Evaluation of Transfer Capability based on Load Supplying Capability Calculation Using Primal-Dual Interior Point Method

This paper presents a new methodology that can evaluate transfer capability of composite power systems from the adequacy point of view in power system planning stages. To evaluate practical load supplying capability, nonlinear optimization problems of maximum load supplying capability (MLSC) and economic load supplying capability (ELSC) are formulated and solved by nonlinear primal-dual interior point method. Physical constraints are considered in the optimization problems concerning the limits of bus voltage, line overloading, and real & reactive power generation. Also, an evaluation method of transfer capability is proposed based on the margins calculated by the MLSC and ELSC. Especially, to evaluate transfer capability effectively, simple indices such as expected MLSC, transfer capability margin, and power not supplied are respectively proposed by considering (N-1) line outage probability. Numerical results on IEEE RTS 24, IEEE 118, and IEEE 300 bus systems show that the proposed algorithm is effective and useful for power system planning stages.