Analysis of dynamic optimal power flow for distribution network with wind power and energy storage

To adapt to the development of future power system, a mathematical model of day-ahead dynamic optimal power flow is built for the distribution network with wind power and energy storage, which takes the minimum electricity purchase from transmission system as its objective and considers the characteristics and limitation conditions of common asynchronous wind power system, double-fed induction wind power system and battery storage system besides the basic operation limits of distribution network. Based on the GAMS platform, the CONOPT solver is adopted to solve the model. Taking a 12-bus distribution network with wind power and energy storage as an example, the mechanism analysis on several patterns shows that, with the dynamic optimization considering the operating characteristics of distribution network with wind power and energy storage, the resources are effectively allocated, the diversion among active power, reactive power and voltage avoided and the wind power more effectively accommodated. ©, 2015, Electric Power Automation Equipment Press. All right reserved.