2020-02-072024-05-17https://scholars.lib.ntu.edu.tw/handle/123456789/694725摘要：為發展洋流發電技術，推動自主的海洋再生能源開發，並促進台灣海流發電產業發展，因此建立浮游式黑潮發電渦輪機系統設計與分析等關鍵技術，目標導引產業發展0.5 MW級以上商用示範機組並完成實海域測試驗證，最後以無碳綠島為目標進行數MW乃至於數十MW級小型示範電廠開發規畫及建置作為下一階段落實產業的里程碑。本團隊將接續2019年度之研發成果，繼續於2020年度完成傳動系統、電力後處理系統與控制系統規劃設計與建置，以及10 kW發電渦輪機組整合細部設計、加工與組裝，建置一組10 kW發電渦輪機組，並完成實海域船拖發電測試驗證。<br> Abstract: To develop the technology of generating power from ocean current, this project is aimed to promote ocean renewable energy and improve local industry in Taiwan. Therefore, we establish the critical technology of designing and analyzing a Floating Kuroshio Turbine (FKT) for power generation. The next step is to develop 0.5 MW commercial demonstrative unit and finish sea trial, the final stage is aimed to arrange and deploy MW power plant around Green Island to achieve the prospect of a carbon-free home land. Based on the achievement in 2019, our team is aimed to build a complete 10 kW turbine. In 2020, the research will be focusing on designing and fabricating the transmission system, post electrical processing system and control system. The 10 kW turbine will be studied, constructed and integrated . Finally, the performance of the 10 kW turbine will be demonstrated by offshore sea trial.洋流發電浮游式洋流發電機被動式補償軸封永磁同步發電機FRP葉片Floating Kuroshio TurbineFloating Kuroshio TurbinePassive CompensationShaft Sealpermanent magnet power generatorFRP turbine blades