电气技术2025,Vol.26Issue(2):26-34,9.
基于电能替代和需求响应的氧化铝工业多目标优化调度方法
Research on multi-objective optimal scheduling method of green power and low carbon aluminum based synergy considering electric energy substitution and demand response
摘要
Abstract
With the growth of renewable energy and the increase of low carbon demand,alumina industry is facing the challenge of optimizing energy consumption.Targeting industrial production at high renewable energy ratios,it is optimized through electric energy substitution and demand response.In this paper,other green power real-time regulation is taken as the object of demand response,and a multi-objective demand response model of alumina production electricity consumption is established on the basis of guaranteeing that the rate of wind and light abandonment is minimized,and with the goal of satisfying the system economy and guaranteeing the output.The normal boundary intersection(NBI)method and nondominated sorting genetic algorithm Ⅱ(NSGA-Ⅱ)are used to optimize and solve the model.According to the analysis results of actual cases,the NBI algorithm performs better in reducing the electricity cost and the rate of power abandonment,with a cost reduction of 73%and a rate of power abandonment of 16.65 percentage points,compared to 70%and 15.65 percentage points,respectively,for NSGA-Ⅱ.关键词
需求响应/氧化铝/多目标优化/标准边界交叉(NBI)算法/可再生能源/第二代非支配排序遗传算法(NSGA-Ⅱ)Key words
demand response/alumina/multi-objective optimization/normal boundary intersection(NBI)method/renewable energy/nondominated sorting genetic algorithm Ⅱ(NSGA-Ⅱ)引用本文复制引用
刘宝勇,林依桐,唐亮,史洁,张昕雪..基于电能替代和需求响应的氧化铝工业多目标优化调度方法[J].电气技术,2025,26(2):26-34,9.基金项目
济南市"高校20条"项目(2021GXRC113) (2021GXRC113)
