Distributed Economic Model Predictive Load Frequency Control for the Multiarea Interconnected Power System With WTs

IF 4 3区 计算机科学 Q1 COMPUTER SCIENCE, INFORMATION SYSTEMS IEEE Systems Journal Pub Date : 2024-09-11 DOI:10.1109/JSYST.2024.3423489
Miaomiao Ma;Jing Cui;Xiangjie Liu;Kwang Y. Lee
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Abstract

This article considers the distributed economic model predictive control (DEMPC) scheme for addressing the load frequency control problem in a multiarea interconnected power system with wind turbines. The system is divided into multiple dynamically coupled subsystems, each subjected to state and control input constraints due to safety concerns. The overall optimal control problem is decomposed into several local optimal control problems based on the local information of each subsystem, meaning each area designs its own local DEMPC controller. Within this framework, the future state trajectories of neighboring subsystems are estimated from the transmitted information between neighbors. To enhance overall economic benefits, the economic stage cost, including load frequency regulation cost, fuel consumption cost, and wind generation cost, is incorporated into the cost function. Simulation results and analysis under different scenarios demonstrate potential improvements in computational burden, economic performance, and robustness of the designed DEMPC controller.
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有风电机组的多区域互联电力系统的分布式经济模型预测性负载频率控制
本文探讨了分布式经济模型预测控制(DEMPC)方案,以解决带风力涡轮机的多区域互联电力系统中的负载频率控制问题。该系统分为多个动态耦合子系统,出于安全考虑,每个子系统都受到状态和控制输入约束。根据每个子系统的本地信息,整体最优控制问题被分解为多个本地最优控制问题,这意味着每个区域都要设计自己的本地 DEMPC 控制器。在此框架内,相邻子系统的未来状态轨迹是通过相邻子系统之间的传输信息估算出来的。为提高整体经济效益,经济阶段成本(包括负载频率调节成本、燃料消耗成本和风力发电成本)被纳入成本函数。不同场景下的仿真结果和分析表明,所设计的 DEMPC 控制器在计算负担、经济性能和鲁棒性方面都有潜在的改进空间。
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来源期刊
IEEE Systems Journal
IEEE Systems Journal 工程技术-电信学
CiteScore
9.80
自引率
6.80%
发文量
572
审稿时长
4.9 months
期刊介绍: This publication provides a systems-level, focused forum for application-oriented manuscripts that address complex systems and system-of-systems of national and global significance. It intends to encourage and facilitate cooperation and interaction among IEEE Societies with systems-level and systems engineering interest, and to attract non-IEEE contributors and readers from around the globe. Our IEEE Systems Council job is to address issues in new ways that are not solvable in the domains of the existing IEEE or other societies or global organizations. These problems do not fit within traditional hierarchical boundaries. For example, disaster response such as that triggered by Hurricane Katrina, tsunamis, or current volcanic eruptions is not solvable by pure engineering solutions. We need to think about changing and enlarging the paradigm to include systems issues.
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