ME Syllabus FT EPS

Government College of Engineering, Aurangabad Department of Electrical Engineering

ME Electrical (Electrical Power Systems) Full Time Curriculum Structure and Scheme of Evaluation

Scheme of Teaching (hrs/week) Scheme of Evaluation (Marks)

Theory Sr No Course Name of the Subjects

L T P Total Hrs

Total Credits Test Assi

gn ESE Term Work

Pract/ Viva-voce

Total

Semester-I

1 EE501 Electrical Machine analysis and modeling 03 01 04 04 20 20 60 100

2 EE 502 Power System Planning & Economic Operation 03 01 04 04 20 20 60 100

3 EE 503 Computer Aided Power Systems Analysis 03 01 04 04 20 20 60 100

4 EE 506 H.V.D.C. Transmission Systems 03 01 04 04 20 20 60 100 5 EE 509

to EE 514

Elective-I 03 03 03 20 20 60 100

6 EE515 Engineering Computation Laboratory 04 04 02 25 25 50

7 EE 519 Power System Laboratory I 04 04 02 25 25 8 EE 520 Seminar 01 01 01 25 25

A) Total of Semester-I 15 04 09 28 24 100 100 300 75 25 600 Semester-II

1 EE 504 Power Systems Dynamics & Stability 03 01 04 04 20 20 60 100

2 EE 505 D S P & Modern Protection Techniques 03 01 04 04 20 20 60 100

3 EE 507 Flexible A.C. Transmission Systems 03 01 04 04 20 20 60 100

4 EE 508 High Voltage Engineering 03 01 04 04 20 20 60 100 5 EE 509

to EE 514

Elective 2 03 03 03 20 20 60 100

6 EE 516 Modeling and Simulation Laboratory 04 04 02 25 25

7 EE 521 Power System Laboratory II 04 04 02 25 8 EE 522 Seminar 01 01 01 25

B) Total of Semester-II 15 04 09 28 24 100 100 300 75 25 600 Total of Semester-II (A+B) 30 08 18 56 48 200 200 600 150 150 1200

Scheme of Teaching (hrs/week) Scheme of Evaluation (Marks)

Theory Sr No Course Name of the Subjects

L T P Total Hrs

Total Credits Test Assi

gn ESE Term Work

Pract/ Viva-voce

Total

Semester-III

1 EE 523 Dissertation Phase I Seminar 48 48 24 50 50 100

C) Total of Semester-I 50 50 100 Semester-IV

1 EE 524 Dissertation Phase II Seminar and project demonstration

48 48 24 100 100 200

D) Total of Semester-II 100 100 200 Total of Semester-II (A+B) 150 150 300

List of Electives:

EE 509 Modern Electric Drives EE 510 E.H.V. Transmission Systems

EE 511 Power System Design EE 512 Power Quality, Electromagnetic Compatibility And Reliability EE 513 Optimization Techniques EE 514 Renewable Electrical Power Systems

M.E. (ELECTRICAL POWER SYSTEMS) Full Time

EE 501: ELECTRICAL MACHINES ANALYSIS AND MODELING Teaching Scheme Examination Scheme Lectures : 3 Hrs/Week Mid-Sem Test : 20 Marks Tutorial : 1Hrs/Week Assignment : 20 Marks

