Title :
A Novel Iterative Contingency Filtering Approach to Corrective Security-Constrained Optimal Power Flow
Author :
Quanyuan Jiang ; Kai Xu
Author_Institution :
Zhejiang Univ., Hangzhou, China
Abstract :
This paper proposes a novel iterative approach to contingency filtering for corrective security-constrained optimal power flow (CSCOPF) problems that include conflicting contingencies. The rescheduling index (the minimum of the maximal controllable rescheduling value in the post-contingency state) becomes the filtering index in a modified CSCOPF (MCSCOPF) model designed to deal with conflicting contingencies. Moreover, a decomposed parallel interior point method (DPIPM) is developed to factorize the primal-dual system into blocks according to contingency scenarios and compute these blocks with a coarse-grained parallelism. The feasibility and effectiveness of the proposed approach is verified by solving for conflicting contingencies in a standard testing system and a real-world system.
Keywords :
iterative methods; load flow; matrix decomposition; parallel processing; power engineering computing; power generation planning; power generation scheduling; power system security; DPIPM; MCSCOPF; coarse grained parallelism; conflicting contingency; corrective security constrained optimal power flow; decomposed parallel interior point method; filtering index; iterative contingency filtering approach; modified CSCOPF model design; primal dual system factorization; real-world systems; rescheduling index; standard testing system; Computational modeling; Equations; Filtering; Generators; Indexes; Iterative methods; Linear programming; Conflicting contingencies; contingency filtering; corrective security-constrained optimal power flow; interior point algorithm; parallel computing;
Journal_Title :
Power Systems, IEEE Transactions on
DOI :
10.1109/TPWRS.2013.2291775
