B.<strong>Tech</strong>. <strong>Electrical</strong> <strong>Engineering</strong> (Regular)characteristics; corona pulses--their generationand properties; properties of pulse; radiointerference.5. LIGHTENING: Lightening phenomenon; lightningstroke mechanism; principle of lightning protection;tower foot resistance; insulator flash over andwithstand voltage; lightning arresters and theircharacteristics.6. H.V. TESTING AND LAB EQUIPMENTS:Standard wave-shapes for testing; wave-shapingcircuits: principles and theory; impulsegenerator; generation of ac high voltage fortesting; generation of direct voltage;measurement of high voltage; general layout ofH.V.laboratory.7. MEASUREMENT OF HIGH ALTERNATINGVOLTAGES: Peak voltage measurement withsphere-gaps; peak voltage measurement usingmeasuring capacitors; peak voltagemeasurement with capacitor voltage divider;measurement of rms values by electrostaticvoltmeters; capacitance voltage transformer;digital recording.TEXT BOOKBegamudre, R.D., “E.H.V. AC Transmission”, WileyEastern Ltd., 1992REFERENCE BOOKS1. Wadhwa , C.L., “ High voltage <strong>Engineering</strong>”, NewAge international, 19952. Arrillaga , J., “High Voltage D.C. Transmission”,Peter Peregrinus Ltd. 19963. Kamaraju, V. , Naidu, M.S., “High Voltage<strong>Engineering</strong>”, Tata McGraw Hill, 19964. Naidu, M.S., “High Voltage <strong>Engineering</strong>”, Tata McGraw Hill, 4 Edition, 20015. Ray, Subir, “An Introduction to High Voltage<strong>Engineering</strong>, Prentice Hall of India, 2008EL-441ADVANCED POWER L-T-P CrAPPARATUS 5-0-0 3OBJECTIVETo study different configuration and characteristics andanalysis of machinesPRE-REQUISTESKnowledge of electric machinery.1. HARMONICS: Effect of space harmonics in MMFand permeance of 3 phase induction motorcrawling; cogging and magnetic noise.2. ABNORMAL OPERATION: Voltage andimpedance unbalance.3. DERATING: Analysis for external and internalasymmetry; effects of time harmonics andoperation with non-sinusoidal voltages.4. SYMMETRICAL COMPONENTS: Analysis ofsingle phase induction motors with symmetricalcomponents.5. TWO PHASE MOTORS: Difference betweensingle phase and two phase motors; analysis oftwo phase motors with asymmetrical windings.6. PERFORMANCE: Starting torques; pole amplitudemodulation techniques applied to induction motors.7. SPECIAL MACHINES: D.W.R. Machines; linearmotors; axial motors; twin stator motors; steppermotors.TEXT BOOKFitzgerald, A.E., Kingley and Kusko; “<strong>Electrical</strong>Machinery”, Tata McGraw Hill, 6 th Edition, 2002.REFERENCE BOOKS1. Krishan, R., “Electric Motors Drives: Modeling,Analysis and Control”; Prentice Hall, 20022. Linsday,J.F., Rashid, M.H., “Electro mechanics &<strong>Electrical</strong> Machinery”; Prentice Hill of India, 19833. Unnewher, S.,; “Electro Mechanics and ElectricMachines”; John Wiley, 19934. Murthy, P.S.R., “Modelling of Power SystemComponenets”, BS Publication, 19955. Bhimbra, P.S., “Electric Machinery”, KhannaPublisher, 1998.EL-442POWER MANAGEMENTL-T-P Cr5-0-0 3OBJECTIVETo provide the detailed knowledge of powermanagement in respect of resources andprocurement. The subject also covers the differentfacets of power station which includes finance,management, risk etc.PRE-REQUISTESKnowledge of power stations and power equipments1. INTRODUCTION: Power scenario; powerdevelopment; planning; power resources;environment- power matters plan; pre-feasibilityand feasibility studies; state relations for power etc;electricity industry structure and safety regulationsbill - state and central power boards / powercorporations.2. RESOURCES: Resources; geophysical study;Seismic considerations; environmental restraints;resettlement and rehabilitation.3. PROCUREMENT: Contracting and procurement;consulting services; types of contracts; projectmanagement; organization and economymanagement; organizational planning and timescheduling; project cost control.4. ENGINEERING: <strong>Engineering</strong> and general layoutof equipments; generator; transformer andswitch gear and control equipment; constructionmethods; operation and maintenance principle;maintenance organization and planning;availability; life cycle cost and futuredevelopment; visits to sites.5. POWER SECTOR: Power sector structure indifferent states; regulatory regime in those states;power utilities in Haryana; grid management;power financing; visit to sites.6. POWER STATION: Management of fuel; waterresource electricity deviend scenario; storage andhandling; pricing; contract etc.; human resourcemanagement; visit to sites.7. RISK & HAZARD: Introduction to risk; rules andregulation aspects of risk and hazard health andrisk assessment visit to site.48