End- Sem Exam : 60 Marks

Basic Principles of Electrical Machine Analysis, Magnetically Coupled Circuits, Electromechanical Energy Conversion, Machine Windings and Air-gap MMF, Winding Inductances and Voltage equations Elementary Direct-Current Machine, Voltage and Torque Equations in Machine Variables, Basic Types, Block Diagram, Static, Dynamic Characteristics, Linearized Machine Equations, Speed Control Equations of Transformation Change of Variables, Stationary Circuit Variables Transformed to the Arbitrary Reference Frame, Commonly Used Reference Frames, Transformation Between Reference Frames, Transformation of a Balanced Set, Balanced Steady State Phasor Relationships, Balanced Steady State Voltage Equations, Variables Observed from Several Frames of Reference Theory of Symmetrical Induction Machines and Synchronous Machines, Voltage Torque Equation in Machine Variables, Equations of Transformation for Rotor Circuits, Voltage Equations in Arbitrary Reference-Frame Variables, Torque Equation in Arbitrary Reference-Frame Variables, Commonly Used Reference Frames Per Unit System, Analysis of Steady State Operation, Free Acceleration Characteristics, Free Acceleration Characteristics Viewed from Various Reference Frames, Dynamic Performance During Sudden Changes in Load Torque, Dynamic Performance During a Three-Phase Fault at the Machine Terminals, Approximate Transient Torque Versus Rotor Angle Characteristics , Comparison of Actual and Approximate Transient Torque-Angle Characteristics during a Sudden Change in Input Torque, First Swing Transient Stability Limit, Comparison of Actual and Approximate Transient Torque-Angle Characteristics, Critical Clearing Time, Equal-Area Criterion Books

1. P.C. Krause, Analysis of Electric Machinery, McGraw Hill, NY, 1987 2. C.V. Jones, The unified Theory of Electrical Machines, Butterworth,-London, 1967 3. Stevenson, Power System Analysis, McGraw Hill, NY 4. Dhar R.N., Computer Aided Power System Operation and Analysis, Tata McGraw Hil 5. P.S. Bhimbra, The Generalised Theory of Electrical Machines, Tata McGraw Hill

M.E. (ELECTRICAL POWER SYSTEMS)

EE 502: POWER SYSTEM PLANNING AND ECONOMIC OPERATION

Teaching Scheme Examination Scheme Lectures : 3 Hrs/Week Mid- Sem Test : 20 Marks Tutorial : 1Hrs/Week Assignment : 20 Marks

End Sem Exam : 60 Marks

Power Planning, Strategic Planning, National and Regional Planning, Planning Tools, Planning Organization, Electricity Regulation Forecasting and Planning, Classification and Characteristic of Loads, Long Term, Mid Term and Short Term Forecasting, Forecasting Techniques and its Modeling, Spatial Load Forecasting, Peak Load Forecast, Reactive Load Forecast. Generation, Transmission and Distribution Planning, Planning Software Packages, Power Sector, Finance Institutions, Reforms to Power Structure, Restructuring of System, Deregulation IPPS, Project Financing Alternatives, Modes of Contracting ( BOT etc) Economic Operation, System Interconnection and Integrated Operation , Thermal Unit Characteristics, Transmission Loss Formula and its Coefficients, Practical Calculation, Evaluation and Application of Economic Scheduling of Generation Automatic Generation and Voltage Control, Load Frequency Control (Single Area and Two Area Load Case) and Economic Dispatch Control, Basic Concepts of Load Dispatch Centers, Functions of Energy Management Centers, Emergency and Restoration of Power System, Automatic Voltage Control, Load Frequency Control with GRCS Digital L F Controllers, Decentralized Control. Reactive Power Control, Methods for Reactive Power Control Operation and Control of Interconnected Power System, Functions of SCADA System, Common Features to All SCADA System, Alarm Function, Integration of Measurement, Control and Protection Functions by SCADA System, SCADA Configuration, Distribution Automation and Control

Books

1. R.N. Sullivan, Power System Planning , Tata McGraw Hill 2. A.S. Pabla, Electrical Power System Planning, Mc Millan India Ltd. 3. L.K. Khirchmayer, Economic operation of Power System, Willey Eastern Ltd. 4. P.S.R. Murty, Power System Operation & control, Tata McGraw Hill 5. I. J. Nagrath, D.P.Kothari, Modern Power System Analysis, Tata McGraw Hill 6. S. Rao, EHV-AC, HVDC Transmission & Distribution Engineering, Khanna Publishers


