Wave energy technologies selection based on comparison in Adriatic Sea by different variable input data and optimal electric connection (CROSBI ID 695752)
Prilog sa skupa u zborniku | sažetak izlaganja sa skupa | međunarodna recenzija
Podaci o odgovornosti
Stojkov, Marinko
engleski
Wave energy technologies selection based on comparison in Adriatic Sea by different variable input data and optimal electric connection
There are several wave energy converter (WEC) technologies interesting to use in practice for optimal design, for example oscillating water column, point absorber buoy, overtopping device etc. Each WEC technology has its development potential based on further research and improvement. It is hard to say which WEC technology is optimal solution for application at exact location that differs from the other by amplitude, wave velocity distribution and wave direction distribution. It is normally for scientists and investors to focus on sites with better energy potentials for example in Atlantic Ocean. An important part of the investment in WEC is connection cost to electric grid. However - from our point of view, it is very interesting also to focus on Adriatic Sea as our wave energy resource for coastline application. Republic of Croatia has 78 islands with surface greater than 1 km2 (44 island inhabited by more than 15 people, 35 islands inhabited by more than 100 people, 17 islands inhabited by more than 1000 people), 525 small islands with surface between 0, 1 – 1 km2 and 389 small rock islands with surface lower than 0, 1 km2. Great length of the coastline means that there are many potential sites to install wave plant with low costs for connection between WEC plant and electric distribution grid. It would be of great importance to improve reliability of power supply for island’s society, their institutions and households. Our role in WEC technology development could be in control & electrical aspects, system of controlling and data acquisition (SCADA), operation and undersea cabling between plants (interconnection) and from plants to island or mainland (connection to electric grid) with inverter and transformer station on the land. Also, planning, design, control and manage hybrid system as optimal solutions combining WEC with wind and solar renewable power sources are in our research field.
wave energy converter (WEC), wave energy potentials, cost of electric grid connection
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Podaci o prilogu
82-82.
2019.
objavljeno
Podaci o matičnoj publikaciji
Book of Abstracts of the General Assembly 2019 (Porto, Portugal) of the WECANet COST Action CA17105: A pan-European Network for Marine Renewable Energy with a Focus on Wave Energy
Stratigaki, Vasiliki ; Folley, Matt ; Troch, Peter ; Loukogeorgaki, Evangelia ; Gómez-Gesteira, Moncho ; Grm, Aleksander ; Cappietti, Lorenzo ; Ferri, Francesco ; Temiz, Irina ; Michailides, Constantine ; Lavidas, George ; Baltov, Milen ; Rusu, Liliana ; Loizidou ; Xenia
Porto: WECANet COST Action CA17105: A pan-European Network for Marine Renewable Energy with a Focus on Wave Energy
9789464000160
Podaci o skupu
The First Open Pan-European Network for Marine Renewable Energy with a Focus on Wave Energy-COST Action CA17105
predavanje
28.11.2019-29.11.2019
Porto, Portugal