Intelligent optimization distributed wind power distribution system model based on mixed integer linear programming
the impact of distributed energy access on voltage stability and line loss is considered,and conducts in-depth research on voltage stability and line loss in distribution systems.A mixed-integer linear programming(MILP)based distributed wind power distribution model is proposed,providing support for the efficient integration of renewable distributed energy.In order to maximize the multi-objective technical benefits of renewable distributed wind power access in distribution networks,this paper considers optimizing operation,implementing adaptive power factor control(PFC)schemes,and running OLTC tap changers.A new radial distribution system LPF formula is proposed for the optimal configuration problem of distributed wind power,which is verified against the general load flow model.Case show that the proposed optimization model can effectively improve voltage stability and reduce energy loss,thereby promoting the popularization of renewable energy in distribution networks.
mixed integer linear programmingvoltage stabilityline lossrenewable energywind power generation
万方数据
维普
