Optical Transmission Losses of a TiO2-based Anti-soiling Coating for Use in Outdoor Photovoltaic Applications

Journal of Photocatalysis Pub Date : 2021-11-01 DOI:10.2174/2665976x02666211022150845

M. Babin, Daniel Alvarez Mira, Yashaswa Surya Aryan, Marina García-Agúndez Blanco, P. Poulsen, Sune Thorsteinsson

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Abstract

Soiling can be a major challenge for photovoltaic (PV) installations, depending on their location, as it reduces transmission and can lead to significant losses. Anti-soiling coatings have been demonstrated to reduce soiling losses and thereby increase PV power production. This article investigates the applicability of a titanium-dioxide-based anti-soiling coating developed by Photocat under the name “ShineOn” for use with PV installations. The main parameter examined is the optical transmission losses, as this directly translates to performance losses during non-soiled operations. Measurements of transmittance are carried out using both indoor laboratory setups as well as outdoor PV installations, including measurements of the short-circuit current (Isc), incidence angle modifier (IAM) and spectral transmittance. Investigated samples include both full-sized modules and custom-made mini-modules containing a single solar cell. Both indoor and outdoor measurements show minor transmission losses in the range of 0.3 to 0.6 % and negligible effects on the IAM. Additionally, observations indicate that samples should be coated after lamination, as losses for samples coated before lamination are slightly higher. As the transmission losses due to the ShineOn coating are small and no additional angular- dependent losses were observed, the coating is deemed not to be detrimental for PV applications. Proper assessment of the usefulness requires investigations of the anti-soiling properties, for example, through test installations in regions with high soiling rates.

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户外光伏应用中二氧化钛防污涂层的光传输损耗

根据位置不同，污染可能是光伏(PV)装置面临的主要挑战，因为它会减少传输并导致重大损失。防污涂层已被证明可以减少污染损失，从而增加光伏发电。本文研究了Photocat以“ShineOn”为名开发的二氧化钛基防污涂层在光伏装置上的适用性。检查的主要参数是光传输损耗，因为这直接转化为无污染操作期间的性能损失。透射率的测量使用室内实验室装置和室外光伏装置进行，包括短路电流(Isc)、入射角修正器(IAM)和光谱透射率的测量。调查的样品包括全尺寸模块和包含单个太阳能电池的定制迷你模块。室内和室外测量均显示，传输损耗在0.3%至0.6%之间，对IAM的影响可以忽略不计。此外，观察结果表明，样品应在层压后涂覆，因为在层压前涂覆的样品损失略高。由于ShineOn涂层的传输损耗很小，并且没有观察到额外的角度相关损耗，因此涂层被认为不会对光伏应用造成损害。要正确评估其有效性，需要对其防污性能进行调查，例如，通过在高污染率地区进行试验装置。

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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Journal of Photocatalysis

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