Abdelfattah Abassi, Mostapha El Jai, Ahmed Arid, Hussain Ben-azza
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引用次数: 0
Abstract
In the context of an energy crisis, efficient energy management has become an unavoidable issue for sustainability, regardless of the domain under consideration. Smart grids are no exception; they aim to motivate energy optimization according to billing strategies and users’ comfort. In this paper, two optimization problems (OP) are proposed involving billing strategies and users’ flexibility. A single-centralized OP aims to minimize the total energy provided by a company, while a distributed OP targets minimizing individual user costs independently, involving users’ flexibilities, different billing strategies, and a variable number of users, with random appliances assigned during simulations. The resolution was carried out using the Non-dominated Sorting Algorithm II and Multi-Criteria Analysis, with a Game-based algorithm also utilized. Additionally, simulations were performed under three billing mechanisms. The findings show that costs decrease exponentially with user participation. Similarly, both individual user costs and total costs at the energy provider level were minimized as users’ flexibilities increased. The Peak-to-Average-Ratio is minimized and exhibits a bimodal behavior when observed as a random variable. Regarding the interplay of billing mechanisms, simulation results demonstrate that the smart billing mechanism proposed by the authors outperforms other billing models proposed in the literature for both consumers and utility companies.
在能源危机的背景下,无论在哪个领域,高效的能源管理都已成为可持续发展不可回避的问题。智能电网也不例外,其目标是根据计费策略和用户舒适度来激励能源优化。本文提出了两个涉及计费策略和用户灵活性的优化问题(OP)。单个集中式优化问题的目标是最大限度地减少公司提供的总能源,而分布式优化问题的目标是最大限度地减少单个用户的独立成本,其中涉及用户的灵活性、不同的计费策略以及用户数量的可变性,并在模拟过程中随机分配设备。解决方法采用了非优势排序算法 II 和多标准分析法,还使用了基于博弈的算法。此外,还在三种计费机制下进行了模拟。研究结果表明,成本随着用户的参与呈指数级下降。同样,随着用户灵活性的提高,单个用户成本和能源提供商层面的总成本都降到了最低。峰均比最小,并且在作为随机变量观察时表现出双峰行为。在计费机制的相互作用方面,模拟结果表明,作者提出的智能计费机制对消费者和公用事业公司而言都优于文献中提出的其他计费模式。
期刊介绍:
The journal Energy Efficiency covers wide-ranging aspects of energy efficiency in the residential, tertiary, industrial and transport sectors. Coverage includes a number of different topics and disciplines including energy efficiency policies at local, regional, national and international levels; long term impact of energy efficiency; technologies to improve energy efficiency; consumer behavior and the dynamics of consumption; socio-economic impacts of energy efficiency measures; energy efficiency as a virtual utility; transportation issues; building issues; energy management systems and energy services; energy planning and risk assessment; energy efficiency in developing countries and economies in transition; non-energy benefits of energy efficiency and opportunities for policy integration; energy education and training, and emerging technologies. See Aims and Scope for more details.
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