The Open Electrical & Electronic Engineering Journal

2015, 9 : 107-116
Published online 2015 March 20. DOI: 10.2174/1874129001509010107
Publisher ID: TOEEJ-9-107

Differentiation Coherence Algorithm for Steady Power Flow Control

Yang Liu-Lin and Hang Nai-Shan
Da-Xue Road, Nanning, Guangxi Zhuang Autonomous Region, China. Postcard: 530004.

ABSTRACT

This paper researched steady power flow control with variable inequality constraints. Since the inverse function of power flow equation is hard to obtain, differentiation coherence algorithm was proposed for variable inequality which is tightly constrained. By this method, tightly constrained variable inequality for variables adjustment relationships was analyzed. The variable constrained sensitivity which reflects variable coherence was obtained to archive accurate extreme equation for function optimization. The hybrid power flow mode of node power with branch power was structured. It also structured the minimum variable model correction equation with convergence and robot being same as conventional power flow. In fundamental analysis, the effect of extreme point was verified by small deviation from constrained extreme equation, and the constrained sensitivity was made for active and reactive power. It pointed out possible deviation by using simplified non-constrained sensitivity to deal with the optimization problem of active and reactive power. The control solutions for power flow for optimal control have been discussed as well. The examples of power flow control and voltage management have shown that the algorithm is simple and concentrated and shows the effect of differential coherence method for extreme point analysis.

Keywords:

Inequality constraint, constrained sensitivity, power flow control, optimal power flow (OPF).