Title :
Total Transfer Capability enhancement using Differential Evolution
Author :
Rajathy, R. ; Gnanadass, R. ; Vincy, V. ; Ambroise, Shaliney Esther ; Kumar, Harish
Author_Institution :
Dept. of Electr. & Electron. Eng., Pondicherry Eng. Coll., Pondicherry, India
Abstract :
The application of differential evolution to compute the total transfer capability in deregulated market is proposed in this paper. The objective is to maximize a specific point-to-point power transaction without system constraint violations using Differential Evolution. This algorithm is based on full ac optimal power flow solution to account for the effects of active and reactive power flow, voltage limits, and line flow limits. The real power output of generators in source area and the real power of the loads in the sink area can be adjusted to obtain the maximum transfer capability. The performance of the proposed method is tested on the modified IEEE-30 bus system and results are compared with that of Particle Swarm Optimization method and with other published results.
Keywords :
load flow; particle swarm optimisation; power markets; active power flow; deregulated market; differential evolution; full ac optimal power flow solution; line flow limits; maximum transfer capability; particle swarm optimization method; point-to-point power transaction; reactive power flow; total transfer capability enhancement; voltage limits; Electricity supply industry deregulation; Load flow; Power generation; Power supplies; Power system modeling; Power system planning; Power system stability; Reactive power; Reactive power control; Voltage; Available Transfer Capability (ATC); Differential Evolution (DE); Total transfer capability (TTC); Transmission Reliability margin (TRM);
Conference_Titel :
Control, Automation, Communication and Energy Conservation, 2009. INCACEC 2009. 2009 International Conference on
Conference_Location :
Perundurai, Tamilnadu
Print_ISBN :
978-1-4244-4789-3
