摘要
为充分利用贫困地区空置屋顶及土地资源优势,发展光伏发电产业,降低碳排放,保护环境并改善居民经济状况,本文以某贫困地区安装总容量约为650kWp的分布式光伏电站设计为案例,根据当地太阳能资源和气候条件等情况,选取合适的光伏电池组件和逆变器型号,通过PVsyst软件模拟仿真计算得出光伏阵列最佳安装倾角,由此计算确定光伏阵列的布置间距,最后推算出本案例25年内的发电量,并对环境效益进行评估,为光伏扶贫工作提供借鉴和经验。
To make full use of the advantages of vacant roofs and land resources in poor areas,develop photovoltaic power generation industry,reduce carbon emissions,protect the environment and improve residents'economic conditions,this paper takes the design of a distributed photovoltaic power station with a total capacity of about 650kWp in a poor area as an example,and selects suitable photovoltaic cell modules and inverters according to the local solar energy resources and climate conditions.The optimal inclination Angle of PV array is obtained by PVsyst software simulation,and the spacing of PV array is determined by this calculation.Finally,the electricity generation within 25 years of the case is calculated,and the environmental benefit is evaluated,providing reference and experience for photovoltaic poverty alleviation work.
作者
唐炜豪
李蔚
Tang Weihao;Li Wei(CITIC General Institute of Architectural Design and Research Co.,Ltd,Wuhan 430014,China)
出处
《智能建筑电气技术》
2024年第3期118-122,131,共6页
Electrical Technology of Intelligent Buildings
基金
中信集团重大科研项目(双碳专项),项目名称:碳达峰与碳中和背景下夏热冬冷地区超低能耗建筑关键技术体系研究,项目编号:2022ZXKYD30100。
关键词
分布式光伏电站
并网发电系统
光伏组件
逆变器
最佳安装倾角
光伏阵列
布置间距
PVsyst仿真
效益分析
distributed photovoltaic power generation
grid-connected power generation system
photovoltaic module
inverter
optimum mounting angle
photovoltaic array
layout spacing
PVsyst simulation
benefit analysis