EE 503: COMPUTER AIDED POWER SYSTEMS ANALYSIS

Teaching Scheme Examination Scheme Lectures : 3 Hrs/Week Mid-Sem Test : 20 Marks Tutorial : 1Hrs/Week Assignment : 20 Marks


Review of Fundamentals, pu Calculations, Phasor Notation, a-Operator, Basic Matrix Algebra, Symmetrical Components of Three and n-Phase System, Current Phasors, Sequence Components of Unbalanced Network Impedances and Machine Impedances, Definition of Sequence Networks Analysis of Unsymmetrical Faults, Shunt Faults, Shunt Fault Calculations, Series Faults, Sequence Impedances of Transmission Lines, Sequence Capacitance of Transmission Lines, Sequence Impedance of Synchronous and Induction Machines, Transformers, Three Winding Transformers Change of Symmetry, Creating Symmetry by Labeling, Generalized Fault Diagrams for Shunt and Series Faults, Computation of Fault currents and Voltages, Constraint Matrix, Primitive Network, Shunt and Series Fault Transformations Simultaneous Faults, Simultaneous Faults by Two - Port Network Theory (Z, Y and H-Type Faults), Simultaneous Faults by Matrix Transformations, Analytical Simplifications of Series and Shunt Faults Computer Solution of Power Flow Problem, Solution using Admittance and Impedance Matrix, Comparison of Admittance and Impedance Matrix Techniques. Power-Flow Problem, Gauss-Seidal, Newton-Raphson Methods, Power Flow Studies in System Design and Operation, Decoupled Power Flow Method Books 1. J. J. Grainger and W.D. Stevenson, Power System Analysis, McGraw Hill, 1994 2. G.W. Stagg and A. H. EI-Abiad, Computer methods in Power System Analysis, McGraw Hill 1968 3. I.J. Nagrath and D.P.Kothari, Modern Power System Analysis, Tata McGraw Hill, 1980 4. G.L.Kusic, Computer Aided Power Systems Analysis, Prentice Hall, 1986


EE 504: POWER SYSTEM DYNAMICS AND STABILITY



Requirements of Reliable Power System, Basic Concepts of Stability, Modeling of Power System Components,

Synchronous Machine, Excitation Systems and Governor System Response to Small Disturbances, Synchronous Machine-State Space Representation, Determination of Machines Parameter from Manufacturers Data Excitation System, Effect on Stability, Analysis of Single and Multi-Machine Systems, Transient Stability Analysis and Control, Mitigation Using Power System Stabilizers, Introduction to Voltage Instability Books

1. P. M. Anderson and A.A. Fouad, Power System Control and Stability, IOWA state university press, USA 2. P.Kunder, Power System stability and Control, McGraw Hill, New York 3. P. Sauer and M.A. PAI, Power system dynamics and stability, Prentice Hall, 1997 4. K.R.Padiyar, Power System Dynamics, Stability and Control, Edition II Interline Publishers, Bangalore, 1996


EE 505: DSP AND MODERN PROTECTION TECHNIQUES


End- Sem Exam : 60 Marks

Power System Operational States, Power System Study Areas, Protective Relaying Problem, Terminology, Design Requirement, IEEE Standard for Relays and Relay Systems Associated with Electric Power Apparatus Static Relays, Solid State Devices Used in Static Protection, Amplitude and Phase Comparator, Synthesis of Various Relays Using Static Comparators e.g. Mho, Reactance, Impedance, Quadrilateral Distance Relay Digital Signal Processing Based Relays, Numeric Relay Algorithms for Over-Current Relay, Distance Relay, Directional Comparison Relay, Differential Relay, Wavelet Applications in Protection Newer Relay Design Philosophies, Basics of Fuzzy Set Theory, Comparison and Integration with Expert System, Application of Fuzzy Logic, Neural Networks and Genetic Algorithm to Protection Relaying Books 1. Y.G. Paithankar, S.R. Bhide, Fundamentals of Power System Protection, Prentice-Hall India, 2003 2. A.G. Phadke, J.S. Thorpe, Numerical Relaying for Power Systems, John Wiley and Sons, 1988 3. Mohinder Sachdeva, Ratan Das, Understanding Microprocessor-Based Technology Applied to Relaying, Power

