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研究生: 邱冠期
Kuan-Chi Chiu
論文名稱: 太陽能發電監測系統建置與模組清洗計畫
Developing of the PV Solar Monitoring System and Cleaning Program
指導教授: 鄭瑞光
Ray-Guang Cheng
口試委員: 許獻聰
Shiann-Tsong Sheu
呂政修
Jenq-Shiou Leu
陳仁暉
Jen-Hui Chen
學位類別: 碩士
Master
系所名稱: 電資學院 - 電子工程系
Department of Electronic and Computer Engineering
論文出版年: 2018
畢業學年度: 106
語文別: 中文
論文頁數: 46
中文關鍵詞: 太陽光電灰塵遮陰日射校正模組清洗
外文關鍵詞: Photovoltaic, dust shading, correction of irradiation, module cleaning
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  •  上一筆

    • 現今國家如此缺電的危機下,政府也積極推廣清潔能源,而建立一套穩定且彈性的監測系統是非常重要的,每一個電廠設備眾多,當設備老舊、設備故障、環境因素等,導致電廠發電量愈來越低,透過建立系統平台隨時掌握每個電廠發電量,而本論文透過分析灰塵遮陰對發電量影響來設計模組最佳清洗次數,提升發電效率與整體發電收益。

    Under the current crisis of power shortage in our country, the government is also eager to promote the clean energy. It is very important to develop a stable and flexible mon-itoring system. There are many equipment in each solar station, and the old equipment, faulty equipment or some environmental factor will cause the power generation of so-lar station getting lower and lower. We can get the power generation in each solar sta-tion through the system platform to know the alert reason and the time of occurrence. This paper implement the best module cleaning program base on analysis of short-term and long-term effect that influence the power generation loss. And finally it’s can im-prove the power generation efficiency and economic benefit.

    論文摘要 2 Abstract 3 目錄 4 圖目錄 6 表目錄 8 1 緒論 9 1.1. 研究動機與目的 9 1.2. 背景知識 9 1.2.1. 太陽光電系統介紹 9 1.2.2. 太陽能發電影響要素 11 1.2.3. 太陽輻射和模組的角度與方位名詞解釋 14 1.3. 章節提要 16 2 發電監測系統建置 16 2.1. 系統設計 16 2.2. 建置流程 18 2.2.1. 軟體設備 18 2.2.2. 建立伺服器與佈署Docker環境 20 2.2.3. 資料收集器與平台系統溝通 21 2.2.4. 系統規格標準化 21 2.2.5. 報表運算分析 21 2.2.6. 資料視覺化呈現 23 3 數據處理與清洗計畫設計 24 3.1. 資料集介紹 24 3.2. 韌體異常數據排除 25 3.3. 日射值校正 28 3.4. 發電數據分類 32 3.5. 異常日射值替代方案 34 3.6. 清洗計畫設計 37 3.6.1. 移除異常數據 37 3.6.2. 模組溫度校正 38 3.6.3. 曲線擬合 40 3.6.4. 最佳清洗次數 41 4 設計結果與驗證 41 4.1. 設計結果 41 4.2. 結果驗證 42 5 結論與未來展望 45 參考文獻 46

    [1] 經濟部能源局「陽光屋頂百萬座計畫」, https://www.moeaboe.gov.tw
    [2] EnergyTrend綠能資訊網, https://www.energytrend.com.tw/
    [3] Solartech SEC-6P-60-3BB Multi-Crystalline Photovoltaic Modules Product catalog
    [4] Dirk C. Jordan and Sarah R. Kurtz, "Photovoltaic degradation rates — an analytical review", Jun. 2012, pp. 5-6
    [5] N. Chaintreuil, F. Barruel, X. Le Pivert, H. Buttin, J. Merten, "Effects of shadow on a grid connected pv system", Sept. 2012, pp. 12-13
    [6] Chung-Huang Shen, "The effects of the solar module installing angles on the output power ", Jan.2005, pp. 17-18
    [7] Central Weather Bureau交通部中央氣象局, https://www.cwb.gov.tw
    [8] Cooper, P. I., "The absorption of radiation in solar stills, solar energy", Jun.1969, pp.333-346
    [9] Shun-ching Lee, Ying-feng Chiu, Jin-yi Tong, Zhi-hao Peng, "Characteristic Analysis for Photovoltaic Lighting Systemin Kaohsiung", Jun.2012, pp.80-82
    [10] Mongo database, https://docs.mongodb.com/
    [11] Restful API, https://en.wikipedia.org/wiki/Representational_state_transfer
    [12] Golang, https://zh.wikipedia.org/wiki/Go
    [13] Docker, https://www.docker.com/
    [14] Wu Ming-Chung, "Probabilistic Modeling of Solar Radiation and Optimal Design of Solar Power Systems", Jun. 2002, pp. 12-13
    [15] Jaime W. Zapata, Marcelo A. Perez, Samir Kouro, " Design of a cleaning program for a PV plant based on the analysis of short-term and long-term effects", Nov. 2015, p. 3
    [16] Jaime W. Zapata, Marcelo A. Perez, "Design of a Cleaning Program for a PV Plant Based on Analysis of Energy Losses", Dec. 2015, p. 4

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