通过P2P市场机制实现燃气和电力系统的一体化运营

IF 2.4 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC IET Smart Grid Pub Date : 2023-03-07 DOI:10.1049/stg2.12104
Meysam Feili, Mohammad Taghi Ameli
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引用次数: 2

摘要

点对点(P2P)能源交易是一种将分布式能源整合到电力系统中的新技术。P2P市场允许终端用户之间的直接能源交易,实现本地电力和能源平衡,并支持电网运行。燃气电厂作为一种常见的分布式电源,由于其灵活的特点,被用于处理电力系统的间歇性问题。因此,电力系统的间歇性通过燃气电厂传递到燃气系统,使得这些系统的运行更加相互依赖和具有成本效益。本文提出了一种考虑需求响应和两种网络约束的基于市场的两阶段电力和天然气电网一体化运行框架。在第一阶段(调度阶段),基于minlp的优化方法用于考虑未来24小时交流潮流和气体水力计算的两个能源载体的最优调度。然后,在第二阶段,使用基于连续双拍卖(CDA)的P2P能源交易方法,使客户能够相互交易能源。为了模拟人类交易者的行为并使客户利益最大化,作者通过零智能+交易者模型考虑了最优的竞价策略。在33总线配电网和33节点燃气网络上进行的仿真表明,所提出的框架可以显著降低总运行成本,提高两种网络的性能。仅使用MINLP优化问题,在第一阶段,两个网络的总运行成本降低了15.58%,而电网末端的电压剖面提高了约7%。下一阶段,通过实施P2P能源交易机制,两个网络的总运营成本将进一步降低29.31%。
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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Integrated operation of gas and power system through the P2P market mechanism

Peer-to-peer (P2P) energy trading is a new technology for integrating distributed energy resources (DERs) into the power system. A P2P market allows direct energy trading between end-users, enables local power and energy equilibrium and supports power grid operations. As a common DER, gas-fired power plants are employed to deal with the intermittency of the power system due to their flexible characteristics. Therefore, the intermittency in the power system transmits to the gas system through the gas-fired power plants, which makes the operation of these systems even more interdependent and cost-effective. This paper proposes a market-based two-stage framework for the integrated operation of power and natural gas grids taking into account demand response and both network constraints. In the first stage (scheduling stage), the MINLP-based optimisation approach is used for the optimal scheduling of two energy carriers considering AC power flow and gas hydraulic calculations for the next 24 h. Then, in the second stage, the continuous double auction (CDA)-based P2P energy trading approach is used for enabling customers to trade energy with each other. To simulate human trader behaviour and maximises the benefits of customers, the authors considered the optimum bidding strategy through the zero intelligent plus trader model. The simulations executed on a 33-bus power distribution grid and a 33-node gas network indicate that the proposed framework can dramatically reduce the total operational cost and improve the performance of both networks. Using only the MINLP optimisation problem, first stage, the total operational cost of both networks is reduced by 15.58%, while the voltage profile at the end of the power grid is improved by about 7%. In the next stage, the total operating cost of both networks is further decreased by 29.31% via implementing the P2P energy trading mechanism.

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来源期刊
IET Smart Grid
IET Smart Grid Computer Science-Computer Networks and Communications
CiteScore
6.70
自引率
4.30%
发文量
41
审稿时长
29 weeks
期刊最新文献
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