由於高油價時代的來臨,使得傳統燃煤及燃油等發電方式受到限制,在眾多 的替代性能源中,目前以太陽能光伏發電產業較具有發展優勢;經由評估不同種類的替代能源發展,就系統的經濟面、節能面、維護面及環境友善面等效益考量,其中是以太陽能光伏發電系統的無轉動組件、易操作、低維護及無二氧化碳污染等特點最具有發展潛力。 為了達成太陽能光伏發電系統優化的經濟面、節能面、維護面及環境友善面等高效益考量,本研究將以蒐集已運行的中大型系統之相關資料,主要是分析其建置流程、工程規劃設計、發包施工、監工與驗收、保固與維護,及系統運行狀況等相關資訊與資料,進行系統之規劃、設計、建置方法之研究,以建立方便簡潔和靈活的「管理」系統架構,增強系統整體的可靠性、可維護性及降低技術開發成本,使得能保持系統的擴充性及先進性,期以對整合中大型太陽能光伏發電系統與監控系統技術優化建立和應用實務上有所助益。
High contemporary oil prices have retarded conventional coal-fire and fossil fuel power generation. Compared with numerous alternative energy sources, solar photovoltaic power generation demonstrates developmental advantages. After evaluating various alternative energy sources from the perspectives of economic, energy-saving, maintenance, and environmentally friendly factors, solar photovoltaic power generation systems show the most developmental potential because of its lack of rotational components, ease of operation, little maintenance requirement, and zero carbon dioxide emissions. To optimize solar photovoltaic power generation systems based on the aforementioned perspectives, relevant information regarding medium- and large-scale systems was collected. In this study, the system optimization planning, design, and construction methods were investigated by analyzing relevant information and data such as construction processes, engineering planning and design, construction contracting, supervision and inspection, warranty and maintenance, and system operating conditions. A convenient, simple, and flexible management system was created to enhance the overall reliability and maintainability of the system, reduce the developmental costs of techniques, and retain the expandability and advancement of the system. This study is expected to benefit the construction of medium- and large-scale solar photovoltaic power generation systems, facilitating optimized supervisory control systems and practical applications.