Integration of Renewable Energy Technology in house
碩士 === 國立勤益科技大學 === 冷凍空調系 === 100 === Energy consumption requirements have promoted the development of renewable energy. This study developed an indoor personal office system using a 1KW solar energy cell with a 500W proton exchange membrane fuel cell as the power source. The office system consists...
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ndltd-TW-100NCIT57030202016-03-28T04:19:55Z http://ndltd.ncl.edu.tw/handle/76573384682704778706 Integration of Renewable Energy Technology in house 整合可再生能源技術於建築節能之應用 Jhih-Syun Yao 姚志勳 碩士 國立勤益科技大學 冷凍空調系 100 Energy consumption requirements have promoted the development of renewable energy. This study developed an indoor personal office system using a 1KW solar energy cell with a 500W proton exchange membrane fuel cell as the power source. The office system consists of a fan, LED table lamp, desktop PC, LCD monitor, printer and audio device. If the office’s power system runs continuously for 24 hours, it can generate approximately 12 kWh of electricity and reduce 7.656 kg of carbon dioxide emission. If it runs continuously for 1 year, it can generate approximately 4,320 kWh of electricity and reduce 2,756.16 kg of carbon dioxide emission. The system itself does not carry electricity and the solar energy provides energy to the hydrogen generator to generate hydrogen. A process by which the renewable hydrogen is used as the power generation fuel for the proton exchange membrane fuel cell and the power is then supplied through the power conversion system. As it uses solar energy, the daily capacity of electricity generation is limited. Hence in this study, the relationship between climate and capacity of electricity generation is explored to assess the feasibility of this system. Yean-Der kuan 管衍德 2012 學位論文 ; thesis 81 zh-TW |
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碩士 === 國立勤益科技大學 === 冷凍空調系 === 100 === Energy consumption requirements have promoted the development of renewable energy. This study developed an indoor personal office system using a 1KW solar energy cell with a 500W proton exchange membrane fuel cell as the power source. The office system consists of a fan, LED table lamp, desktop PC, LCD monitor, printer and audio device.
If the office’s power system runs continuously for 24 hours, it can generate approximately 12 kWh of electricity and reduce 7.656 kg of carbon dioxide emission. If it runs continuously for 1 year, it can generate approximately 4,320 kWh of electricity and reduce 2,756.16 kg of carbon dioxide emission. The system itself does not carry electricity and the solar energy provides energy to the hydrogen generator to generate hydrogen. A process by which the renewable hydrogen is used as the power generation fuel for the proton exchange membrane fuel cell and the power is then supplied through the power conversion system. As it uses solar energy, the daily capacity of electricity generation is limited. Hence in this study, the relationship between climate and capacity of electricity generation is explored to assess the feasibility of this system.
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Yean-Der kuan |
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Yean-Der kuan Jhih-Syun Yao 姚志勳 |
author |
Jhih-Syun Yao 姚志勳 |
spellingShingle |
Jhih-Syun Yao 姚志勳 Integration of Renewable Energy Technology in house |
author_sort |
Jhih-Syun Yao |
title |
Integration of Renewable Energy Technology in house |
title_short |
Integration of Renewable Energy Technology in house |
title_full |
Integration of Renewable Energy Technology in house |
title_fullStr |
Integration of Renewable Energy Technology in house |
title_full_unstemmed |
Integration of Renewable Energy Technology in house |
title_sort |
integration of renewable energy technology in house |
publishDate |
2012 |
url |
http://ndltd.ncl.edu.tw/handle/76573384682704778706 |
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