Study of thermal losses in bifacial solar cells due to various spectral albedoes

2021 IEEE 48th Photovoltaic Specialists Conference (PVSC) Pub Date : 2021-06-20 DOI:10.1109/PVSC43889.2021.9518817
A. A. Baloch, Omar Albadwawi, J. John, S. Bhattacharya, V. Alberts
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Abstract

An optics-based thermal model was developed to assess the spectral heating and thermal losses in industrial standard solar cells due to albedo. On average, bifacial silicon-heterojunction (B-SHJ) showed a power gain of 26.5% relative to monofacial heterojunction (M-SHJ) and 56.7% relative to monofacial BSF cells considered. However, heat content in B-SHJ was also found to be highest for all spectral albedos, i.e. thermal gain was 14% relative to monofacial-BSF and 4% more relative to M-SHJ. The results demonstrated that thermal losses in bifacial solar cells has a strong dependence on spectral albedo and should therefore be considered for accurate energy yield analysis.
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不同光谱反照率下双面太阳能电池热损失的研究
建立了一个基于光学的热模型来评估工业标准太阳能电池中由于反照率引起的光谱加热和热损失。平均而言,双面硅异质结(B-SHJ)相对于单面硅异质结(M-SHJ)的功率增益为26.5%,相对于单面硅异质结(M-SHJ)的功率增益为56.7%。然而,B-SHJ的热含量也被发现是所有光谱反照率最高的,即相对于单面bsf的热增益为14%,相对于M-SHJ的热增益为4%。结果表明,双面太阳能电池的热损失与光谱反照率有很强的依赖性,因此应该考虑到准确的能量产率分析。
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2021 IEEE 48th Photovoltaic Specialists Conference (PVSC)
2021 IEEE 48th Photovoltaic Specialists Conference (PVSC)
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