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In order to achieve maximum power output, common PV modules will deliberately make a certain angle, but still some light will be reflected from the surface of the common PV modules into the air and waste. This paper presents a reflective plate structure having efficient black silicon solar modules, and multi-angle light-absorbing black silicon components to construct a reflective plate structure that can take advantage of the reflected light. The angle between the reflectors and black silicon component was simulated in this paper, which shows that when the assembly angle of PV module is 34°, the optimum angle of the reflective plate is 16.5°, in this case, the battery’s power generation is increased by about 39% under the same illumination conditions.
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Keywords:
- simulation of reflection plate angles /
- black silicon /
- solar cells
[1] Liu J, Liu B W, Xia Y, Li C B, Liu S 2012 Acta Phys. Sin. 61 148102 (in Chinese) [刘杰, 刘邦武, 夏洋, 李超波, 刘肃 2012 61 148102]
[2] Qin H, Lei C X, Liu H F, Ge S S 2013 Acta Phys. Sin. 62 255049 (in Chinese) [秦华, 类成新, 刘汉法, 葛硕硕 2013 62 255049]
[3] Shen Z N, Liu B W, Xia Y, Liu J, Li C B, Chen B 2011 Research & Procress of SSE 31 387 (in Chinese) [沈泽南, 刘邦武, 夏洋, 刘杰, 李超波, 陈波 2011 固体电子学研究与进展 31 387]
[4] Shao C J, He J, Liu B W, Xia Y, Li C B 2012 Chinese Journal of Luminescence 33 1357 (in Chinese) [邵长金, 何静, 刘邦武, 夏洋, 李超波 2012 发光学报 33 1357]
[5] Huang J G, Yi Z, Meng L F, Zhao H, Liu Y N 2013 Acta Phys. Sin. 62 099401 (in Chinese) [黄建国, 易忠, 孟立飞, 赵华, 刘业楠 2013 62 099401]
[6] Shen Z N, Liu B W, Xia Y, Liu J, Liu J H, Zhong S H, Li C B 2013 Scripta Materialia 68 199 (in Chinese) [沈泽南, 刘邦武, 夏洋, 刘杰, 刘金虎, 钟思华, 李超波 2013 材料快报 68 199]
[7] Chen W, Shen H 2006 Battery Bimonthly 36 67 (in Chinese) [陈维, 沈辉 2006 电池 36 67]
[8] Huang G H, Shi Y C, Yang H 2004 Acta Energic Sol Cassini 25 785 (in Chinese) [黄国华, 施玉川, 杨宏 2004 太阳能学报 25 785]
[9] Fang J, Chen C S, Wang F, Liu S H 2011 Chin. Phys. B 20 074202
[10] Xiong C, Yao R H, Geng K W 2011 Chin. Phys. B 20 057302
[11] Li H, Li W, Du J J, Wu A M, Qiu C, Sheng Z, Wang X, Zou S C, Gan F W 2013 Chin. Phys. B 22 117807
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[1] Liu J, Liu B W, Xia Y, Li C B, Liu S 2012 Acta Phys. Sin. 61 148102 (in Chinese) [刘杰, 刘邦武, 夏洋, 李超波, 刘肃 2012 61 148102]
[2] Qin H, Lei C X, Liu H F, Ge S S 2013 Acta Phys. Sin. 62 255049 (in Chinese) [秦华, 类成新, 刘汉法, 葛硕硕 2013 62 255049]
[3] Shen Z N, Liu B W, Xia Y, Liu J, Li C B, Chen B 2011 Research & Procress of SSE 31 387 (in Chinese) [沈泽南, 刘邦武, 夏洋, 刘杰, 李超波, 陈波 2011 固体电子学研究与进展 31 387]
[4] Shao C J, He J, Liu B W, Xia Y, Li C B 2012 Chinese Journal of Luminescence 33 1357 (in Chinese) [邵长金, 何静, 刘邦武, 夏洋, 李超波 2012 发光学报 33 1357]
[5] Huang J G, Yi Z, Meng L F, Zhao H, Liu Y N 2013 Acta Phys. Sin. 62 099401 (in Chinese) [黄建国, 易忠, 孟立飞, 赵华, 刘业楠 2013 62 099401]
[6] Shen Z N, Liu B W, Xia Y, Liu J, Liu J H, Zhong S H, Li C B 2013 Scripta Materialia 68 199 (in Chinese) [沈泽南, 刘邦武, 夏洋, 刘杰, 刘金虎, 钟思华, 李超波 2013 材料快报 68 199]
[7] Chen W, Shen H 2006 Battery Bimonthly 36 67 (in Chinese) [陈维, 沈辉 2006 电池 36 67]
[8] Huang G H, Shi Y C, Yang H 2004 Acta Energic Sol Cassini 25 785 (in Chinese) [黄国华, 施玉川, 杨宏 2004 太阳能学报 25 785]
[9] Fang J, Chen C S, Wang F, Liu S H 2011 Chin. Phys. B 20 074202
[10] Xiong C, Yao R H, Geng K W 2011 Chin. Phys. B 20 057302
[11] Li H, Li W, Du J J, Wu A M, Qiu C, Sheng Z, Wang X, Zou S C, Gan F W 2013 Chin. Phys. B 22 117807
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