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Power System Protection

by Nihar Ranjan RoutNihar Ranjan Rout
Type: PracticalInstitute: Biju Patnaik University of Technology BPUT Offline Downloads: 120Views: 1965Uploaded: 1 year ago

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Power System Protection by Nihar Ranjan Rout

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Nihar Ranjan Rout
Nihar Ranjan Rout

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Experiments ( 28 )

To study the IDMT over - current relay and with different plug setting and time setting multipliers and plot its time – current characteristics. 12 To study the IDMT over - current relay and with different plug setting and time setting multipliers and plot its time – current characteristics. 13 To determine the operating characteristics of biased different relay with different % of biasing 16 To determine the operating characteristics of biased different relay with different % of biasing. 17 To determine A, B, C, D parameters of an artificial transmission line. 20 To determine A, B, C, D parameters of an artificial transmission line. 21 To determine location of fault in a cable using cable fault locator. 32 To determine location of fault in a cable using cable fault locator. 33 Insulation test for Transformer oil. 38 Insulation test for Transformer oil. 39 To study the Ferranti Effect and voltage distribution in High Voltage long transmission line using transmission line model. 42 To study the Ferranti Effect and voltage distribution in High Voltage long transmission line using transmission line model. 43 Study of various types of Lightning arrestors 46 Study of various types of Lightning arrestors 47 Study of layout of outdoor pole mounted & plinth mounted sub-stations. 49 Study of layout of outdoor pole mounted & plinth mounted sub-stations. 50 To formulate the Y-Bus matrix and perform load flow analysis. 52 To formulate the Y-Bus matrix and perform load flow analysis. 53 To perform symmetrical fault analysis in a power system. 62 To perform symmetrical fault analysis in a power system. 63 To perform unsymmetrical fault analysis in a power system. 64 To perform unsymmetrical fault analysis in a power system. 65 To compute voltage, current, power factor, regulation and efficiency at the receiving end of a three phase Transmission line when the voltage and power at the sending end are given. Use  model. 66 To compute voltage, current, power factor, regulation and efficiency at the receiving end of a three phase Transmission line when the voltage and power at the sending end are given. Use  model. 67 To carry out power flow calculations using MATLAB and Power World program. 68 To carry out power flow calculations using MATLAB and Power World program. 69 Economic Load dispatch with and without loss 74 Economic Load dispatch with and without loss 75

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Nihar Ranjan Rout
Nihar Ranjan Rout
Power System Lab L A B O R ATO RY RECORD ON POWER SYSTEM Name .................................................................................. Registration No. ................................................................................. Roll No. .............................................................................................. Branch/House.................................................................................... DEPARTMENT OF ELECTRICAL & ELECTRONICS ENGINEERING GANDHI INSTITUTE FOR TECHNOLOGY BHUBANESWAR (Approved by AICTE, NewDelhi & Affiliated to BPUT,Odisha) AN ISO 9001 : 2008 CERTIFIED INSTITUTE 1
Power System Lab LABORATORY RECORD ON POWER SYSTEM Compiled by : Shaik Ahfaz Ahemmed Dept. of EEE Grammatical Errors Corrected by : Prof. Bikram Keshari Rout Dept. of English Proof Reading & Editing by : Debasis Nanda Dept. of EEE Chief Editor : Prof. (Dr.) Himanshu Sekhar Moharana Course Coordinator (Final Year B.Tech) Edition : Fifth Edition : 2015 Published by: Gandhi Institute for Technology (GIFT) Bhubaneswar Copyright by: Gandhi Institute for Technology, Bhubaneswar. No part of this manual may be reproduced in any form or by any means without permission from Gandhi Institute For Technology, Bhubaneswar. 2
Power System Lab GANDHI INSTITUTE FOR TECHNOLOGY BHUBANESWAR VISION To suffice for educational demand of the globe, by achieving excellence through a systematic edifice of performance and service revolving around intellectual, personal and professional growth by encouraging innovation and research built upon tradition of unparalleled quality. MISSION  To advance knowledge in major paradigms of technology and to create a distinctive culture of research and innovation among the budding engineers with collaboration of faculties, technocrats, funding agencies and experts from other premier institutes for generating a pool of professionals,  To generate a pool of eco-preneurs with the ability to address the industry and social issues of highest standard with inherent concern for environment,  To meet the expectations of our society by equipping our students to stride forth as resourceful citizens and conscious of the immense responsibilities to make the world a better place to live in,  To create at least one Center of Excellency within upcoming two academic years in one of the specialized engineering domain, 3
Power System Lab DEPARTMENT OF ELECTRICAL & ELECTRONICS ENGINEERING VISION To create a distinctive culture, that could enable students and faculty members collaboratively approach to advance their knowledge about recent advancements in the core domains of electrical and electronics engineering, such as power electronics, smart grids, renewable energy etc., and develop effective, implementable and environment friendly solutions towards solving the energy vs. sustainability crisis for present and future society. MISSION 1. To develop a distinctive environment where student, teacher can learn and acquire necessary knowledge and skills through effective collaborations and holistic interactions. 2. To create a culture of research and Innovation through necessary communication with the premier institutions and contribute to the research community though high quality publications in reputed journals. 3. To create a conducive ambience where students and faculty members can engage themselves for developing effective solutions for recent as well as prominent future challenges in the area of energy generation, transmission and distribution. 4. To Generate a pool of professionals and entrepreneurs with the ability to address the industry and social problems through effective communication skills and should be able to provide required weightage towards societal and sustainable issues. 4

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