System Relaying Committee, February 2004 4. Technical papers from IEEE PES Transactions (Power Delivery, Energy Conversion, and Power Systems) 5. L. P. Singh, Digital Protection, Protective Relaying from Electromechanical to Microprocessor, John Wiley & Sons,

Inc,1995 6. Power System Protection 4, digital protection and signaling, Edited by the Electricity Training Association


EE 506: HVDC TRANSMISSION SYSTEMS Teaching Scheme Examination Scheme Lectures : 3 Hrs/Week Mid-Sem Test : 20 Marks Tutorial : 1Hrs/Week Assignment : 20 Marks

End Sem Exam : 60 Marks Principles of HVDC Transmission, Terminal Equipments and Their Controls, Reactive Power Control. Analysis of HVDC Converters, Choice of Converter Configuration, Analysis of Graetz Circuit, Converters Bridge Characteristics, Twelve Pulse Converters, Detailed Analysis of Converter HVDC System Control, DC Link Control, Converter Control Characteristics, Control of Firing Angle, Current, Extinction Angle and Power Harmonics and Filters, Generation of Harmonics, Design of AC and DC Filters, Carrier Frequency and Rl Noise. Multi-Terminal DC Systems, Potential Applications, Types, Control and Protection Analysis of AC/DC Systems, Converter Model and Control, Modeling of AC and DC Networks, Modeling of DC Links, Solution of DC Load Flow, Per Unit System for DC Quantities, Solution of AC - DC Power Flow Protection, Converter Faults, Protection Against Over Currents, Over Voltages, HVDC Circuit Breakers, Protection by DC Reactors, Insulation Coordination. Earth Return: Use of Earth and Sea Return, Advantages and Problems. Simulation of HVDC Systems: Digital Dynamic Simulation of Converters and DC Systems, Some Case Study of HVDC Installation

Books

1. Adams and Hingorani, HVDC transmission 2. E.W.Kimbark, DC transmission Vol. I & II. 3. K.R.Padiyar, HVDC power transmission systems - Technology and System Interactions, New Age International Ltd. 4. S. S. Rao, EHV - AC & HVDC transmission Engg, & Practice, Khanna Publishers

M. E. (ELECTRICAL POWER SYSTEMS)

EE 507: FLEXIBLE A.C. TRANSMISSION SYSTEMS



Advanced Power Semiconductor Devices, Voltage Source Converter, Single Phase Full Wave Bridge Converter Operation, Three Phase Full Wave Bridge Converter, Three Level Voltage Source Converter, PWM Converter, Generalized Technique of Harmonic Elimination and Voltage Control, Current Source Converter, Current Source versus Voltage Source Converters FACTS Concepts, Flow of Powers in AC System, Dynamic Stability Consideration of Transmission Interconnection, Relative Importance of Controllable Parameters, FACTS Controllers Static Shunt Compensator, Methods of Controllable VAR Generation, Static VAR Compensators, Static VAR Systems Static Series Compensator, Variable Impedance Type Series Compensators, Switching Converter Type Series Compensators, External Control for Series Reactive Compensatos Combined Compensators, Unified Power Flow Controller, Interline Power Flow Controller, Generalized and Multifunctional FACTS Controllers Books 1. N.G. Hingorani, Understanding FACTS, IEEE Press, 1999 2. Yang hue song, Flexible AC Transmission Systems ( FACTS), IEEE Press, 1999


