A preference-based multi-objective demand response mechanism

I. R. S. Silva, Jose Eduardo Almeida de Alencar, R. Rabêlo
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引用次数: 3

Abstract

The demand response (DR) aims to balance the purveyance and demand of electricity to maximize the reliability and efficiency of the energy supply process in the electrical power system (EPS). However, one of the main impediments to the insertion of DR in the residential context is the need of programming the use of various electrical appliances and the scheduling of renewable resources and storage system in the same time interval, that requires a range of specific knowledge and time availability of the consumer to handle the various home appliances. This article presents a preference-based multi-objective optimization model based on real-time electricity price to solve the problem of optimal residential load management. The proposal’s purpose is to minimize both the electricity consumption associated cost and the inconvenience caused to consumers. The proposed model was formalized as a nonlinear programming problem subject to a set of constraints associated with the consumption of electrical energy and operational aspects related to the residential appliance categories. The proposed multi-objective model was solved computationally by the Constrained Many-Objective Non-Dominated Sorted Genetic Algorithm (NSGA-III) to determine the new scheduling of residential appliances, renewable energy resources, and energy storage system utilization for the entire time horizon, considering consumer preferences. The results show that the multi-objective DR model proposed using the NSGA-III technique can minimize the total cost associated with energy consumption as well as reduce the inconvenience of consumers, besides helping consumers to take advantage of DR’s benefits without requiring manual intervention.
基于偏好的多目标需求响应机制
需求响应(DR)旨在平衡电力供应和需求,以最大限度地提高电力系统能源供应过程的可靠性和效率。然而,在住宅环境中插入DR的主要障碍之一是需要对各种电器的使用进行编程,并在同一时间间隔内调度可再生资源和存储系统,这需要消费者的一系列特定知识和时间可用性来处理各种家用电器。本文提出了一种基于实时电价的基于偏好的多目标优化模型,用于解决最优居民负荷管理问题。该建议的目的是尽量减少与电力消耗相关的成本和对消费者造成的不便。所提出的模型被形式化为一个非线性规划问题,该问题受到与电力消耗和与住宅电器类别相关的操作方面相关的一组约束。采用约束多目标非支配排序遗传算法(NSGA-III)对所提出的多目标模型进行计算求解,在考虑消费者偏好的情况下,确定整个时间范围内住宅电器、可再生能源和储能系统利用的新调度。结果表明,利用NSGA-III技术提出的多目标DR模型,除了帮助消费者在不需要人工干预的情况下利用DR的好处外,还可以使与能源消耗相关的总成本最小化,减少消费者的不便。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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