Title :
Optimal shunt compensators at nonsinusoidal busbars
Author :
El-Amin, I.M. ; Duffuaa, S.O. ; Bawah, A.U.
Author_Institution :
King Fahd Univ. of Pet. & Miner., Dhahran, Saudi Arabia
fDate :
5/1/1995 12:00:00 AM
Abstract :
A model for determining an optimal shunt capacitor value at nonsinusoidal busbars combining three basic criteria maximizing the power factor, minimizing the line losses, and maximizing the transmission efficiency is developed. The choice of the capacitor value is constrained by the values that may cause resonance. This model was solved employing the penalty function approach and the golden Section Search algorithm for solving the linear load case. Furthermore, nonlinear loads operating under nonsinusoidal conditions were investigated. The model for the nonlinear load is a two variable problem in L (inductor) and C (capacitor). The Direct Search Polytope algorithm is used. The solution of this model yields an optimal shunt LC compensator for the nonlinear load. However, since there are limitations on the practical values of shunt capacitor, a discretizing approach making use of standard shunt capacitor values is employed to guarantee a solution that can be implemented
Keywords :
busbars; compensation; load (electric); losses; power capacitors; power factor; power transmission; Direct Search Polytope algorithm; discretizing approach; golden Section Search algorithm; line losses minimisation; linear load; nonlinear loads; nonsinusoidal busbars; nonsinusoidal conditions; optimal shunt capacitor; optimal shunt compensators; power factor maximisation; resonance; transmission efficiency maximisation; Capacitors; Degradation; Frequency; Nonlinear equations; Power system harmonics; Propagation losses; Reactive power; Resonance; Shunt (electrical); Voltage;
Journal_Title :
Power Systems, IEEE Transactions on
