Analysis of Power Loss for Crystalline Silicon Solar Module during the Course of Encapsulation

Analysis of Power Loss for Crystalline Silicon Solar Module during the Course of Encapsulation

During the course of solar module encapsulation, the output power of crystalline silicon solar module is less than the sum of the maximum output power of the constituents because of power loss. So it is very important to investigate the power loss caused by encapsulation materials and module product...

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Main Authors: Hong Yang, He Wang, Dingyue Cao, Dangmin Sun, Xiaobao Ju
Format: Article
Language:English
Published: Hindawi Limited 2015-01-01
Series:International Journal of Photoenergy
Online Access:http://dx.doi.org/10.1155/2015/251615
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spelling doaj-d8af85aad7934864997bc5c8927db9b72020-11-24T23:31:16ZengHindawi LimitedInternational Journal of Photoenergy1110-662X1687-529X2015-01-01201510.1155/2015/251615251615Analysis of Power Loss for Crystalline Silicon Solar Module during the Course of EncapsulationHong Yang0He Wang1Dingyue Cao2Dangmin Sun3Xiaobao Ju4Institute of Solar Energy, Xi’an Jiaotong University, Xi’an 710049, ChinaInstitute of Solar Energy, Xi’an Jiaotong University, Xi’an 710049, ChinaInstitute of Solar Energy, Xi’an Jiaotong University, Xi’an 710049, ChinaXi’an Huanghe Photovoltaic Technology Co., Ltd., Xi’an 710065, ChinaXi’an Huanghe Photovoltaic Technology Co., Ltd., Xi’an 710065, ChinaDuring the course of solar module encapsulation, the output power of crystalline silicon solar module is less than the sum of the maximum output power of the constituents because of power loss. So it is very important to investigate the power loss caused by encapsulation materials and module production process. In this paper, the power loss of crystalline silicon solar module is investigated by experiments systematically for the first time. It is found that the power loss is mainly caused by the resistance of ribbon and mismatch of solar cells; the total power loss is as high as 3.93% for solar module composed of 72 cells (125 mm × 125 mm) connected in series. Analyzing and reducing the power losses are beneficial to optimizing encapsulation process for the solar module. The results presented in this study give out a direction to decreasing power loss and optimizing encapsulation process of crystalline silicon solar module.http://dx.doi.org/10.1155/2015/251615
collection DOAJ
language English
format Article
sources DOAJ
author Hong Yang
He Wang
Dingyue Cao
Dangmin Sun
Xiaobao Ju
spellingShingle Hong Yang
He Wang
Dingyue Cao
Dangmin Sun
Xiaobao Ju
Analysis of Power Loss for Crystalline Silicon Solar Module during the Course of Encapsulation
International Journal of Photoenergy
author_facet Hong Yang
He Wang
Dingyue Cao
Dangmin Sun
Xiaobao Ju
author_sort Hong Yang
title Analysis of Power Loss for Crystalline Silicon Solar Module during the Course of Encapsulation
title_short Analysis of Power Loss for Crystalline Silicon Solar Module during the Course of Encapsulation
title_full Analysis of Power Loss for Crystalline Silicon Solar Module during the Course of Encapsulation
title_fullStr Analysis of Power Loss for Crystalline Silicon Solar Module during the Course of Encapsulation
title_full_unstemmed Analysis of Power Loss for Crystalline Silicon Solar Module during the Course of Encapsulation
title_sort analysis of power loss for crystalline silicon solar module during the course of encapsulation
publisher Hindawi Limited
series International Journal of Photoenergy
issn 1110-662X
1687-529X
publishDate 2015-01-01
description During the course of solar module encapsulation, the output power of crystalline silicon solar module is less than the sum of the maximum output power of the constituents because of power loss. So it is very important to investigate the power loss caused by encapsulation materials and module production process. In this paper, the power loss of crystalline silicon solar module is investigated by experiments systematically for the first time. It is found that the power loss is mainly caused by the resistance of ribbon and mismatch of solar cells; the total power loss is as high as 3.93% for solar module composed of 72 cells (125 mm × 125 mm) connected in series. Analyzing and reducing the power losses are beneficial to optimizing encapsulation process for the solar module. The results presented in this study give out a direction to decreasing power loss and optimizing encapsulation process of crystalline silicon solar module.
url http://dx.doi.org/10.1155/2015/251615
work_keys_str_mv AT hongyang analysisofpowerlossforcrystallinesiliconsolarmoduleduringthecourseofencapsulation
AT hewang analysisofpowerlossforcrystallinesiliconsolarmoduleduringthecourseofencapsulation
AT dingyuecao analysisofpowerlossforcrystallinesiliconsolarmoduleduringthecourseofencapsulation
AT dangminsun analysisofpowerlossforcrystallinesiliconsolarmoduleduringthecourseofencapsulation
AT xiaobaoju analysisofpowerlossforcrystallinesiliconsolarmoduleduringthecourseofencapsulation
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