2014-02-082024-05-17https://scholars.lib.ntu.edu.tw/handle/123456789/671934摘要：將太陽能發電裝置設置於池塘、湖泊、水庫甚至海洋等水面上具有避免土地使用短缺問題,較佳的發電效率及避免人為破壞的優點。然而要將發電機組置於水面上，需面對浮動平台設計及其錨泊系統等技術性問題。本計畫旨在協助設計合適的浮動平台並且提出適用之錨泊方式來固定浮動平台。浮動平台設計需考慮具有足夠的承載穩定性、強韌性，可模組化、具有擴充性，避免過度阻隔水與空氣，造成溶氧不足等生態影響，平台材質避免有化學汙染物質。而錨泊方式可測試岸邊繫纜、底碇式繫纜及結合前述兩種方式。本計畫將彙整與評估國內、外業界及學術界之研發現況，協助完成浮動平台製作，測試適當的錨泊方式，進行浮動平台觀察，及相關數據的量測與分析，包含一般及極端環境下(如颱風)對浮動平台的影響。<br> Abstract: The advantages of PV system installed on the floating platform in the pond, lake, reservoir, and even ocean are to avoid the issue of land shortage and artificial damage and to improve the efficiency of power generation. Therefore, the issues of the floating platform design and the mooring technology are raised. The goal of this proposal seeks to assist to design the suitable floating platform and propose feasible anchorage methods. The stability, durability, modularity and expansibility of the platform are evaluated and the interruption to the dissolve of oxygen and pollution to the water should be avoided. The PV system will be tested to be anchored on the land via the cable and anchored at the bottom of the water with weights, and the combination of the above two methods. We will integrate the previous literatures and new findings and assist to design the floating platform. The mooring methods will be tested and investigated under general circumstances and extreme condition, e.g. typhoon event.太陽能發電裝錨泊PV systemmooring