(比利時海上風電設施上的附著生物群落,包括藍貽貝、羽狀海葵、海膽、普通海星、藤壺和管蟲)美國弗吉尼亞州第一個海上風電場同樣也已經成為海洋生物的“避風港”貽貝、藻類、鲯鰍、鱸魚、餌魚等圍繞風機結構內外部聚集生存報道引用專家觀點稱“這里的海洋生物變化是巨大的”在對中國臺灣西部南龍風電場的研究中使用回聲測深儀評估魚群聚集效果發現與附近的測風塔和人工魚礁相比海上風電機組的魚群聚集會相對更好(A為人工魚礁;B為測風塔;C為風機#1;D為風機#2,來源:《Journal of Marine Science and Technology》)為保護海洋環境與生物多樣性海上風電相關方正在不斷努力Beleolico海上風電項目是意大利首個海上風電項目同時也是整個地中海地區的首個海上風電項目該風電場的風電機組由明陽智能提供標志著中國企業首次進軍歐洲市場該項目對垃圾廢物實行專人負責制同時配備集油裝置進行廢棄油脂收集避免了風機對于海水的污染此外項目還對風機葉片涂色并安裝驅鳥系統以保護鳥類安全同時,風電機組散熱器采用的雙速電機通過主控高低速切換實現智能調節啟停可降低噪音對周邊環境的影響 海洋將地球染成了藍色海風則為地球提供源源不斷的綠色千年以前人類因海洋風能而不斷探索未知千年以后人類則因海洋風能而繪就更美好未來明陽智能致力于以技術創新更理解、更善用海洋風能矢志不渝推動人與自然和諧共生參考文獻:[1] H. Bruce Franklin, Ocean Winds:Bringing Us Renewable Fish With Renewable Energy,E-The Environmental Magazine,2021[2] WBG,Key Factors for SuccessfulDevelopment of Offshore Wind in Emerging Markets,2021[3] OREAC, The Power of Our Ocean,2020[4] IEA,Sustainable Recovery: World EnergyOutlook Special Report,2020[5] IRENA,World Energy Transitions Outlook:1.5°C Pathway,2021[6] WBG, Roadmap for offshore wind inVietnam,2021[7] GWEC,GLOBAL WIND REPORT 2022,2022[8] IRENA,FUTURE OF WIND,2019[9] Steven Degraer et al.,Offshore windfarm artificial reefs affect ecosystem structure and functioning : a synthesis,Oceanography,2020[10] RBINS,Offshore Wind Farms And TheMarine Ecosystem: 10 Years of Monitoring,2020[11] Elizabeth T. Methratta, William R.Dardick, Meta-Analysis of Finfish Abundance at Offshore Wind Farms, Reviews inFisheries Science & Aquaculture,2019[12] Ting-Chieh Huang et al.,Evaluating thefish aggregation effect of wind turbine facilities by using scientific echosounder in Nanlong wind farm area, western Taiwan scientific echo sounder inNanlong wind farm area, western Taiwan,2021[13] Katherine Hafner, Virginia’s firstoffshore wind turbines have become a haven for marine life,2021
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