Deep_Water
Deep_Water
Deep_Water
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Chapter 2: The introduction of deep offshore designs<br />
No. Project name Company Type of floater<br />
28 ZÈFIR test<br />
station<br />
29<br />
30<br />
Fukushima<br />
Offshore Wind<br />
Catalonia institute for Energy<br />
Research, Gamesa,<br />
Alstom, Acciona<br />
Fukushima Offshore Wind<br />
Consortium<br />
(Mitsubishi, Hitachi,<br />
Marubeni Corporation,<br />
Tokyo University, Japan<br />
Marine United, Mitsui<br />
Engineering & Shipbuilding,<br />
Nippon Steel, Shimizu<br />
Corporation )<br />
The development of<br />
a new, highly complex<br />
technology for<br />
deep water offshore<br />
wind turbines<br />
Semi-submersible<br />
Advanced spar<br />
Demo/Pilot Prototype Pre-Production/Serial<br />
Scale Year Turbine size (MW)<br />
20 MW bottom fixed<br />
and 50 MW (e.g 6-8)<br />
floating wind turbines<br />
2MW<br />
7MW<br />
Date of<br />
deployment<br />
2013 bottom<br />
fixed,<br />
2015-2016<br />
floating<br />
2013<br />
2014-2015<br />
Turbine size<br />
(MW)<br />
Provisional<br />
date of<br />
deployment<br />
Test wind<br />
farm, not<br />
commercial<br />
Origin<br />
Spain<br />
Japan<br />
Japan<br />
31<br />
32 Shimizu Corporation<br />
Shimizu Corporation,<br />
University of Tokyo, Tokyo<br />
Electric Power Company,<br />
Penta Ocean Construction<br />
Semi-submersible<br />
7MW<br />
2014-2015<br />
Japan<br />
Semi - submersible 2017 Japan<br />
33 Mitsui Zosen Tension Leg Platform Japan<br />
34 National Maritime<br />
Spar Japan<br />
Research<br />
Institute of<br />
Japan<br />
35 Hitachi Zosen Hitachi Zosen, Toshiba Semi- submersible 7.5 MW 2016 Japan<br />
Source: Task Force EWEA<br />
24 <strong>Deep</strong> <strong>Water</strong> - The next step for offshore wind energy