Title :
Voltage Stability Risk Analysis
Author :
Lakkaraju, Talpasai ; Feliachi, Ali ; Saymansky, John E.
Author_Institution :
Adv. Power & Electr. Res. Center (APERC), West Virginia Univ., Morgantown, WV
Abstract :
This paper focuses on the important aspect of estimating and quantifying the voltage stability risk with and without VAR support It is motivated by the perception that VAR support guarantees additional security and is economically justifiable. A decision tree based model is designed for estimating the risk, which accounts for both future system uncertainties and consequences associated with violation of limits and voltage collapse. A case study on the standard IEEE 24 bus reliability test system investigates the different scenarios and evaluates the risk. The results prove that in spite of high installation costs, an SVC can make the system more reliable and ensure cost savings.
Keywords :
decision trees; power system dynamic stability; power system reliability; risk analysis; IEEE 24 bus reliability test system; VAR support; decision tree; risk analysis; voltage collapse; voltage stability; Costs; Decision trees; Reactive power; Risk analysis; Security; Stability analysis; Static VAr compensators; System testing; Uncertainty; Voltage; Risk analysis; SVC location; Security cost; VAR support; Voltage collapse;
Conference_Titel :
Power Engineering Society General Meeting, 2007. IEEE
Conference_Location :
Tampa, FL
Print_ISBN :
1-4244-1296-X
Electronic_ISBN :
1932-5517
DOI :
10.1109/PES.2007.386133
