A study on Characterization and Encapsulation Techniques of Photovoltaic Modules

A study on Characterization and Encapsulation Techniques of Photovoltaic Modules

碩士 === 南台科技大學 === 機械工程系 === 94 === The object of this project is to set up the research capability of our laboratory about characterization techniques on solar cells so that the advantages and disadvantages of different parameters on lamination procedures can be evaluated. Furthermore, basic encapsu...

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Main Authors: HSIUNG-SHENG HUANG, 黃雄聖
Other Authors: 林克默
Format: Others
Language:zh-TW
Published: 2006
Online Access:http://ndltd.ncl.edu.tw/handle/89353414333181334525
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spelling ndltd-TW-094STUT04890932016-11-22T04:12:02Z http://ndltd.ncl.edu.tw/handle/89353414333181334525 A study on Characterization and Encapsulation Techniques of Photovoltaic Modules 太陽光電模組封裝與檢測技術之探討 HSIUNG-SHENG HUANG 黃雄聖 碩士 南台科技大學 機械工程系 94 The object of this project is to set up the research capability of our laboratory about characterization techniques on solar cells so that the advantages and disadvantages of different parameters on lamination procedures can be evaluated. Furthermore, basic encapsulation steps for photovoltaic modules with a laminator can be established so that the requirements of encapsulating small amount of photovoltaic modules can be met. Experimentally, we used an environment testing equipment to estimate the encapsulation quality and discussed the influences of different parameters (temperature, duration) and aging effects of encapsulation materials on inner resistance of photovoltaic modules. Experiments showed that the best results on PC/EVA/solar cell/EVA/glass faber structure were achieved under 155°C curing temperature and 30 minutes curing time. 林克默 2006 學位論文 ; thesis 53 zh-TW
collection NDLTD
language zh-TW
format Others
sources NDLTD
description 碩士 === 南台科技大學 === 機械工程系 === 94 === The object of this project is to set up the research capability of our laboratory about characterization techniques on solar cells so that the advantages and disadvantages of different parameters on lamination procedures can be evaluated. Furthermore, basic encapsulation steps for photovoltaic modules with a laminator can be established so that the requirements of encapsulating small amount of photovoltaic modules can be met. Experimentally, we used an environment testing equipment to estimate the encapsulation quality and discussed the influences of different parameters (temperature, duration) and aging effects of encapsulation materials on inner resistance of photovoltaic modules. Experiments showed that the best results on PC/EVA/solar cell/EVA/glass faber structure were achieved under 155°C curing temperature and 30 minutes curing time.
author2 林克默
author_facet 林克默
HSIUNG-SHENG HUANG
黃雄聖
author HSIUNG-SHENG HUANG
黃雄聖
spellingShingle HSIUNG-SHENG HUANG
黃雄聖
A study on Characterization and Encapsulation Techniques of Photovoltaic Modules
author_sort HSIUNG-SHENG HUANG
title A study on Characterization and Encapsulation Techniques of Photovoltaic Modules
title_short A study on Characterization and Encapsulation Techniques of Photovoltaic Modules
title_full A study on Characterization and Encapsulation Techniques of Photovoltaic Modules
title_fullStr A study on Characterization and Encapsulation Techniques of Photovoltaic Modules
title_full_unstemmed A study on Characterization and Encapsulation Techniques of Photovoltaic Modules
title_sort study on characterization and encapsulation techniques of photovoltaic modules
publishDate 2006
url http://ndltd.ncl.edu.tw/handle/89353414333181334525
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