摘要
电转气(PtG)技术与多类型储能设备相结合,可以大量增加可再生能源的就地消纳,减小系统弃风。针对区域内集成有电、气、热、冷多种能源的综合能源系统,首先对系统进行建模,具体介绍了电转气技术与多类型储能设备的工作原理。其次,以综合能源系统总年费用最低为目标,建立电转气与多类型储能设备的联合优化配置模型,并采用Big-M方法将模型线性化进行有效求解。最后,基于不同季节典型日负荷及风电预测曲线开展算例仿真,结果表明电转气与多类型储能设备的联合优化配置有利于最大化风电消纳,提高系统整体经济性。
The combination of power to gas(PtG)technology and energy storage equipment can greatly increase the local consumption of renewable energy and reduce system abandonment.For the integrated energy system formed by the coupling of electricity,gas,heat and cold energy in the region,the system is modeled firstly,the working principle of PtG technology and multi-type energy storage devices are introduced in detail.Secondly,the joint optimization model of PtG and multi-type energy storage equipment is established with the goal of the lowest total annual system cost and the model is linearized by Big-M method.Finally,based on the typical daily load and wind power forecasting curve in different seasons,the simulation results show that the joint optimal configuration of the PtG and the multi-type energy storage equipment is beneficial to maximize wind power consumption and improve the overall economy of the system.
作者
卢炳文
魏震波
魏平桉
郭毅
黄宇涵
马新如
周飞达
LU Bingwen;WEI Zhenbo;WEI Ping’an;GUO Yi;HUANG Yuhan;MA Xinru;ZHOU Feida(School of Electrical Engineering,Sichuan University,Chengdu 610065,China;State Grid Jiangsu Sihong Power Supply Company,Suqian 223900,China)
出处
《智慧电力》
北大核心
2021年第5期7-14,68,共9页
Smart Power
基金
国家自然科学基金资助项目(51807125)。
关键词
风电消纳
综合能源系统
电转气
储能
优化配置
wind power consumption
integrated energy system
PtG
energy storage
optimal configuration
作者简介
卢炳文(1994),男,江苏盐城人,硕士研究生,研究方向为综合能源系统的建模、规划和运行;通信作者:魏震波(1978),男,四川成都人,博士(后),研究方向为复杂系统及其理论、电力系统安全稳定分析与控制和电力市场。
