An Optimization Technique for Reactive Power Planning of Subtransmission Network under Normal Operation

Abstract

This paper presents a new optimization method for reactive power planning of subtransmission network under normal operating conditions. The planning problem is divided into a master problem and two subproblems. The master problem is to determine yearly investment in reactive power compensation devices for expected load growth over a planning horizon. The subproblems are to determine the optimal operation of power system under normal conditions. The master problem is reduced to a yearly Hamiltonian minimization problem, thereby reducing the dimensionality of optimization algorithm. Two subproblems, P-optimization and Q-optimization, both minimize the fuel requirement using a unified approach.