B.<strong>Tech</strong>. <strong>Electrical</strong> <strong>Engineering</strong> (Regular)REFERENCE BOOKS1. Elgerd, O.I., ”<strong>Electrical</strong> Energy System Theory: AnIntroduction”, Tata McGraw Hill, 19932. Stevenson, W. D., “Elements of Power SystemAnalysis”, McGraw Hill, 19823. Nagrath, I.J., Kothari, D.P., “Power System<strong>Engineering</strong>”, Tata McGraw Hill, 1999.EL-461COMPUTER APPLICATIONSTO ELECTRICALENGINEERINGL-T-PCr5-0-0 3OBJECTIVEProviding knowledge about the computer programmingand simulation techniques and also expose thestudents to the application of various software such asMATLAB, SIMULINK, PSPICE for the design andanalysis of power systems, electrical and electronicscircuit electrical machines etc.PRE-REQUISTESKnowledge of C, C++ and electrical and electronicscircuits and systems1. INTRODUCTION: Essentials of computerprogramming; simulation techniques; computergraphic - 2D and 3D visualizations modernlearning materials.2. INTRODUCTION TO OOPS (HIGH LEVELLANGUAGES): Programming with C and C++ withapplication to machine design and power systemanalysis. introduction to Java with application toANN and interaction models.3. VISUAL BASIC: Study of visual studies;programming with VB; application to machine design4. MATLAB & SIMULINK: Computing language;study of toolboxes; application to machineanalysis; power system; control system; AI andDSP.5. PSPICE: Study of EDA tools; P-Spice; modelingand analysis of analog and digital circuits; PCBlayout of design; VHDL for digital system design.6. ELECTRO-MAGNETIC SYSTEM DESIGN: Toolsfor electro-magnetic system design; study AnsoftMaxwell and RMXpert; application to design ofelectrical machines.7. SIMULATION SOFTWARES: power system andpower electronics simulation and design software –PSCad, PSIM, Etap, Snieder electrical E plan.TEXT BOOKFriedman, D., ”Essentials of programming Languages”,MIT Press, 2 edition, 2001REFERENCES BOOKS1. Cathey, J.I.,”Electric Machines, Analysis andDesign applying MATLAB” , Mc GrawHill, 20012. Theodore,.E.D , ”Automatic Control, The power offeedback using MATLAB”, Thomson <strong>Engineering</strong>.,19983. Sivandndam,N.S.,”Introduction to Fuzzy logic usingMatlab” , Springer, 20024. Dimarco, J., “Computer Graphics and Multimediaapplications”, IGI Global, 20005. Bronson,G.J., ”Basic of C++ for Engineers andScientists”, PWS Pub. 20026. Himp, V., ”Visual Basic for Electronic Applications”,Elector Electronics, 20017. Tront, J., ”P-Spice for Basic Circuit analysis” McGrawHill, 2000.WEB REFERENCES1. Material from videos & downloads fromwww.ansoft.com for RMX pert.2 Tutorials and Trial version from www.etap.com.EL-462FACTSL-T-P Cr5-0-0 3OBJECTIVEDifferent controllers are studied and further beingemployed in solving power quality issues by the meansof series and shunt compensationPRE-REQUISTESBasic knowledge of power electronics concept1. FACTS INTRODUCTION AND CONCEPTS:Power flow in AC systems. loading capability;power flow and dynamic stability considerations ofa transmission interconnection; relative importanceof controllable parameters. basic types of factscontrollers; brief description and definitions ofFACTS controllers. benefits from FACTStechnology.2. POWER SEMICONDUCTOR DEVICES: Types ofpower devices. construction; characteristics andrequirements of high-power device. diode (pnjunction); MOSFET; thyristor (without turn-offcapability); GTO; emitter turn-off thyristor; MTO;GCT; IGCT; IGBT and MCT.3. VOLTAGE-SOURCED CONVERTERS: Basicconcept of voltage-sourced converters; single-phasefull-wave bridge converter operation; single phase-legoperation; square-wave voltage harmonics for asingle-phase bridge; three-phase full-wave bridgeconverter; sequence of value conducting process ineach phase-leg; transformer connections for 12-pulseoperation; 24 and 48-pulse operation; three-levelvoltage-sourced converter; pulse-width modulation(PWM) converter; generalized technique of harmonicelimination and voltage control; converter rating –general comments.4. SELF AND LINE-COMMUTATED CURRENT:Sourced converters: basic concept of currentsourcedconverters; three-phase full-wave dioderectifier; thyristor based converter (with gate turnonbut without gate turn-off); current-sourcedconverter with turn-off devices (current stiffconverter); current-sourced versus voltage-sourcedconverters.5. STATIC SHUNT COMPENSATORS: Objectives ofshunt compensation; methods of controllable vargeneration; static var compensators: (SVC andSTATCOM); comparison between STATCOM andSVC; static var systems6. STATIC SERIES COMPENSATORS: Objectivesof series compensation; variable impedance typeseries compensators; switching converter typeseries compensators; external (system) control forseries reactive compensators characteristics andfeatures of GCSC; TSSC; TCSC; AND SSSC.50
