GENERATION RESCHEDULING FOR ALLEVIATING OVER LOADS CAUSED BY CONTINGENC
محتوى المقالة الرئيسي
الملخص
Contingency analysis is a valuable tool for a reliable planning and secure operation of a power system. Centingency analysis techniques must consider the impact of voltage effects as well as line flow effects. If the potential outage of a line or a generator would result in the overl rload of another line, then the system is said to be vulnerable. Without line overloading correction it may cause cascade outages and lead to failures in the whole system.
An efficient contingency analysis model for detecting both branch MVA flow violations and bus voltage limit violations is presented. A fast technique has been developed for automatic contingency ranking and selection of contingency cases for a power system contingency analysis study A contingency list is built containing line and generator outages which are ranked according to their expected severity. System voltage performance index is used to assess events severity Another model that was used for line over-loading correction is based on a pseudo inverse method that was used to solve a non-square system of equations based on Lagrange's theory in optimization These proposed models have been tested on the Iraqi National Grid system(case study) with 29 buses and 46 branches.
تفاصيل المقالة
القسم
كيفية الاقتباس
المراجع
Iraqi National Control Center (1991), Actual Operational Single Line Diagram of the National Super High Voltage and High. Voltage Grid Systems.
Ejebe, G.C and Wollnberg B.F. (1979), Automatic Contingency Selection, IEEE Transactions on Power Apparatus and Systems.
F.Gubina, and R.Golob(1996), Fast Contingency Evaluation by Means of the Improved Adjoint Network Method, Electrical Power and Energy System.
Iraj Dabbaghchi, and Guillermo Irisarri (1986), AEP Automatic Contingency Selector. Branch Outage Impacts on Load Bus Voltage Profile, IEEE Transactions on Power Systems.
M.G.Lauby, T.A. Mikolinnas (1983), Contingency Selection of branch Outages Causing Voltage Problems. IEEE Transactions on Power Apparatus and Systems
Najm A .AL Shaikihly (1997) An Optimization Model for Ractive Power Control of the Iraqi National Super High Voltage Grid System
T.F Halpin and R. fischi (1984), Analysis of Automatic Contingency Selection Algorithm, IEEE Transactions on Power Apparatus and Systems
T.K.P. Medicherla, and R.Billinton (1979), Generation Rescheduling and Load Shedding to Alleviate Line Over Loods-Analysis, IEEE Transactions on Power Apparatus and Systems
V.A.Stroev, andI.S. Rokotian (1991). The Algorithm for Alleviating Over Load Using pseudo Inverse Method, Paper from Moscow Power Engineering Institute
Yuan Yin, and Han-Ching Kuo (1992), Fuzzy Set Based Contingency Ranking, IEEE Transactions on Power Systems.