Fuzzy dynamic programming approach to reactive power/voltage control in a distribution substation

Fuzzy dynamic programming approach to reactive power/voltage control in a distribution substation

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Article ID: iaor1999722
Country: United States
Volume: 12
Issue: 2
Start Page Number: 681
End Page Number: 688
Publication Date: Feb 1997
Journal: IEEE Transactions on Power Systems
Authors: ,
Keywords: programming: dynamic
Abstract:

A fuzzy dynamic programming approach is proposed for solving the reactive power/voltage control problem in a distribution substation. The main purpose is to improve the voltage profile on the secondary bus and restrain the reactive power flow into a main transformer at the same time. To reach our objectives, the load tap changer (LTC) usually installed in a main transformer is employed to adjust the secondary voltage and the capacitor connected to the secondary bus is employed to compensate the reactive power flow for the load demands. We first forecast the real and reactive power demands of a main transformer and its primary voltages for the nest day. With these forecasting data at hand, a fast LTC tap position estimation formula that takes the load models into account is derived to effectively reduce the computational burden for the proposed approach. Practical constraints on bus voltage limits, maximum allowable number of switching operations in a day for the LTC and capacitor and the tolerable worst power factor for a main transformer are also considered. To demonstrate the usefulness of the proposed approach, reactive power/voltage control at a distribution substation within the service area of Taipei City District Office of Taiwan Power Company is investigated. It is found that a proper dispatching schedule for the LTC and capacitor can be reached by the proposed approach.

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