摘要
文章针对用户的基本负荷、储能和温控等典型负荷,采用实时电价机制,提出了基于非合作博弈的有序用电算法。运用此算法,在经过多轮博弈之后,台变侧和用户侧能够达到一个最优的Nash均衡解,保证了所有参与者的利益最大化的同时又能保证台变侧峰平比最小,从而智能地、有序地调度多用户参与电网负荷调控,实现有序用电,减少峰谷差值、提高收益。最后,通过一个算例证明该有序用电算法的有效性。
An algorithm of orderly power consumption based on non-cooperative game is proposed by u- sing real-time price mechanism, aiming at several typical loads such as users’ basic load, energy-sto- ring load and temperature-control load. By applying this algorithm, suppliers and users can achieve an optimal Nash equilibrium after several times of game, which guarantees the maximization of the bene- fits of all participants as well as the minimization of the peak-to-average power ratio. Thus the users can be scheduled to participate in power load regulation intelligently and orderly, the orderly power consumption is realized, the difference between peak and valley is reduced and the revenue is raised. Finally, the effectiveness of this algorithm is proved by an example.
出处
《合肥工业大学学报(自然科学版)》
CAS
北大核心
2017年第7期922-925,共4页
Journal of Hefei University of Technology:Natural Science
基金
合肥工业大学产学研校企合作资助项目(w2015jskf0030)
关键词
实时电价
非合作博弈
Nash均衡解
有序用电
real-time price
non-cooperative game
Nash equilibrium
orderly power consumption