配电系统中用于服务恢复的能量优化分配

IF 3 3区 计算机科学 Q2 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE
Saifullah Khalid;Ishfaq Ahmad
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引用次数: 0

摘要

自然灾害和技术故障可能导致电网大面积停电,对社区和基础设施产生不利影响。具有分布式发电和存储的微电网可以帮助减轻其中一些破坏性影响。然而,没有多少社区和基础设施拥有替代电力机制。在需要时,微电网可以通过捐赠或交易剩余容量来帮助贫困的邻居或关键社区,如医院。智能电网中的能源捐赠是一种可行且高效的恢复选择,可以减轻灾难的影响。然而,由于微电网的容量有限,服务恢复需要优先考虑关键负荷和运营的优化,以缓解那些急需帮助的人。在本文中,我们提出了一个新的框架,用于在危机期间,当主要供应被切断时,在智能电网中实现能源捐赠。所提出的技术使用加权和优化的配给方法来分配能源。它通过严格照顾负载和用户在修复过程中的历史贡献来做到这一点。所提出的方法基于一种算法,该算法采用进化优化技术,在满足资源和网络约束的同时,最大限度地提高社会福利并最大限度地减少损失。大量的仿真结果确定了所提出的方法在无数系统参数上的有效性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Optimizing Energy Donation for Service Restoration in a Power Distribution System
Natural hazards and technical malfunctions can cause widespread outages of power networks, adversely affecting communities and infrastructures. Microgrids with distributed generation and storage can help mitigate some of these devastating effects. However, not many communities and infrastructures have alternative power mechanisms. When needed, microgrids may help needy neighbors or critical communities, such as hospitals, by donating or trading surplus capacity. Energy donation in a smart grid is a viable and highly effective restoration option to mitigate the effects of a disaster. However, because of the limited capacity of microgrids, service restoration requires prioritizing critical load and optimality of operations for rendering relief to those in dire need. In this paper, we propose a new framework for enabling energy donation in a smart grid during a crisis when the main supply is cut off. The proposed technique allocates energy using weighted and optimized rationing approaches. It does so by catering to the load critically and users’ historical contribution during restoration. The proposed method is based on an algorithm which employs evolutionary optimization technique that maximizes social welfare and minimizes losses while satisfying the resource and network constraints. Extensive simulation results ascertain the effectiveness of the proposed approach across a myriad of system parameters.
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来源期刊
IEEE Transactions on Sustainable Computing
IEEE Transactions on Sustainable Computing Mathematics-Control and Optimization
CiteScore
7.70
自引率
2.60%
发文量
54
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