Investigation on the thermal effects of BIPV constructions
碩士 === 立德大學 === 資源環境研究所 === 95 === Abstract People nowadays use solar electricity energy to exploit new energy, which will be widely used in the future. Another big success is that building integrated photovoltaic (BIPV) modules has become a symbol of high-tech architecture and an option of building...
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ndltd-TW-095LU0057590502016-04-25T04:29:11Z http://ndltd.ncl.edu.tw/handle/41652218746653504043 Investigation on the thermal effects of BIPV constructions 外氣對BIPV熱效應影響之觀測 Yu-sian Chen 陳育賢 碩士 立德大學 資源環境研究所 95 Abstract People nowadays use solar electricity energy to exploit new energy, which will be widely used in the future. Another big success is that building integrated photovoltaic (BIPV) modules has become a symbol of high-tech architecture and an option of building energy conservation from the solar electricity, in order to provide the electric for people. However, solar electricity is affected by the heat from the outside temperature easily in Taiwan; therefore, Solar panel temperature increase due to BIPV solar radiation, which will decrease the efficiency. Moreover, Taiwan is at the subtropical zone area; there are always enough sun light, especially the south area of Taiwan; on the other hand, decreasing the heat to BIPV is needed in order to build the architecture with BIPV. The main purpose for this research is to exanimate the effects to BIPV by using different materials of glasses with build in BIPV for the outdoor environment, and then to find out and to observe the most adaptive architecture by the material of glasses. Cheng-Dar Yue none 余政達 賴啟銘 2007 學位論文 ; thesis 67 zh-TW |
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碩士 === 立德大學 === 資源環境研究所 === 95 === Abstract
People nowadays use solar electricity energy to exploit new energy,
which will be widely used in the future. Another big success is that building
integrated photovoltaic (BIPV) modules has become a symbol of high-tech
architecture and an option of building energy conservation from the solar
electricity, in order to provide the electric for people.
However, solar electricity is affected by the heat from the outside
temperature easily in Taiwan; therefore, Solar panel temperature increase due
to BIPV solar radiation, which will decrease the efficiency. Moreover, Taiwan
is at the subtropical zone area; there are always enough sun light, especially
the south area of Taiwan; on the other hand, decreasing the heat to BIPV is
needed in order to build the architecture with BIPV. The main purpose for this
research is to exanimate the effects to BIPV by using different materials of
glasses with build in BIPV for the outdoor environment, and then to find out
and to observe the most adaptive architecture by the material of glasses.
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author2 |
Cheng-Dar Yue |
author_facet |
Cheng-Dar Yue Yu-sian Chen 陳育賢 |
author |
Yu-sian Chen 陳育賢 |
spellingShingle |
Yu-sian Chen 陳育賢 Investigation on the thermal effects of BIPV constructions |
author_sort |
Yu-sian Chen |
title |
Investigation on the thermal effects of BIPV constructions |
title_short |
Investigation on the thermal effects of BIPV constructions |
title_full |
Investigation on the thermal effects of BIPV constructions |
title_fullStr |
Investigation on the thermal effects of BIPV constructions |
title_full_unstemmed |
Investigation on the thermal effects of BIPV constructions |
title_sort |
investigation on the thermal effects of bipv constructions |
publishDate |
2007 |
url |
http://ndltd.ncl.edu.tw/handle/41652218746653504043 |
work_keys_str_mv |
AT yusianchen investigationonthethermaleffectsofbipvconstructions AT chényùxián investigationonthethermaleffectsofbipvconstructions AT yusianchen wàiqìduìbipvrèxiàoyīngyǐngxiǎngzhīguāncè AT chényùxián wàiqìduìbipvrèxiàoyīngyǐngxiǎngzhīguāncè |
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1718233025769111552 |