《电力自动化设备》

引用本文:	朱振山,盛明鼎,陈哲盛.计及液态空气储能与综合需求响应的综合能源系统低碳经济调度[J].电力自动化设备,2022,42(12):
	ZHU Zhenshan,SHENG Mingding,CHEN Zhesheng.Low-carbon economic dispatching of integrated energy system considering liquid air energy storage and integrated demand response[J].Electric Power Automation Equipment,2022,42(12):

【打印本页】【HTML】【下载PDF全文】【查看/发表评论】【EndNote】【RefMan】【BibTex】

←前一篇|后一篇→

过刊浏览高级检索

本文已被：浏览 2590次下载 1164次
字体:加大+\|默认\|缩小-
计及液态空气储能与综合需求响应的综合能源系统低碳经济调度
朱振山^1,2, 盛明鼎¹, 陈哲盛¹
1.福州大学电气工程与自动化学院，福建福州 350108;2.智能配电网装备福建省高校工程研究中心，福建福州 350108

摘要:

提高供应侧风电、光伏等清洁能源的消纳，降低传统火电机组的碳排放是实现能源结构转型以及碳达峰、碳中和的重要手段。针对能源系统低碳运行的问题，提出了一种包含储液式碳捕集电厂、电转气、液化天然气气化站以及利用液化天然气冷能的液态空气储能的综合能源系统低碳经济调度策略，并结合需求侧的响应策略，从供需两侧联合调度以实现综合能源系统的经济性和低碳性。最后，以改进的IEEE 30节点电力系统与6节点天然气系统为例，验证了所提出的低碳经济调度策略可以提高系统的风电消纳，减少系统的碳排放量，削峰填谷效果更为明显，并可有效降低系统运行的总成本。

关键词: 碳捕集电厂综合需求响应液化天然气 Brayton循环液态空气储能系统

DOI：10.16081/j.epae.202210003

分类号:TM73;TK01

基金项目:福建省教育厅中青年教师教育科研项目(JAT190043)

Low-carbon economic dispatching of integrated energy system considering liquid air energy storage and integrated demand response

ZHU Zhenshan^1,2, SHENG Mingding¹, CHEN Zhesheng¹

1.School of Electrical Engineering and Automation, Fuzhou University, Fuzhou 350108, China;2.Fujian Province University Engineering Research Center of Smart Distribution Grid Equipment, Fuzhou 350108, China

Abstract:

Increasing the consumption of clean energy such as wind power and photovoltaic at the supply side, and reducing the carbon emission of traditional thermal power units are important means to realize the transformation of energy structure as well as carbon peaking and carbon neutralization. As for the low-carbon operation of energy system, a low-carbon economic dispatching strategy of the integrated energy system that includes reservoir-type carbon capture power plant, power-to-gas, LNG(Liquefied Natural Gas) vaporizing station, and liquid air energy storage using cold energy of LNG is proposed. And combined with the demand-side response strategy, the joint dispatching from both supply and demand sides is adopted to achieve the economy and low carbon of integrated energy system. Finally, the improved IEEE 30-bus power system and 6-node natural gas system is taken as an example to verify that the proposed low-carbon economic dispa-tching strategy can improve the consumption of wind power, reduce the carbon emission of system, enhance the performance of peak shaving, and reduce the total operation cost of system effectively.

Key words: carbon capture power plant integrated demand response liquefied natural gas Brayton cycle liquid air storage system

用微信扫一扫