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Fault Analysis & Protection Techniques in Power Systems - Prof. Anil Pahwa, Study notes of Electrical and Electronics Engineering

Information about the eece 686 course on power system protection. The course focuses on the analysis of symmetrical and unsymmetrical faults on power systems using symmetrical components technique. Students will learn about protective relaying for power systems and the use of commercial grade software for fault analysis and coordination of relays. The course objectives, class schedule, textbook information, and prerequisites.

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2009/2010

Uploaded on 02/24/2010

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EECE 686 – Power System Protection

Elective 2004-2006 Catalog Data: EECE 686. Power System Protection. (3) II. Analysis of symmetrical and unsymmetrical faults on power systems using symmetrical components technique. Study of protective relaying for protection of power systems against faults. Vector-matrix descriptions and computer solutions are emphasized. Prerequisites: EECE 581 Textbook: J.D. Glover and M. Sarma, Power System Analysis and Design, 3rd^ Edition, Brooks / Cole, Pacific Grove, CA, 2002. Course Objectives: Introduce students to the analysis and effects of faulted electric power systems. The design of protection for various parts of power system are discussed. Methods for fault analysis of power systems using computers are discussed in the class. Students use commercial grade software to compute faults on power systems and coordinate relays. Topics:

  1. Symmetrical components (6 classes)
  2. Faults on electric power systems: three-phase, single-line-to ground, line-to-line, and double-time-to-ground faults; selection of breakers and fuses; computer based analysis of faults (13 classes)
  3. Current and voltage transformers (2 classes)
  4. Over current protection of lines: time-inverse and instantaneous relays (12 classes)
  5. Distance protection of lines (3 classes)
  6. Differential protection (1 class)
  7. Pilot protection (1 class)
  8. Field trip to a distribution sub-station (1 class)
  9. Review (3 classes)
  10. Exams (3 classes)

Class Schedule: Three 50-minute lectures per week. Professional Component: Provides subject specific terminology and advanced problem solving skills in the power systems area. Problems are related to system fault identification. Relationship to Program Outcomes: Prepares students to achieve EECE Program Outcomes: a) an ability to apply knowledge of science, mathematics, and engineering c) an ability to design a system, component, or process to meet specifications within realistic constraints such as economic, environmental, social, political, ethical, health and safety, manufacturability, and sustainability e) the ability to identify, formulate, and solve engineering problems in an environment where hardware and software tradeoffs are necessary j) an ability to use modern engineering techniques, skills, and tools. Prepared by: Anil Pahwa Date: October 11, 2004