How double-glass laminated amorphous silicon solar modules break in the field: A case study

Y. Zhang, T. Dun, J. Du, X. Liu, H. Li, Q. Dong, T. Liu, Y. Huang, H. Jia, Y. Mai
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引用次数: 4

Abstract

About 160 double-glass laminated amorphous silicon solar modules, which were found broken in a BIPV and a ground-mounted project sites, were shipped back to the manufacturer for breakage mechanism investigation. Glass surface inspection and fracture surface analysis were carried out to find out the breakage origin and the tensile stress concentrated on the origin. These modules can be classified into three groups according to the root causes of origin formation. More care shall be taken during installation and maintenance since a large part of modules from both sites were knocked or chucked, and then broke afterwards. Mounting systems have to be improved for double-glass laminated modules as the clamping structure induced more than 50% of breakage in the modules from the ground-mounted project. Scratches on the front glass surface and local glass bending at the module short edges generated origins and tensile stress for the breakage accounting for 55.3% of modules from the BIPV project, and thus shall be minimized. It is suggested that sufficient training and proper machines or tools are very critical for the complicated façade installation to avoid the scratch formation.
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双玻璃层压非晶硅太阳能组件如何在该领域突破:一个案例研究
在BIPV和地面安装工程现场发现破损的约160个双玻璃层压非晶硅太阳能组件,已运回制造商进行破损机理调查。对玻璃进行了表面检测和断口分析,找出了断裂原因和集中在断口的拉应力。这些模块可以根据成因的根本原因分为三类。在安装和维护过程中,由于两个地点的大部分模块都被撞击或卡盘,然后发生断裂,因此在安装和维护过程中要更加小心。双玻璃夹层组件的安装系统必须得到改进,因为夹紧结构导致50%以上的组件从地面安装项目中断裂。在BIPV项目中,前玻璃表面的划痕和组件短边的局部玻璃弯曲产生的破损和拉应力占组件破损的55.3%,因此应尽量减少。建议充分的培训和适当的机器或工具是非常重要的,以避免划伤的形成复杂的farade安装。
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