Lingaya’s University, Faridabad7. VOLTAGE REGULATORS ANDCOMPENSATORS: Static voltage and phaseangle regulators and combined compensators:objectives of voltage and phase angleregulators; approaches to thyristor-controlledvoltage and phase angle regulators (TCVRs andTCPARs); switching converter-based voltageand phase angle regulators. basic principle ofcombined compensators. the unified power flowcontroller (UPFC); the interline power flowcontroller (IPFC); generalized andmultifunctional FACTS controllers.TEXT BOOKHingorani, N.J. “Understanding Facts”, IEEE Press,Standard Publishers Distributors, 2001REFERENCE BOOKS1. Ghosh, A., Ledwich, G., “Power QualityEnhancement Using Custom Power Devices”,Kluwer Academic, 20022. Dugan, R.C., McGranaghan, M.F., Beaty, H.W.,“Electric Power Systems Quality”, McGraw-Hill,1996.3. Sankaran, C., “Power Quality” CRC, 2002.4. Arrillaga, J., Bradely, D.A, and Bodger, P.S.,“Power System Harmonics”, Wiley, 1985.5. Dixit, J.B.,Yadav, A., “Electric Power Quality”,Laxmi Publication, 1999.EL-463OPTIMIZATION L-T-P CrTECHNIQUES 5-0-0 3OBJECTIVETo acquaint and familiarize the students withdifferent types of optimization techniques, solvingoptimization problems, implementing computationaltechniques, abstracting mathematical results andproofs etc.1. INTRODUCTION AND BASIC CONCEPTS:Historical Development; <strong>Engineering</strong>applications of Optimization; Art of Modeling;Objective function; Constraints and Constraintsurface; Formulation of design problems asmathematical programming problems;Classification of optimization problems based onnature of constraints, structure of the problem,deterministic nature of variables, separability offunctions and number of objective functions;Optimization techniques – classical andadvanced techniques.2. OPTIMIZATION USING CALCULUS: Stationarypoints - maxima, minima and saddle points;Functions of single and two variables; GlobalOptimum; Convexity and concavity of functionsof one and two variables; Optimization offunction of one variable and multiple variables;Gradient vectors; Examples; Optimization offunction of multiple variables subject to equalityconstraints; Lagrangian function; Optimization offunction of multiple variables subject to equalityconstraints; Hessian matrix formulation; Eigenvalues; Kuhn-Tucker Conditions; Examples.3. LINEAR PROGRAMMING: Standard form oflinear programming (LP) problem; Canonicalform of LP problem; Assumptions in LP Models;Elementary operations; Graphical method fortwo variable optimization problem; Examples;Motivation of simplex method, Simplex algorithmand construction of simplex tableau; Simplexcriterion; Minimization versus maximizationproblems; Revised simplex method; Duality inLP; Primal-dual relations; Dual Simplex method;Sensitivity or post optimality analysis; otheralgorithms for solving LP problems –Karmarkar’s projective scaling method.4. LINEAR PROGRAMMING APPLICATIONS:Use of software for solving linear optimizationproblems using graphical and simplex methods;Examples for transportation, assignment, waterresources, structural and other optimizationproblems.5. DYNAMIC PROGRAMMING: Sequentialoptimization; Representation of multistagedecision process; Types of multistage decisionproblems; Concept of sub optimization and theprinciple of optimality; Recursive equations –Forward and backward recursions;Computational procedure in dynamicprogramming (DP); Discrete versus continuousdynamic programming; Multiple state variables;curse of dimensionality in DP.6. DYNAMIC PROGRAMMING APPLICATIONS:Problem formulation and applications for Designof continuous beam, Optimal geometric layout ofa truss, Water allocation as a sequentialprocess, Capacity expansion, Reservoiroperation etc.7. INTEGER PROGRAMMING: Integer linearprogramming; Concept of cutting plane method;Mixed integer programming; Solution algorithms;Examples.TEXT BOOKMohan Chander, Deep Kusum “Optimization<strong>Tech</strong>niques”, New Age International, 2005.EL-481MAJOR PROJECT L T P CrPHASE-I 0 0 10 5OBJECTIVEThe project involves in-depth study on the topic,design, development, analysis fabrication and/orexperimental work – Hardware and/or Software. It isintended to give an opportunity to a student to applyhis knowledge to solve real-life problem. The studenthas to select a project work based on a topic ofinterest.OPERATIONMajor Project shall comprise of Phase-I and Phase-II, spread over Term-XI and Terms-XII respectively.The students may work jointly (small group) orindividually.EL-482Refer to EL-481 for details.MAJOR PROJECT L T P CrPHASE-II 0 0 6 351
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