摘要
文章针对水上光伏电站浮体阵列挤拉组件受损的问题,研制出一种新型带有浮体下水防挤拉功能的水上光伏浮体阵列的连接装置,并提出三种方案进行定性定量分析,选取最佳方案为“限位盒”结构,并对最佳方案进行细化,确定基本结构。通过在现有工程中进行技术推广,并跟踪使用效果,结果表明:新装置提高了施工效率,降低了施工成本,效益显著。
In view of the damage caused by squeezing and pulling among floating body arrays in water-surface photovoltaic power station,this paper develops a new type of anti-squeezing and anti-pulling connection device and proposes three plans for qualitative and quantitative analysis.The best plan is selected and refined to determine the basic structure,which is then promoted in the existing project.According to the results,the new device improves the construction efficiency,reduces the construction cost and gains significant benefits.
作者
叶筱
蒋克勇
徐雯
孙瑞松
张前雄
YE Xiao;JIANG Keyong;XU Wen;SUN Ruisong;ZHANG Qianxiong(China Energy Engineering Group Anhui Electric Power Design Institute Co.,Ltd.,Hefei 230601,China;China Energy Construction Group Investment Co.,Ltd.East China Branch,Hefei 230601,China)
出处
《安徽电气工程职业技术学院学报》
2021年第3期75-79,共5页
Journal of Anhui Electrical Engineering Professional Technique College
关键词
水面光伏电站
水面浮体
防挤拉
water-surface photovoltaic power station
water-surface floating body
anti-squeezing and anti-pulling
