Offshore Renewables for a Transition to a Low Carbon Society

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https://mdpi.com/books/pdfview/book/8529Contributor(s)
Rusu, Liliana (editor)
Stratigaki, Vicky (editor)
Language
EnglishAbstract
Taking into account the increasing general concern related to the necessity of reducing CO2 emissions, a very important aspect of this topic refers to the green energy sector. In this vein, the present Special Issue is focused on the area of Offshore Renewable Energy (ORE). This Special Issue contains valuable works related to ORE.
Keywords
Romanian nearshore; EEZ; ERA5; water depth; energy resources; offshore wind turbines; offshore wind; technical analysis; economic analysis; Philippines; European seas; sea state conditions; wind climate; wave climate; statistical analysis; solar farm siting; assessment criteria; entropy weight method; AHP; TOPSIS; wave power; wave energy converters (WECs); Galician coast; SWAN; wave-energy converter array; interconnected model; model predictive control; hardware-in-the-loop; wave energy converter (WEC); heaving point-absorber WEC; WEC array; WECfarm; physical modelling; real-time control; MATLAB-Simulink; heaving point absorber WEC; system identification (SID); solar radiation; marine renewable energy; floating solar panels (FPV); sustainability; wave energy converter; floating flapping-panel; slope; hydrodynamic performance; n/aWebshop link
https://mdpi.com/books/pdfview ...ISBN
9783036592312, 9783036592305Publisher website
www.mdpi.com/booksPublication date and place
Basel, 2023Classification
Research and information: general
Physics