EE508: HIGH VOLTAGE ENGINEERING


End Sem Exam : 60 Marks Conduction & Break Down in Gases, Ionization Process & Current Growth, Townsends Criterion for Break Down, Determination of Alpha & Gamma, Streamer Theory of Break Down in Gases, Paschens Law, Breakdown in Non-Uniform Field & Corona Discharge. Conduction & Break Down in Pure Liquid & Commercial Liquid, Breakdown in Solid Dielectrics Generation of High Voltage & Currents, Generation of High D. C. Voltages, High Alternating Voltages & Impulse Voltages. Generation of Impulse Currents Measurement of High Voltages & Currents, Measurement of High Direct Current Voltages, High Alternating Voltages & Impulse Voltages. Measurement of High Direct Currents, High Alternating Currents & High Impulse Currents, Dielectric Loss & Partial Discharge Measurements Over Voltage Phenomenon & Insulation Coordination, Natural Causes for Over Voltages, Lightning Phenomenon, Over Voltages Due to Switching Surges, System Faults & Other Abnormal Conditions, Principles of Insulation Coordination on High Voltage & Extra High Voltage Power Systems High Voltage Testing of Power Apparatus Books 1) M S Naidu , V kamaraju, High voltage Engineering ,Tata McGraw –Hill 2) E kuffel, W.S. Zaengl, J. Kuffel, High Voltage Engineering fundamentals, Butterworth – Heinemann publishers 3) Dieter kind, kurt feser, High Voltage Test Techniques, Vieweg/ SBA publications.


EE 509: (ELECTIVE) MODERN ELECTRIC DRIVES


End Sem Exam : 60 Marks General Progress of Electric Drive, Various Components of Load Torques, Types of Loads, Closed Loop Control of Torque and Speed, Current Limit Control, Speed, Current and Parameter Sensing, Energy Conservation in Electrical Drive System, Losses in Drive Systems Electrical Machines for Drives, Commutation Motors Torque Production, Losses and Cooling, Constant Power Application, Operational Limitations, Induction Motors, Synchronous Permanent Magnet Motors, Switched or Trapezoidal Permanent Magnet Motors, Synchronous Reluctance Motors ( For All Motors- Torque Production, Losses, Equivalent Circuit, Use in Industrial Drive), PM Reluctance Motors, Switched Reluctance Motors, Wound Field Synchronous Machines, Linear Motors and Applications Motion Control with Induction Motors, Inverters for Adjustable Speed, Motor Control Schemes, Review of Scalar Methods, Classical, Industry Standard, Digital Motion Control with FO-IM, State Variable, Observer Based Feedback Issues for Motion, State Variable, FO-IM, Digital Motion Control with Acceleration Feedback, Field Orientation Control Principles for Induction Motors, Current Regulators for Motion Control with FO-IM, Advanced Flux Regulation and Torque Regulation Methods for Motion Control with FO-IM, Self Commissioning and Continuous Self Tuning for FO-IM Variable Frequency Permanent Magnet AC Machine Drive, PMAC Drive Control Structure, Trapezoidal PMAC Machine Control, Sinusoidal PMAC Machine Control, Advanced Control Techniques Such as Position and Current Sensor Elimination, Robust Control High Power Industrial Drives and Classification, Motors & Converters for Large Drives, Synchronous Motors Fed by Externally Commutated Current Source Converters, Induction Motors Fed by Current Source Converters

Books

1. G.K. Dubey, Fundamentals of Electrical Drives, Narosa Publication 2. M.H.Rashid, Power Electronics, PHI publication 3. B.K.Bose, Power Electronics and A.C. Drives, Prentice Hall, 1986 4. B.K. Bose, Power Electronics and Variable Frequency Drive, IEEE Press, 2000 5. Vedam Subrahmanyam, Electric Drives, TMH publication,1994


