Deep_Water

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No. Project name Company Type of floater Demo/Pilot Prototype Pre-Production/Serial Scale Year Turbine size (MW) Date of deployment Turbine size (MW) Provisional date of deployment 15 HiPRwind EU project 2016 Europe 2014 Europe 16 Marina platform EU project Deepwater platforms that integrate (in a single infrastructure) a range of energy such as wind, wave, or sea currents 17 Karmøy Sway Spar buoy 1:6 downscaled model 18 Ocean Breeze Xanthus Energy Taut tethered buoyant 19 Pelagic Power W2power Hybrid wind and wave energy conversion plant 20 Poseidon Floating power Origin 2011 2.3 MW 2.5-5 MW Norway Tank Test 2011 UK 2x3.6 MW 2015 Norway Floating Power Semi - submersible 6 MW 2014 Denmark 21 Sea Twirl Sea Twirl Floating spar and vertical wind turbine 22 Trifloater Semisub 23 Titan 200 Deep offshore platform 1:50 model Sweden Gusto Semi - submersible 5 MW Netherlands Offshore wind power systems of Texas 24 Vertiwind Technip/Nenuphar/EDF EN 25 University of Maine 26 WindSea floater University of Maine, Renewegy Force Technology, NLI Innovation Self-installing floating platform Semi - submersible 2 MW 2013 2 MW 2016 France Semi-submersible tri-floater Semi-submersible vessel with 3 corner columns 20kW 2013 US Tank test 3x1 MW 3x3.6 MW Norway 27 Winflo Nass & Wind/DCNS Semi - submersible 1 MW 2013 2.5 MW 2016 France US Deep Water - The next step for offshore wind energy 23
Chapter 2: The introduction of deep offshore designs No. Project name Company Type of floater 28 ZÈFIR test station 29 30 Fukushima Offshore Wind Catalonia institute for Energy Research, Gamesa, Alstom, Acciona Fukushima Offshore Wind Consortium (Mitsubishi, Hitachi, Marubeni Corporation, Tokyo University, Japan Marine United, Mitsui Engineering & Shipbuilding, Nippon Steel, Shimizu Corporation ) The development of a new, highly complex technology for deep water offshore wind turbines Semi-submersible Advanced spar Demo/Pilot Prototype Pre-Production/Serial Scale Year Turbine size (MW) 20 MW bottom fixed and 50 MW (e.g 6-8) floating wind turbines 2MW 7MW Date of deployment 2013 bottom fixed, 2015-2016 floating 2013 2014-2015 Turbine size (MW) Provisional date of deployment Test wind farm, not commercial Origin Spain Japan Japan 31 32 Shimizu Corporation Shimizu Corporation, University of Tokyo, Tokyo Electric Power Company, Penta Ocean Construction Semi-submersible 7MW 2014-2015 Japan Semi - submersible 2017 Japan 33 Mitsui Zosen Tension Leg Platform Japan 34 National Maritime Spar Japan Research Institute of Japan 35 Hitachi Zosen Hitachi Zosen, Toshiba Semi- submersible 7.5 MW 2016 Japan Source: Task Force EWEA 24 Deep Water - The next step for offshore wind energy
Page 1 and 2: Deep water The next step for offsho
Page 3 and 4: Foreword We have the wind in our sa
Page 5 and 6: © Hywind Executive Summary
Page 7 and 8: Executive summary Recommendations T
Page 9 and 10: © Principle power Unlocking offsho
Page 11 and 12: Chapter 1: Unlocking offshore wind
Page 17 and 18: © Hexicon Energy Design The introd
Page 19 and 20: Chapter 2: The introduction of deep
Page 21: Chapter 2: The introduction of deep
Page 29 and 30: © Floating Haliade Deploying deep
Page 31 and 32: Chapter 3: Deploying deep offshore
Page 37 and 38: © IDEOL recommendations
Page 39 and 40: ANNEX
Page 41 and 42: Annex WindFloat Descriptions provid
Page 43 and 44: Annex Floating Haliade 150 Descript
Page 45 and 46: Annex PelaStar Descriptions provide
Page 47 and 48: Annex Hexicon Energy Design Descrip
Page 49 and 50: Annex ZÈFIR Test Station Descripti
Page 51: 53520-1307-1002 www.ewea.org About

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