背板是光伏组件的重要组成部件,本研究通过对不同类型背板技术、生产及综合环境测试情况的介绍,重点分析了不同类型背板的发展过程及优缺点,不同背板生产技术的对比、背板测试技术的要点及未来可能提升的关键,综合对比显示中等表面能四氟型太阳电池双面涂氟型背板技术(FFC)及其产品具有明显优势,双面涂氟技术已发展成为太阳电池背板主流技术.提出了针对太阳能光伏应用领域开发出符合光伏组件复杂应用环境要求下的含氟树脂及涂料的要求,认为涂氟型太阳电池背板功能化、平台化将是未来组件及背板发展的主流趋势.
参考文献
| [1] | KING D L;QUINTANA M A;KRATOCHVIL J A et al.Photovoltaic module performance and durability following long-term field exposure[J].Progress in Photovoltaics:Research and Applications,2000,8(02):241-256. |
| [2] | G. Oreski;G.M. Wallner .Aging mechanisms of polymeric films for PV encapsulation[J].Solar Energy,2005(6):612-617. |
| [3] | Oreski G;Wallner GM .Delamination behaviour of multi-layer films for PV encapsulation[J].Solar Energy Materials and Solar Cells: An International Journal Devoted to Photovoltaic, Photothermal, and Photochemical Solar Energy Conversion,2005(2/3):139-151. |
| [4] | M.A. Munoza;M.C. Alonso-Garcia;Nieves Vela;F. Chenlo .Early degradation of silicon PV modules and guaranty conditions[J].Solar Energy,2011(9):2264-2274. |
| [5] | JIAN W L;YU Z Z .Back sheet of colar cell and manufacturing method thereof[P].WO,2010022585 A1,2010-03. |
| [6] | 夏文进;王志;王鸣光.引领技术创新的涂覆型背膜技术[J].阳光能源,2011(06):58-59. |
| [7] | YANG Lixia,LI Xiaogang,ZHANG Sanping,DENG Hongda,LIN An.The Effect of Relative Humidity on the Corrosion-resisting Property of Fluorocarbon Coating[J].武汉理工大学学报(材料科学版)英,2006(02):92-97. |
| [8] | 夏文进,余博,张育政,林建伟.新型膜胶一体化太阳能电池背板与氟碳涂料[J].涂料技术与文摘,2013(11):23-27. |
| [9] | U. Moosheimer;Ch. Bichler .Plasma pretreatment of polymer films as a key issue for high barrier food packagings[J].Surface & Coatings Technology,1999(0):812-819. |
| [10] | Tougaard S. .Accuracy of the non-destructive surface nanostructure quantification technique based on analysis of the XPS or AES peak shape[J].Surface and Interface Analysis: SIA: An International Journal Devoted to the Development and Application of Techniques for the Analysis of Surfaces, Interfaces and Thin Films,1998(4):249-269. |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%