EE 510: (ELECTIVE) EXTRA HIGH VOLTAGE TRANSMISSION SYSTEMS



Basic Aspects of A.C. Power Transmission, Power-Handling Capacity and Line Loss, Surface Voltage Gradient on Conductors, Electrostatic Field of EHV Lines. Measurement of Electrostatic Fields. Electromagnetic Interference. Traveling Waves and Standing Waves, Line Energization with Trapped - Charge Voltage. Reflection and Refraction of Traveling Waves. Transient Response of Systems with Series and Shunt Lumped Parameters. Principles of Traveling-Wave Protection Lightning & Lightning Protection, Insulation Coordination Based on Lightning Over Voltages in EHV Systems Caused by Switching Operations, Origin of Over Voltages and their Types, Over Voltages Caused by Interruption of Inductive and Capacitive Currents, Ferro-Resonance Over Voltages, Calculation of Switching Surges, Power Frequency Voltage Control and Over Voltages, Power Circle Diagram. Reactive Power Flow and Voltage Stability in Power Systems. Steady - State Static Real Power and Reactive Power Stability, Transient Stability, Dynamic Stability. Basic Principles of System Voltage Control. Effect of Transformer Tap Changing in the Post- Disturbance Period, Effect of Generator Excitation Adjustment, Voltage Collapse in EHV Lines, Reactive Power Requirement for Control of Voltage in Long Lines. Voltage Stability Power Transfer at Voltage Stability Limit of EHV Lines, Magnitude of Receiving End Voltage at Voltage Stability Limit. Magnitude of Receiving End Voltage During Maximum Power Transfer. Magnitude of Maximum Power Angle at Voltage Stability Limit. Optimal Reactive Power at Voltage Stability Limit

Books 1. A. Chakrabarti, D.P.Kothari, A.K. Mukhopdadhyay , Performance, operation & control of EHV power transmission system , Wheeler publications 2. Rakosh Das Begamudre, Extra high-voltage A.C. transmission Engineering, New Age International Pvt. Ltd. 3. S. Rao, EHVAC & HVDC Transmission Engineering & Practice , Khanna Publications


EE 511 :( ELECTIVE) POWER SYSTEM DESIGN Teaching Scheme Examination Scheme Lectures : 3 Hrs/Week Mid-Sem Test : 20 Marks Tutorial : 1Hrs/Week Assignment : 20 Marks

End Sem Exam : 60 Marks Power System Components, Location of Main Generating Stations and Substations, Interconnections, Load Dispatch Centers Design of Transmission Lines, Selection of Voltage, Conductor Size, Span, Number of Circuits, Conductor Configurations, Insulation Design, Mechanical Design of Transmission Line, Towers, Sag- Tension Calculations Design of EHV Transmission Line Based Upon Steady State Limits and Transient Over Voltage, Design Factors Under Steady States, Design of 400kV, 1000mW Medium and Long Transmission Line Without and with Series Capacitance Compensation and Shunt Reactors at Both Ends, 750kVLong Transmission Line with Only Shunt Reactors. Extra High Voltage Cable Transmission, Design Basis of Cable Insulation, Search Performance of Cable Systems, Laying of Power Cables Vigorous Solution of Long Transmission Line, Interpretation of Long Line Equations, Ferranti Effect, Tuned Power Lines, Equivalent Circuit of Long Line, Power Flow Thorough Transmission Line and Methods of Voltage Control Power System Earthing, Earth Resistance, Tolerable and Actual Step and Touch Voltages, Design of Earthing Grid, Concrete Encased Electrodes, Tower Footing Resistance, Impulse Behaviour Earthing System Books 1. M.V. Deshpande, Electrical Power System Design, Tata McGraw Hill 2. B.R.Gupta, Power System Analysis and Design, Wheeler Publishing co. 3. I.J.Nagrath & D. P. Kothari, Power System Engineering, Tata Mc Graw Hill 4. Rakosh Das Begamudre, Extra high-voltage A.C. transmission Engineering, New Age International Pvt. Ltd. 5. S.S.Rao, EHV AC & HVDC Transmission Engineering & Protection, Khanna Publishers


EE 512: (ELECTIVE) POWER QUALITY, ELECTROMAGNETIC COMPATIBILITY AND RELIABILITY

Teaching Scheme Examination Scheme Lectures : 3 Hrs/Week Mid- Sem Test : 20 Marks Tutorial : 1Hrs/Week Assignment : 20 Marks