Lingaya’s University, FaridabadTEXT BOOKGill, A.B., “Power Plant Performance Management”,British Electricity Authority, 1984.REFERENCE BOOKS1. Subranmanyam,B. “Power Plant <strong>Engineering</strong>”,Dhanpat Rai Pub., 19952. Sharma P.C., “Power Plant <strong>Engineering</strong>”, DhanpatRai Pub., 19973. Decenzo, David A., Robbins, Stephen P. ,” HumanResource Management”, Prentice Hill of India,2004.4. Nag, P.K., “Power Plant Engg”. Tata McGraw Hill,2003.EL-443ELECTRICAL POWER L-T-P CrQUALITY 5-0-0 3OBJECTIVETo provide in depth knowledge of different powerquality problems, analysis and providing the solutionsfor the power quality issues.PRE-REQUISTESKnowledge of power electronic devices and commonpower problems1. INTRODUCTION TO ELECTRICAL POWERQUALITY: Definition of power quality; powerquality issues; power quality v/s equipmentimmunity; electric power quality standards.2. POWER FREQUENCY DISTURBANCES:Common power frequency disturbances; voltagesag; isolation transformers; voltage regulators;static uninterruptible power source systems.3. ELECTRICAL TRANSIENTS: Types and causesof transients; atmospheric causes; switching loadson or off; interruption of fault circuits; capacitorbank switching; motor start transient; power factorcorrection; capacitor switching transient.4. HARMONICS: Definition of harmonics; causesof voltage and current harmonics; individual andtotal harmonic distortion; effect of harmonics onpower system devices; guidelines for harmonicvoltage and current limitation; harmonic currentmitigation.5. MEASURING & SOLVING POWER QUALITYPROBLEMS: Power quality measurement devices;harmonic analyzers; transient-disturbanceanalyzers; oscilloscopes; data loggers and chartrecorders; true rms meters; power qualitymeasurements.6. POWER RELIABILITY: Revaluation; interruptions;reliability evaluation of power systems; causes oflong interruptions; origin of interruption; generationreliability; transmission reliability; distributionreliability.7 POWER SYSTEM DESIGN: Redundancy throughswitching; automatic reclosing; normally openpoints; load transfer; redundancy though - paralleloperation, parallel and loop systems; spotnetworks.TEXT BOOKHeydt, G.T., “Electric Power Quality”, 2 nd ed. WestLafayette, IN: Stars in a Circle, 1994.REFERENCE 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, 1986EL-451DEPARTMENT LAB.L-T-P Cr0-0-2 1LIST OF EXPERIMENTS:1. To study Pspice software.2. To verify Thevenin and Norton theorems usingPspice.3. To verify KCL and KVL using Pspice.4. To verify different logic gates using Pspice.5. Pspice simulation of single-phase full converterusing R,L and E loads.6. Pspice simulation of 3-phase full converter usingR,L and E loads.7. Pspice simulation of single phase A.C. voltagecontroller using R,L load.8. Pspice simulation of 3-phase inverter using PWMcontroller.9. Pspice simulation of resonant pulse commutationcircuit.10. Make a program for computation of D.C. motorresponse.11. Develop a flow chart for the dynamic simulation ofthe chopper controlled D.C. motor drive.12. Make a flowchart for computation of steady stateperformance of induction motor.13. Make a flowchart for dynamic simulation ofinduction motor.14. Make a program for dynamic simulation of vectorcontrolled induction motor drive.EL-452COMPUTER APPLICATION TOPOWER SYSTEM ANALYSISLABLIST OF EXPERIMENTS:L-T-PCr0-0-2 11. Draw the flow chart and develop the computerprogram for the formation of the Y Bus of ageneralized network.2. Draw the flow chart and develop the computerprogram for the formation of the Z Bus of ageneralized network.3. To plot the swing curve and observe the stability.4. To perform load flow study using Gaus Shiedelmethod.5. Perform short circuit study for any type of fault.6. To observe transmission losses and efficiency withvariations in power for the given example.7. Design of distribution system8. To study the features of EMTP9. To study the MATLAB Power System block setfeatures.49
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