Predicting the potential moisture ingress characteristics of polyisobutylene based edge seals (Conference Presentation)

Optics + Photonics for Sustainable Energy Pub Date : 2016-11-02 DOI:10.1117/12.2239915

M. Kempe

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Abstract

Photovoltaic devices are often sensitive to moisture and must be packaged in such a way as to limit moisture ingress for 25 years or more. Typically, this is accomplished through the use of impermeable front and backsheets (e.g., glass sheets or metal foils). However, this will still allow moisture ingress between the sheets from the edges. Attempts to hermetically seal with a glass frit or similarly welded bonds at the edge have had problems with costs and mechanical strength. Because of this, low diffusivity polyisobutylene materials filled with desiccant are typically used. Although it is well known that these materials will substantially delay moisture ingress, correlating that to outdoor exposure has been difficult. Here, we use moisture ingress measurements at different temperatures and relative humidities to find fit parameters for a moisture ingress model for an edge-seal material. Then, using meteorological data, a finite element model is used to predict the moisture ingress profiles for hypothetical modules deployed in different climates and mounting conditions, assuming no change in properties of the edge-seal as a function of aging.

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预测聚异丁烯基边缘密封件的潜在吸湿特性(会议报告)

光伏设备通常对湿气很敏感，因此必须以限制湿气进入25年或更长时间的方式进行包装。通常，这是通过使用不透水的正面和背面(例如，玻璃片或金属箔)来实现的。然而，这仍然会允许水分从边缘进入薄片之间。试图在边缘用玻璃熔块或类似的焊接键进行密封，在成本和机械强度方面存在问题。因此，通常使用填充干燥剂的低扩散率聚异丁烯材料。虽然众所周知，这些材料将大大延缓水分的进入，但将其与室外暴露联系起来是困难的。在这里，我们使用不同温度和相对湿度下的吸湿测量值来为边缘密封材料的吸湿模型找到合适的参数。然后，利用气象数据，利用有限元模型预测在不同气候和安装条件下部署的假设模块的吸湿分布，假设边缘密封的性能不随老化而变化。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Optics + Photonics for Sustainable Energy

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