End Sem Exam : 60 Marks Various Aspects of Power Quality and EMC, Types of Disturbances and Need for Structure of EMC and Power Quality Standards Harmonic Distortion, Causes and Consequences of Waveform Distortion with Emphasis on Harmonic Distortion; Mitigation of Waveform Distortion; Spread of Harmonic Distortion Through the Network; Harmonic Standards, Voltage Dips, Light Flicker Electromagnetic Compatibility Power System Reliability, Concepts of Probability, Evaluation Techniques like Markov Process, RBD etc. Methods for the Stochastic Prediction of Frequency and Duration of Long and Short Interruptions, Interpretation of Calculation Results Books 1. M. H. J. Bollen, Understanding power quality problems, voltage sags and interruptions, IEEE Press, New York, 2000 2. R.C. Dugan, M.F. Mc Granaghan, S. Santoso, H.W. Beaty, Electric power systems quality, 2nd Edition, New York,

McGraw Hill, 2002 3. Roy Billinton, Ronald W. Allan and Luigi Salvaderi, Applied Reliability Assessment in Electric Power Systems, IEEE

Press, 1991 4. J. Endrenyi, Reliability Modeling in Electrical Power Systems, Wiley, New York, 1978 5. IEEE Recommended Practice for the Design of Reliable Industrial and Commercial Power Systems. (IEEE GOLD

BOOK) 6. IEEE Std. 519-1992, IEEE Recommended Practices and Requirements for Harmonic Control in Electrical Power

Systems 7. IEEE Recommended Practice for Evaluating Electric Power System Compatibility With Electronic Process Equipment


EE 513: (ELECTIVE) OPTIMIZATION TECHNIQUES



Linear Programming, Simplex Method, Revised Simplex Method, Duality, Sensitivity Analysis Nonlinear Programming, One-Dimensional Minimization, Elimination Methods. Fibonacci Method, Golden Section Method, Interpolation Methods, Quadratic and Cubic Interpolation Methods Unconstrained Optimization Methods, Univariate and Pattern Search Methods, Rosenbrocks Method of Rotating Coordinates, Simplex Method. Descent Methods, Steepest Descent Method, Conjugate Gradient Method (Fletcher- Reeves Method), Davidon- Fletcher- Powell Method Constrained Optimization, Complex Method, Cutting Plane Method, Method of Feasible Directions Integer Programming, Quadratic Programming, Introduction to Genetic Algorithm

Books

1. S. S. Rao, Optimization Theory and Applications, New Age International (P) Ltd. Publishers 2. H. A. Taha, Operation Research, Prentice Hall of India Pvt. Ltd., Seventh Edition 3. R. L. Fox, Optimization Methods for Engineering Design, Addison-Wesley, 1971 4. D. E. Goldberg, Genetic Algorithms in Search, Optimisation, and Machine Learning, Addison-Wesley, 1989 5. The Mathworks, Optimisation Toolbox Users Guide, 1996 6. Himmelblau, D.M. Applied Nonlinear Programming, McGraw-Hill, New York, 1972


