Abstract
Our design is an artificial reef system that combines offshore floating wind power and wave energy to make full use of offshore resources and achieve ecological
conservation goals. In recent years, global offshore renewable energy production has grown rapidly, technological progress and demand for renewable energy have continued to rise, and the expansion of large offshore wind farms has an indirect impact on the marine environment. In order to meet this challenge, our design adopts the artificial fish reef hooked by the mooring system, and sets green energy power generation LED lights inside to attract phototactic fish and provide them with habitats. In this way, we can use wind energy and wave energy at the same time, and achieve the goal of ecological protection by attracting fish schools.
conservation goals. In recent years, global offshore renewable energy production has grown rapidly, technological progress and demand for renewable energy have continued to rise, and the expansion of large offshore wind farms has an indirect impact on the marine environment. In order to meet this challenge, our design adopts the artificial fish reef hooked by the mooring system, and sets green energy power generation LED lights inside to attract phototactic fish and provide them with habitats. In this way, we can use wind energy and wave energy at the same time, and achieve the goal of ecological protection by attracting fish schools.
| Translated title of the contribution | Integrating Green Energy and Artificial Reef Structure Design |
|---|---|
| Original language | Chinese (Traditional) |
| Title of host publication | 第四十四屆中華民國電力工程研討會暨第二十屆台灣電力電子研討會 |
| Place of Publication | 臺北市 |
| Publication status | Published - 2023 Dec 1 |
