臺灣博碩士論文加值系統

本論文研究阿基米德立體結合菲涅爾透鏡原理，提升太陽能電池轉換效能；透過太陽能板材質探討、透鏡種類實驗比較、聚焦距離分析及照射角度等，設計提升太陽能板發電功率之應用。
研究主題針對目前使用較廣泛之單晶矽太陽能電池為研究基材，並比較多晶矽太陽能電池效率與單晶矽太陽能電池效率差異；研究實驗過程加入日常使用之玻璃透鏡、單片式菲涅爾透鏡、單片陣列式菲涅爾透鏡以及自製立體型菲涅爾透鏡等進行樣本實驗，透過不同透鏡排列組合方式，尋求改善太陽能發電功率之最佳條件。
以自行研製之多功能庭園燈來進行硬體實驗，並尋求探討太陽光電能轉換的最佳化，期未來能將此設計原理實際應用於日常生活，進而提升推廣層面，同時取得實驗數據加以分析，研究太陽能板轉換效能之經濟效益。

This thesis is to study how to promote the conversion efficiency of solar cells by integrating Archimedean solids with Fresnel lens. We have investigated the material of solar panels, compared the lens types, analyzed the focus distance and attempted different angles to find the best power generation performance of solar panels.
This research focused on the commonly-used monocrystalline silicon solar cells and compared the performance difference between monocrystalline silicon solar cells and polycrystalline silicon solar cells. We experimented various lens combinations, including the daily-used glass lens, the single Fresnel lens, the array of single Fresnel lenses and the self-made 3D Fresnel lens, to find the optimal conditions for solar power generation.
The experiment was conducted on the self-made multi-function garden lamps to find the optimal solar power conversion. We expect that this design principle will be applied in the daily life and popularized in many areas. Meanwhile, the future applications will result in more experimental data for us to study the economic benefits of solar power conversion performance.

中文摘要 i
Abstract ii
誌謝 iii
目 錄 iv
表目錄 vi
圖目錄 vii
第一章 緒 論 1
1-1背景介紹 1
1-2 研究動機 2
第二章 菲涅爾透鏡技術原理與阿基米德立體選用 3
2-1菲涅爾透鏡技術原理 3
2-2 阿基米德立體選用 7
第三章 太陽能光電池之探討介紹 10
3-1單晶矽太陽能電池（a-Silicon）: 10
3-2多晶矽太陽能光電池（Poly-Silicon）: 11
3-3非晶矽太陽能電池（Amorphous silicon）: 12
第四章 多種類透鏡結合太陽能板數據取得與分析 14
4-1-1第一階段實驗之1-尋找最理想之太陽光電板與聚光透鏡整理 17
4-1-2第一階段實驗之2-量測數據之統計分析 21
4-2-1第二階段實驗之1-菲涅爾透鏡結合阿基米德理論 23
4-2-2第二階段實驗之2-菲涅爾透鏡設計與實驗數據分析 25
4-3-1第三階段實驗之1-能源綜合應用之作品設計概念 37
4-3-2第三階段實驗之2-能源綜合應用之元件規格介紹 40
4-3-3第三階段實驗之3-能源綜合應用之實作成品介紹 44
4-3-4第三階段實驗之4-能源綜合之實測驗證 46
第五章 太陽能電池效率極佳化探討 48
5-1-1第一階段實驗之1-太陽能板最理想置入角度與高功率轉換探討 50
5-1-2第一階段實驗之2-太陽能板楔形模型實際測試與數據紀錄分析 52
5-2第二階段實驗-太陽能光電板結合菲涅爾球體作品製作說明 54
第六章 結論與未來發展 58
參考文獻 59

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