本論文研究旨在針對國立中央大學探討校園建築屋頂型太陽光電發電設備之探討效益評估。研究方法採用以實測資料與簡易理論計算等方法針對單晶矽太陽能發電系統個案,分析氣候因子-日照量及溫度對其太陽光電發電設備發電效能包括發電量、逆變器轉換效率、峰瓦值等主題項目之影響。在簡易理論計算方面,探討各月份對單晶矽太陽光電發電設備個案之模擬發電量之影響。 接著分析個案太陽光電發電設備2018年12月至2019年3月實際發電量,作為未來欲建置該發電設備之參考依據,並針對太陽光電發電設備之發電預估收入及其對模型驗證作分析。結果顯示從實測數據資料發現,發電量與日照量有明顯的正比關係。 根據4個月實測資料結果,大型力學實驗室(A樓)比室內游泳池(B樓)整體效益更佳,A樓勝出。 機關可藉由專案特性及組織本身之特性評估採用選取建物之決策,此模型即可做為機關進行選取建物決策時評估之參考。 ;The purpose of this thesis is to discuss the feasibility evaluation of rooftop photovoltaic (PV) system on the campus building for National Central University in Taiwan. The research utilizes the real-measured data and simplified theoretical calculations to analyze the effect of climatic factors-solar irradiation and temperature to the PV systems, including the effect of power generation, inverter conversion efficiency, and peak wattage. In terms of simplified theoretical calculations, the discrepancies of each month on the mono-crystalline PV system is discussed. Then the research analyze actual power generation of PV system from December 2018 to March 2019. The results can be used as the reference basis for future construction of PV projects by assisting analyzation of equipment selection and income estimation. The results show that from the measured data, there is a significant proportional relationship between the amount of electricity generated and the amount of solar irradiation. Based on the results of 4 months of measured data, Experimental Center of Civil Engineering (ECCE) (A building) has better overall power generation efficiency than the indoor swimming pool (B building). The A building wins. This model can be utilized as a reference for the organizations to make decision when selecting objects for construction.
