摘要
全国碳市场拉开了我国能源结构加速转型的大幕,催生了光伏、储能和新能源汽车等一批绿色产业的兴起,同时随着国家利好政策扶植和消费者的青睐,光伏、储能和新能源汽车市场均加快发展。但传统的充电桩和光伏电站都是分开建设,且大多未同步配备储能系统,用电高峰时充电桩对电网冲击大、充电费用高,严重影响了新能源车主的用车体验,降低了充电桩的运营收益。光储充一体化电站的大规模推广和建设是解决当前局面的突破口。但光储充一体化建设,系统复杂度高,运维保养要求高,传统的定期巡检模式,难以应对大规模爆发式建设的光储充一体化电站,而基于双碳目标的光储充一体化电站状态评估技术是解决光储充大规模建设运维难题的关键。
The national carbon market has opened the curtain of the accelerated transformation of China’s energy structure,which has led to the rise of a number of green industries such as photovoltaic,energy storage and new energy vehicles.At the same time,with the support of favorable national policies and the favor of consumers,the photovoltaic,energy storage and new energy vehicle markets have all developed rapidly.However,the traditional charging piles and photovoltaic power stations are constructed separately,and most of them are not equipped with energy storage systems synchronously.The charging piles have a great impact on the power grid during peak power consumption,and the charging costs are high,which has seriously affected the vehicle experience of new energy owners and reduced the operating income of the charging piles.The large-scale promotion and construction of integrated optical storage and charging power stations is a breakthrough to solve the current situation.However,the integrated construction of optical storage and charging has high system complexity and high requirements for operation and maintenance.The traditional regular inspection mode is difficult to deal with the upcoming large-scale explosive construction of optical storage and charging integrated power station.The state assessment technology of optical storage and charging integrated power station based on dual carbon goals is the key to solving the operation and maintenance problems of large-scale construction of optical storage and charging.
作者
翁利国
练德强
徐铌
沈阳
王佳斌
Weng Li-guo;Lian De-qiang;Xu Ni;Shen Yang;Wang Jia-bin
出处
《电力系统装备》
2023年第2期77-79,共3页
Electric Power System Equipment
关键词
光储充一体化电站
状态评估
双碳目标
optical storage and charging integrated power station
condition assessment
double carbon target
