconductor Diodes
Diode V-I Characteristics, Reverse Recovery Characteristics, Power Diodes Types, Forward and
Reverse Recovery Time, Series & Parallel Connected Diodes.
2.
Thyristor
V-I Characteristics, Turn ON & Turn OFF Characteristics, Thyristor Type, di/dt and dv/dt protection,
Series and Parallel Operation of Thyristor, Thyristor circuit, UJT and PUJT Thyristor connection
Techniques.
3.
Power Transistors
Bipolar Junction Transistors, Their steady State & Switching Characteristics, Power MOSFETS and
their steady State & Switching Characteristics, Gate derive SITs & IGBTSs, Series & Parallel
Operation di/dt and dv/dt limitations.
4.
Controlled Rectifiers
Single Phase & Three Phase Full Converter with R-L load, Single phase & three phase dual
converters, Power factor improvement technique.
5.
A.C. Voltage Controllers
Principle of phase control, Single Phase and Three Phase Full Controllers, Cycloconvertor,
A.C.Voltage Controllers with PWM Control, Effects of source & Load Inductances.
6.
D.C. Choppers
Chopper Classification, Thyristor Chopper Circuits, Effect of Service and Load Chopper Circuit
Design.
7.
PWM
Inverters, Principal of Operation, Performance Parameters, Single Phase Bridge Invertors and their
Voltage Control, Harmonic Reduction, Invertor Circuit Design.
Recommended Books
1.
M.H.Rashid, Power Electronics, Circuits Devices and Applications, PHI, 1994.
2.
P.C.Sen, Power Electronics, TMH, 1987.
3.
P.S.Bhimbara, Power Electronics, Khanna Publishers, 1993.
4.
Cyril, W.Lander, Power Electronics, MHI,1993.
5.
M.D.Singh & K.B.Khanchandani, Power Electronics, TMH, 1998
6.
Related IEEE/IEE Publication.
Note :
1.
Eight questions, well distributed out of the entire syllabus are to be set.
2.
Five questions are to be attempted.
7
L : 4 Marks Hrs
ELE: 504