Type of Document Dissertation Author Elizondo, David C. Author's Email Address email@example.com URN etd-04162003-202144 Title A Methodology to Assess and Rank the Effects of Hidden Failures in Protection Schemes based on Regions of Vulnerability and Index of Severity Degree PhD Department Electrical and Computer Engineering Advisory Committee
Advisor Name Title De La Ree Lopez, Jaime Committee Chair Baumann, William T. Committee Member Liu, Yilu Committee Member Nuqui, Reynaldo Committee Member Phadke, Arun G. Committee Member Trani, Antoino A. Committee Member Keywords
- Wide-Area Disturbances
- Regions of Vulnerability
- Power System Protection
- Hidden Failures
- Index of Severity
Date of Defense 2003-04-15 Availability unrestricted AbstractWide-area disturbances are power outages occurring over large geographical regions that dramatically affect the power system reliability, causing interruptions of the electric supply to residential, commercial, and industrial users. Historically, wide-area disturbances have greatly affected societies.
Virginia Tech directed a research project related to the causes of the major disturbances in electric power systems. Research results showed that the role of the power system’s protection schemes in the wide-area disturbances is critical. Incorrect operations of power system’s protection schemes have contributed to a spread of the disturbances. This research defined hidden failures of protection schemes and showed that these kinds of failures have contributed in the degradation of 70-80 percent of the wide-area disturbances. During a wide-area disturbance analysis, it was found that hidden failures in protection schemes caused the disconnection of power system elements in an incorrect and undesirable manner contributing to the disturbance degradation.
This dissertation presents a methodology to assess and rank the effects of unwanted disconnections caused by hidden failures based on Regions of Vulnerability and index of severity in the protection schemes.
The developed methodology for the evaluation of the Region of Vulnerability found that the indicator that most accurately reflects the relationship of the Region of Vulnerability with the single line diagram is kilometers. For the representation of the Region of Vulnerability in the power system, we found segments in the transmission line in which the occurrence of faults do make the relay to operate, producing the unwanted disconnection caused by hidden failure. The results in the test system show that the infeed currents restrain the Region of Vulnerability from spreading along power system elements.
Finally the methodology to compute the index of severity is developed. The index of severity has the objective of ranking the protection schemes, considers the dynamics of the protection schemes, and evaluates the overall disturbance consequence under the static and dynamic perspectives.
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