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研究生:楊承憲
研究生(外文):Cheng-Hsien Yang
論文名稱:單晶矽平板太陽電池電路模型與太陽光電系統之個案分析
論文名稱(外文):A Circuit Model Analysis of Planar Single Crystalline Silicon Solar Cell and a Case Study of Energy Conversion of Photovoltaic System
指導教授:林中一林中一引用關係
指導教授(外文):Chung-Yi Lin
口試委員:李敏鴻
口試委員(外文):M. H. Lee
口試日期:2015-06-24
學位類別:碩士
校院名稱:國立中興大學
系所名稱:物理學系所
學門:自然科學學門
學類:物理學類
論文種類:學術論文
論文出版年:2015
畢業學年度:103
語文別:中文
論文頁數:96
中文關鍵詞:平板太陽能電池多出載子電流密度光伏效應太陽能光電發電系統日照量
外文關鍵詞:planar solar cellsexcess carrier current densityphotovoltaic effectsphotovoltaic systemamount of insolation
相關次數:
  • 被引用被引用:1
  • 點閱點閱:90
  • 評分評分:
  • 下載下載:10
  • 收藏至我的研究室書目清單書目收藏:0
本論文執行了兩個太陽能電池相關的理論研究。(1)單晶矽平板太陽能電池。我們得出系統中之多出載子電流密度的緊緻解,並用之分析太陽能電池之特性與效率。(2)太陽能光電系統能量轉換之個案分析。透過新竹縣新湖國中之 3.6 kWp太陽光電系統之記錄數據,分析了日照量與發電量的關係。並且探討了實際發電量與估算發電量不同的因素而找出太陽能板最佳安裝位置,使太陽能電池達到其最優化發電效率。

In this thesis we theoretically study two subjects concerning solar cell. (1) The planar single crystal silicon solar cell. Compact form solutions of the excess carrier current densities of the system are obtained for analysis of the characteristics and efficiency of the device. (2) A case study of energy conversion of photovoltaic system via the 3.6 kWp photovoltaic system established in the Hsin Hu Junior High School in Hsin-Chu county. The relationship between the amount of insolation and the electric generating power of the photovoltaic system is analyzed. The affecting factors to the difference of the estimated and actual generating power are studied for finding the best installation location of the system that optimize the solar cell efficiency.

誌謝詞 --------------------------------------------------------------------------- Ⅰ
中文摘要 --------------------------------------------------------------------------- Ⅱ
英文摘要 --------------------------------------------------------------------------- Ⅲ
目錄 --------------------------------------------------------------------------- Ⅳ
圖目錄 --------------------------------------------------------------------------- Ⅵ
表目錄 --------------------------------------------------------------------------- Ⅸ
第一章 序論--------------------------------------------------------------------- -1-
1.1 太陽電池的未來發展------------------------------------------ -1-
1.2 太陽電池的發展歷史------------------------------------------ -4-
1.3 太陽電池的技術與分類--------------------------------------- -5-
1.4 研究動機---------------------------------------------------------- -17-
第二章 太陽電池電路模型--------------------------------------------------- -18-
2.1 前言---------------------------------------------------------------- -18-
2.2 太陽光的頻譜---------------------------------------------------- -18-
2.3 電路模型---------------------------------------------------------- -22-
2.4 寄生電阻的影響------------------------------------------------- -26-
2.5 溫度的影響------------------------------------------------------- -27-
2.6 太陽電池效能與應用------------------------------------------ -29-
第三章 平面太陽電池之精簡模型公式推導------------------------------ -31-
3.1 前言--------------------------------------------------------------- -31-
3.2 電極端點特性n型中性區(- - )少數載子
濃度分布方程式------------------------------------------------

-32-
3.3 n型半導體中性區(- )少數載子擴散電流
密度-------------------------------------------------------------

-41-
3.4 n型半導體端中性區與空乏區交界 = 的少數
載子濃度---------------------------------------------------------

-42-
3.5電極端點特性p型中性區( )少數載子濃
度分布方程式---------------------------------------------------

-43-
3.6 p型半導體中性區(- )少數載子擴散電
流密度------------------------------------------------------------

-43-
3.7 p型半導體端中性區與空乏區交界 = p 的少數載子濃度---------------------------------------------------------------------
-44-
3.8太陽電池特性與效率-------------------------------------------- -48-
3.9生命期與表面復合效應----------------------------------------- -56-
第四章 太陽光電系統個案分析--------------------------------------------- -61-
4.1 PV system效能評估方法-------------------------------------- -61-
4.2研究個案選定---------------------------------------------------- -61-
4.3研究方法說明---------------------------------------------------- -61-
4.4實測案例太陽能發電系統基本資料------------------------- -65-
4.5氣象資料與實際發電效能比較------------------------------- -70-
4.6新湖國中太陽光電系統發電實測結果---------------------- -80-
第五章 結論與未來展望------------------------------------------------------ -83-
5.1結論---------------------------------------------------------------- -83-
5.2太陽能發電系統未來發展------------------------------------- -84-
參考資料 --------------------------------------------------------------------------- -88-


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