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考虑短时负荷调峰-长时光伏消纳的液化空气储能系统建模及经济性评估

游广增陈宇陈孝元孙鹏雷一张东辉

南方电网技术2023，Vol.17Issue(12)：90-100,118,12.

南方电网技术2023，Vol.17Issue(12)：90-100,118,12.DOI:10.13648/j.cnki.issn1674-0629.2023.12.011

考虑短时负荷调峰-长时光伏消纳的液化空气储能系统建模及经济性评估

Modeling and Economic Evaluation of Liquid Air Energy Storage System Considering Short-Term Load Peak Shaving and Long-Term Photovoltaic Accommodation

游广增 ¹陈宇 ²陈孝元 ²孙鹏 ¹雷一 ²张东辉²

作者信息

1. 云南电网有限责任公司规划建设研究中心,昆明 650011
2. 清华四川能源互联网研究院,成都 610023
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摘要

Abstract

In order to solve the problems of difficult flexible peak regulation and renewable energy accommodation due to the obvious seasonal characteristics of power grid load,taking Chuxiong area of Yunnan Province as an example,a new solution of integrating the photovoltaic power generation and liquid air energy storage(LAES)system architecture is proposed,aiming to clarify the integrated planning concept of source-network-load-storage.Based on the typical climate conditions,photovoltaic output characteristics in dif-ferent seasons and the historical data of electricity load in Yunnan,the models of short-term load peak shaving and long-term photovoltaic accommodation based on photovoltaic power generation and liquid air energy storage are established.Based on the simulation analysis of daily and seasonal power load peaking,the technical feasibility and economic benefit of short-term load peak-ing and long-term photovoltaic absorption are further verified.The evaluation results show that the photovoltaic power generation and liquid air energy storage system can reduce the power grid supply burden by 33.4%through daily load peak shaving,and the photovoltaic power discarding rate is expected to be reduced by 10.1%through seasonal long-term energy storage regulation.In the economic benefit evaluation of short-term load peak shaving and long-term photovoltaic accommodation,the average levelized cost of energy(LCOE)is about 0.47 yuan/kWh,and the static payback period(SPP)and dynamic payback period(DPP)can maintain at about 7.5 years and 10.5 years,which verify the economic feasibility of the proposed photovoltaic-LAES system effectively.

关键词

光伏消纳/负荷调峰/液化空气储能/季节性储能/储能经济性评估

Key words

photovoltaic accommodation/load peak shaving/liquid air energy storage(LAES)/seasonal energy storage/economic evaluation of energy storage

分类

能源科技

引用本文复制引用

游广增,陈宇,陈孝元,孙鹏,雷一,张东辉..考虑短时负荷调峰-长时光伏消纳的液化空气储能系统建模及经济性评估[J].南方电网技术,2023,17(12):90-100,118,12.

基金项目

国家自然科学基金资助项目(52007100). Supported by the National Natural Science Foundation of China(52007100). （52007100）

南方电网技术

OA北大核心CSCDCSTPCD

ISSN：1674-0629

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