Work place: Electrical Power and Machines Department, Faculty of Engineering, Ain Shams University, Cairo, Egypt
E-mail:
Website:
Research Interests: Analysis of Algorithms, Mathematical Analysis, Numerical Analysis
Biography
A. T. M. Taha was born in Egypt in 1957. He received the B.Sc. and M. Sc. degrees in electrical engineering from Ain Shams University, Cairo, Egypt, and the Ph.D. degree in electrical engineering from Poly-technique Academy, Bella Russia, in 1994. He is currently an Assistant Professor in the Department of Electric Power and Machines, Ain Shams University. His research interests include power system analysis.
By A. Y. Abdelaziz A. T. M. Taha M. A. Mostafa A. M. Hassan
DOI: https://doi.org/10.5815/ijisa.2013.03.01, Pub. Date: 8 Feb. 2013
Voltage stability is a major concern in planning and operations of power systems. It is well known that voltage instability and collapse have led to major system failures. Modern transmission networks are more heavily loaded than ever before to meet the growing demand. One of the major consequences resulted from such a stressed system is voltage collapse or instability. This paper presents maximum loadability identification of a load bus in a power transmission network. In this study, Fast Voltage Stability Index (FVSI) is utilized as the indicator of the maximum loadability termed as Qmax. In this technique, reactive power loading will be increased gradually at particular load bus until the FVSI reaches close to unity. Therefore, a critical value of FVSI was set as the maximum loadability point. This value ensures the system from entering voltage-collapse region. The main purpose in the maximum loadability assessment is to plan for the maximum allowable load value to avoid voltage collapse; which is important in power system planning risk assessment.
The most important task in security analysis is the problem of identifying the critical contingencies from a large list of credible contingencies and ranks them according to their severity. The condition of voltage stability in a power system can be characterized by the use of voltage stability indices. This paper presents fuzzy approach for ranking the contingencies using composite-index based on parallel operated fuzzy inference engine. The Line Flow index (L.F) and bus Voltage Magnitude (VM) of the load buses are expressed in fuzzy set notation. Further, they are evaluated using Fuzzy rules to obtain overall Criticality Index. Contingencies are ranked based on decreasing order of Criticality Index and then provides the comparison of ranking obtained with FVSI method.
Subscribe to receive issue release notifications and newsletters from MECS Press journals