智能电网社区能源市场可扩展性评估

P. Silva, S. Karnouskos, Dejan Ilić
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引用次数: 14

摘要

鉴于目前的重点是分布式发电,特别是可再生能源发电(如太阳能和风能),电网正在发生根本性的变化。因此,需要新的方法和技术来有效地协调和最佳地利用这些资源。分配系统一级的能源市场提供了解决这一问题的潜力,它为资源的定价和分配提供了有效的机制。市场参与者(例如,家庭、esco、资产管理公司等)可以在对当前和当地的生产和消费水平作出反应的同时,应用经济驱动的战略进行能源交易。本文对这样一个局部社区市场进行了评估,并考察了其在不同参与者数量和不同光伏发电渗透率下的可扩展性。通过模拟现实生产和消费条件下的市场运作进行评估。结果表明,所提出的市场模型可以很好地适应这两个参数。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Evaluation of the scalability of an energy market for Smart Grid neighborhoods
The electric power grid is undergoing fundamental changes in light of the current focus on distributed generation, and in particular renewable generation (e.g., solar and wind). As a result, new methodologies and technologies are needed to effectively coordinate and make optimal use of the these resources. A distribution-system level energy market offers the potential to address this issue by providing an efficient mechanism for the pricing and allocation of resources. Market participants (e.g., households, ESCos, asset managers etc.) can apply economically driven strategies to trade energy while reacting to current and local levels of production and consumption. We evaluate here such a local neighborhood market and investigate its scalability under different numbers of participants and different penetrations photo-voltaic (PV) generation. The evaluation is carried out by simulating market operations under realistic production and consumption conditions. Results showed that the proposed market model scales well against both parameters.
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