Transmission line protection using digital technology /

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Bibliographic Details
Author / Creator:Makwana, Vijay H., author
Imprint:Singapore : Springer, [2016]
©2016
Description:1 online resource (xix, 167 pages) : illustrations (some color)
Language:English
Series:Energy Systems in Electrical Engineering, 2199-8590
Energy Systems in Electrical Engineering.
Subject:Electric lines -- Protection.
Electric power transmission.
TECHNOLOGY & ENGINEERING -- Mechanical.
Electric lines -- Protection.
Electric power transmission.
Electronic books.
Electronic books.
Format: E-Resource Book
URL for this record:http://pi.lib.uchicago.edu/1001/cat/bib/11263968
Hidden Bibliographic Details
Other authors / contributors:Bhalja, Bhavesh, author
ISBN:9789811015724
9811015724
9789811015717
9811015716
Digital file characteristics:text file PDF
Notes:Includes bibliographical references.
Online resource; title from PDF title page (SpringerLink, viewed March 24, 2017).
Summary:This book develops novel digital distance relaying schemes to eliminate the errors produced by the conventional digital distance relays while protecting power transmission lines against different types of faults. These include high resistance ground faults on single infeed transmission lines; high resistance ground faults on double infeed transmission lines; simultaneous open conductor and ground fault on double infeed transmission lines; inter-circuit faults on parallel transmission lines; simultaneous open conductor and ground fault on series compensated parallel transmission lines; inter-circuit faults on series compensated parallel transmission lines; and phase faults on series compensated double infeed transmission lines. This monograph also details suggestions for further work in the area of digital protection of transmission lines. The contents will be useful to academic as well as professional researchers working in transmission line protection.
Other form:Print version: Makwana, Vijay H. Transmission Line Protection Using Digital Technology. Springer Verlag 2016 9789811015717
Standard no.:10.1007/978-981-10-1572-4
Table of Contents:
  • 1. Introduction. 1.1. General Background. 1.2. Zones of Protection. 1.3. Requirements of Protection System. 1.4. Main and Back-up Protection. 1.5. Protective Relays. 1.6. Adaptive Relaying. 1.7. Research Opportunities in Digital/Numerical Protection of Transmission Lines. 1.8. Objectives of Present Work. 1.9. Organization of Thesis.
  • 2. Distance Relaying Algorithm for a Single Line-To-Ground Fault on Single Infeed Transmission Lines. 2.1. Introduction. 2.2. Distance Protection of Transmission Lines. 2.3. Stepped Distance Characteristic of a Distance Relay. 2.4. Problem of Fault Resistance in Distance Protection. 2.5. Techniques Used in Commercial Relays and Their Problems. 2.6. Current State of the Art. 2.7. Performance of the Conventional Digital Distance Relay. 2.8. New Digital Distance Relaying Algorithm. 2.9. Experimental Test Setup. 2.10. Simulation Results. 2.11. Advantages of the Proposed Algorithm. 2.12. Conclusion.
  • 3. Digital Distance Relaying Scheme for Compensation of High Resistance Faults on Double Infeed Transmission Lines. 3.1. Introduction. 3.2. Ground Faults on Double Infeed Transmission Lines. 3.3. Problem of Remote Infeed for Double Infeed Transmission Lines. 3.4. Techniques Used in Commercial Relays and Their Problems. 3.5. Current State of the Art. 3.6. Analysis of Ground Faults on Double Infeed Transmission Lines. 3.6.1. Impedance Measured by the Conventional Ground Distance Relaying Scheme. 3.6.2. Impedance Measured by the Proposed Scheme. 3.7. Results and Discussions. 3.8. Conclusion.
  • 4. Digital Distance Relaying Scheme for Parallel Transmission Lines During Inter-circuit Faults. 4.1. Introduction. 4.2. Self and Mutual Impedances of Transmission Lines. 4.3. Formula for Mutual Impedance. 4.4. Estimation of Mutually Coupled Voltages for Parallel Transmission Lines. 4.5. Analysis of Mutually Coupled Parallel Transmission Lines. 4.6. Inter-circuit Faults on Parallel Transmission Lines. 4.7. Techniques Used in Commercial Relays and Their Problems. 4.8. Current State of the Art. 4.9. Inter-circuit Faults on Parallel Transmission Lines. 4.9.1. Phase-to-Phase Inter-circuit Fault. 4.9.2. Phase-to-Phase-to-Ground Inter-circuit Fault. 4.10. Analysis of Inter-circuit Faults on Parallel Transmission Lines. 4.11. Results and Discussions. 4.12. Advantages of the Proposed Scheme. 4.13. Conclusion.
  • 5. Digital Distance Relaying Scheme for Series-Compensated Parallel Lines During Simultaneous Open Conductor and Ground Fault. 5.1. Introduction. 5.2. Series Capacitors: Theory and Operation. 5.3. Protection Issues of Series-Compensated Lines. 5.4. Techniques Used in Commercial Relays and Their Problems. 5.5. Current State-of-the-Art. 5.6. Simultaneous Open Conductor and Ground Fault on Series-Compensated Parallel Transmission Lines. 5.7. Analysis of Simultaneous Open Conductor and Ground Fault. 5.8. Results and Discussions. 5.9. Advantages of the Proposed Scheme. 5.10. Conclusion.
  • 6. Digital Distance Relaying Scheme for Series Compensated Parallel Transmission Lines During Inter-circuit Faults. 6.1. Introduction. 6.2. Inter-circuit Faults on Series Compensated Parallel Transmission Lines. 6.3. Protection Issues of Series Compensated Parallel Lines. 6.4. Analysis of Inter-circuit Faults on Series Compensated Parallel Transmission Lines. 6.5. Results and Discussions. 6.6. Advantages of the Proposed Scheme. 6.7. Conclusion.
  • 7. Digital Distance Relaying Scheme for Phase Faults on Double Infeed Transmission Lines. 7.1. Introduction. 7.2. Phase-to-Phase Fault on Series Compensated Double Infeed Transmission Line. 7.3. Analysis of Phase-to-Phase Fault. 7.4. Results and Discussions. 7.5. Advantages of the Proposed Scheme. 7.6. Conclusion. Appendices A-Z.