EE 514: (ELECTIVE) RENEWABLE ELECTRIC POWER SYSTEMS

Teaching Scheme Examination Scheme Lectures : 3 Hrs/Week Mid-Sem Test : 20 Marks Tutorial : 1Hrs/Week Assignment : 20 Marks End- Sem Exam: 60 Marks Distributed Generation Distributed Generation with Fossil Fuels, Concentrating Solar Power (CSP) Technologies, Biomass for Electricity, Micro-Hydropower Systems, Fuel Cells, Electrical Characteristics of Real Fuel Cells, Types of Fuel Cells, Hydrogen Production Wind Power Systems Historical Development of Wind Power, Types of Wind Turbines, Power in the Wind, Impact of Tower Height, Maximum Rotor Efficiency, Wind Turbine Generators, Speed Control for Maximum Power, Average Power in the Wind, Simple Estimates of Wind Turbine Energy, Specific Wind Turbine Performance Calculations, Wind Turbine Economics The Solar Resource The Solar Spectrum, The Earths Orbit, Altitude Angle of the Sun at Solar Noon, Solar Position at Any Time of Day, Sun Path Diagrams for Shading Analysis, Solar Time and Civil (Clock) Time, Sunrise and Sunset, Clear Sky Direct-Beam Radiation, Total Clear Sky Insolation on a Collecting Surface, Monthly Clear-Sky Insolation, Solar Radiation Measurements, Average Monthly Insolation Photovoltaic Materials and Electrical Characteristics The PV I–V Curve Under Standard Test Conditions (STC), Impacts of Temperature and Insolation on I –V Curves, Shading Impacts on I–V Curves, Crystalline Silicon Technologies, Thin-Film Photovoltaics Photovoltaic Systems, Current–Voltage Curves for Loads, Grid-Connected Systems, Grid-Connected PV System Economics, Stand-Alone PV Systems, PV-Powered Water Pumping Books 1. Gilbert M. Masters, Renewable and Efficient Electric Power Systems, Wiley-IEEE Press August 2004 2. Siegfried Heier, Rachel Waddington Grid Integration of Wind Energy Conversion Systems, Wiley publications 3. Power Generation Renewables by PEP (Professional Engineering Publishers) Wiley publications 4. Thomas Ackermann, Wind Power in Power Systems, Wiley publications


EE 515: ENGINEERING COMPUTATIONAL LABORATORY

Teaching Scheme Examination Scheme Practical: 4Hrs/Week Term Work : 50 Marks

Viva-voce : 50 Marks Term work shall consist of record of minimum eight experiments/assignments using engineering computation software such as MATLAB, PSCAD, ETAP with moderate to high complexity.


EE 516: MODELING AND SIMULATION LABORATORY


Practical Viva-voce : 50 Marks

Term work shall consist of record of minimum eight experiments/assignments using engineering computation software such as MATLAB, PSCAD, ETAP with moderate to high complexity.


EE 517: DIESSERTATION PHASE I


Practical/ Viva-voce : 50 Marks Students will present a seminar on the dissertation work carried out as a part of term work. The department will constitute a committee of three members to evaluate the presentation. The committee will have following structure.

1. Head of the department - chairman 2. Guide - member 3. Subject expert from institute/industry – member

The committee will monitor the quality of the dissertation work.


EE 518: DIESSERTATION PHASE II

Teaching Scheme Examination Scheme Practical: 24Hrs/week Term Work : 50 Marks

Practical / Viva-voce :150 Marks Student will present a seminar on the dissertation work carried out as a part of term work. The department will constitute a committee of three members to evaluate the presentation. The committee will have following structure.

1. Head of the department- chairman 2. Guide - member 3. Subject Expert from Institute/Industry – member

The committee will monitor the quality of the dissertation work.


EE 519: POWER SYSTEM LABORATORY -1

Teaching Scheme Examination Scheme Practical: 4 Hrs/week Term Work : 25Marks

Students will perform practical on Electrical Machine analysis and modeling, Power System Planning & Economic Operation, Computer Aided Power Systems Analysis using software or hardware present in the laboratory. Minimum 4 experiments should be completed as a part of term work. Experiments will be design based.


EE 521: POWER SYSTEM LABORATORY -2

Teaching Scheme Examination Scheme Practical: 4 Hrs/week Term Work : 25Marks

Students will perform practical on Power Systems Dynamics & Stability, Flexible A.C. Transmission Systems, D S P & Modern Protection Techniques, High Voltage Engineering using software or hardware present in the laboratory. Minimum 4 experiments should be completed as a part of term work. Experiments will be design based.


EE 520 and EE 522: Seminar

Teaching Scheme Examination Scheme Tutorial: 1 Hrs/week Term Work : 25Marks

Student will present seminar on work done by any them on any topic relevant to syllabus. The seminar should include some simulations carried out by students.

Documents

ME Syllabus FT EPS