A Stochastic Approach to Integrating Electrical Thermal Storage in Distributed Demand Response for Nordic Communities With Wind Power Generation

IF 7.9 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC IEEE Open Journal of Industry Applications Pub Date : 2023-04-05 DOI:10.1109/OJIA.2023.3264651
Juan Domínguez-Jiménez;Nilson Henao;Kodjo Agbossou;Alejandro Parrado;Javier Campillo;Shaival H. Nagarsheth
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引用次数: 1

Abstract

Demand response and distributed energy storage play a crucial role in improving the efficiency and reliability of electric grids. This article describes a strategy for optimally integrating distributed energy storage units within a forward market to address space heating demand under a Stackelberg game in isolated microgrids. The proposed strategy performs distributed management in an offline fashion through proximal decomposition methods. It leverages stochastic programming to consider user flexibility degree and wind power generation uncertainties. Also, flexibility for demand response is realized through electric thermal storage (ETS). The performance of the proposed strategy is evaluated via simulation studies carried out through a case study in Kuujjuaq, Quebec. Ten residential agents compose the demand side, each with flexibility levels and economic preferences. The simulation results show that adapting ETS results in economic savings for the customers. Those benefits increased in the presence of wind power, from 25% to 40% on average. Likewise, coordinated strategies led the coordinator to obtain reduced operational costs and peak-to-average ratio by over 35% and 56%, respectively. The proposed approach reveals that optimal coordination of ETS in the presence of dynamic tariffs can reduce diesel consumption, maximize renewable production and reduce grid stress.
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北欧社区风能发电分布式需求响应中电储热集成的随机方法
需求响应和分布式储能在提高电网效率和可靠性方面发挥着至关重要的作用。本文描述了一种在前瞻性市场中优化集成分布式储能单元的策略,以解决孤立微电网中Stackelberg博弈下的空间供暖需求。所提出的策略通过近端分解方法以离线方式执行分布式管理。它利用随机规划来考虑用户的灵活性和风力发电的不确定性。此外,通过电蓄热(ETS)实现了需求响应的灵活性。通过在魁北克省Kuujjuaq的一个案例研究进行的模拟研究,对所提出的策略的性能进行了评估。十家住宅代理商组成了需求方,每一家都有灵活性和经济偏好。仿真结果表明,采用ETS可以为客户节省经济费用。在风力发电的情况下,这些收益增加了,平均从25%增加到40%。同样,协调一致的策略使协调员的运营成本和峰均比分别降低了35%和56%以上。所提出的方法表明,在存在动态电价的情况下,ETS的最佳协调可以减少柴油消耗,最大限度地提高可再生能源生产,并减轻电网压力。
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