2836-4449ISSN (Online)
Volume 1 , Issue 2 , PP: 45-55, 2023 | Cite this article as | XML | Html | PDF | Full Length Article
Ousama Asaad Bahbouh 1 *
Doi: https://doi.org/10.54216/PAMDA.010205
In this paper, a program for analyzing potential events and designing preventive measures to ensure safe operation of electrical power systems was developed, which was published in the Journal of Al-Baath University. The new visual software system performs all the functions of the previous program, in addition to a set of developed options, studies and comparisons. It also features a graphical method for entering electrical network data and conforms to software engineering standards, with an analytical study based on an approved methodology, the Unified Modeling Language (UML). The spiral software model was chosen during the research, which made it possible to obtain a reliable software product that is characterized by the highest possible standards. In this paper, the parameters of the electrical power system on a 6-busbar network were analyzed and studied, and the effect of changing the power factor on the possibility of finding the optimal solution, whether by changing generation or by changing generation and decreasing loads, was studied. The program's effectiveness, flexibility and accuracy of results have been proven.
Power System Security , Power Factor , Potential Events Analysis , Preventive Measure.
[1] K. SUNDARARAJU et al. Performance analysis and location identification of STATCOM on IEEE-14 bus system using power analysis. JATIT & LLS, 2014.
[2] MORISON, K.; WANG, L.; KUNDUR, P. Power System Security Assessment. IEEE Power & Energy Magazine, Sept./Oct. 2004, 30-39.
[3] N. Fakih, O. Bahbouh, "A Visual Software System for Contingency Analysis and Proposing Preventive Actions to Achieve Secure Operation of Electric Power Systems", Damascus University Journal for Engineering Sciences, Volume 34, Issue 2, PP: 259-274, 2018.
[4] O. Bahbouh, "MATLAB Engineers Language", Aluons Publishing (Syria), 2005.
[5] Ian, Sommerville. Software Engineering. 10th Edition, ISBN 978-0-13-394303-0, published by Pearson Education Limited, 2016.
[6] N. Fakih, O. Bahbouh, "A Visual Software System to Analysis and study the parameters of Electric Power Systems", AL-Baath University Journal, Volume 41, Issue 59, PP: 11-34, 2019.
[7] T. E. DyLiacco. The Adaptive Reliability Control System. IEEE Trans. PAS, Vol. PAS-86, No.5, May 1967, PP. 517.531.
[8] T. E. DyLiacco. System Security: the Computer's Role. IEEE Spectrum, June 1978, PP. 43 -50.
[9] L. H. Fink and K. Carlsen. Operating under Stress and Strain. IEEE Spectrum, March 1978, PP. 48 -53.
[10] LamineMili. Taxonomy of the Characteristics of Power System Operating States. Virginia Tech Falls Church, VA 22043 Conference Paper. January, January 11th, 2011.
[11] DyLiacco, Tomas. Modern control centers and computer networking. IEEE Computer Applications in Power. Volume: 7, Issue: 4, 1994, Pages:17 -22
[12] WOOD, A.; WOLLENBERG, B.; SHEBLE, B. Power Generation, Operation, and Control. 3th. Edition, John Wiley & Sons, 2013.
