PUBLISHER: Market Xcel - Markets and Data | PRODUCT CODE: 1647404
PUBLISHER: Market Xcel - Markets and Data | PRODUCT CODE: 1647404
Floating Wind Power Market Assessment, By Platform Type, By Capacity, By Water Depth, By Region, Opportunities and Forecast, 2018-2032F
Global floating wind power market is projected to witness a CAGR of 32.98% during the forecast period 2025-2032, growing from USD 2.46 billion in 2024 to USD 24.08 billion in 2032. The market has experienced significant growth in recent years and is expected to maintain a strong pace of expansion in the coming years.
The floating offshore wind power market is poised for substantial growth due to several factors, such as the renewable energy transition, technological advancements in wind turbines, rising investments to access deeper water, and government support, which will continue to evolve the market growth significantly over the coming years.
Countries are looking for new technologies to diversify the energy mix, and floating wind technology is becoming a viable solution for harnessing offshore wind resources effectively. Both public and private companies are involved in investments to build floating offshore wind projects to fulfill the rising demand for renewable energy. In addition, the government and higher authorities are introducing supportive policies and incentives that play a crucial role in driving the floating wind power market.
Furthermore, improvements in floating platform technologies enable better stability and performance in challenging marine environments. The upcoming advancements make floating wind power feasible by deploying turbine technology in deeper waters, creating opportunity for the market in the forecast period. In addition, companies are looking to collaborate to use innovative technology for the development of floating wind plants with cost-effectiveness and minimal maintenance.
For instance, in October 2024, Doosan Enerbility Co., Ltd. decided to enter a partnership with Siemens Gamesa and Equinor to develop the 750MW Bandibuli Floating Offshore Wind Farm project in Ulsan. This development highlights establishing a new plant in the market, which is expected to boost the floating wind power market size in the coming years.
Adoption of Renewable Energy Amplifies Market Growth
The rise in emphasis on transitioning towards renewable energy sources to combat climate change and reduce carbon emissions in the environment is driving the need for innovative technologies. The transformation of the energy landscape through renewable sources is driving an upward trend in floating wind power. Countries are setting ambitious targets such as net zero emissions and lowering carbon emissions, which is leading to the adoption of renewable energy adoption.
Floating offshore wind farms are seen as a critical component in meeting the energy targets, as farms can harness wind energy from deeper waters and generate more renewable energy inaccessible with traditional fixed-bottom turbines. Countries can address energy demands and contribute significantly to sustainability goals and economic resilience with the adoption of floating wind power technologies. Furthermore, the vast untapped potential for wind energy in different geographics creates a positive outlook for expanding the floating wind power market. In addition, countries are looking to adopt modern technologies that are engaged in producing renewable energy generation.
For instance, in August 2024, Mingyang Group established the OceanX project, which is the world's largest single-capacity floating wind power platform in China. The floating wind turbine platform is arranged in a 'V' shape and carries two 8.3 MW offshore wind turbines with a total capacity of 16.6 MW. This development highlights the adoption of innovative technologies for renewable energy generation in the market.
Rising Private and Public Investment Towards the Floating Offshore Wind Projects Boosts the Market Size
The influx of private and public investments provides essential capital for developing and operating floating offshore wind farms in different geographies. The governments of different regions are providing financial support through various mechanisms such as subsidies, tax credits, and feed-in tariffs to develop floating wind power projects. The public sector incentives help to reduce the upfront costs associated with projects. The involvement of public funds in the projects attracts developers and investors to invest. In addition, the public sector can streamline permitting processes at various levels and set environmental standards that facilitate responsible development while minimizing bureaucratic hurdles.
Furthermore, the private sector investment plays a significant role in the development of floating offshore wind farms which influences various aspects of project viability and growth. Public and private investments are essential for financing the high upfront costs associated with floating offshore wind projects. Large projects often require substantial capital for research, development, and construction. Private investors produce the capital and bring expertise in risk assessment and management which is vital for navigating the uncertainties associated with floating wind technologies. Thus, the collaboration between government bodies and private entities is essential for creating a conducive environment for floating wind farm development.
For instance, between September 2022 and May 2024, the United States Departments of Energy (DOE), the Interior (DOI), Commerce, and Transportation (DOT) dedicated over USD 950 million to advance the floating offshore wind spots which drive the development of the market.
Technology Upgradation Creates Opportunities for the Market
Recent advancements in technology have enhanced the feasibility and efficiency of floating wind turbines. Innovations are ongoing to build larger turbine capacities, improved aerodynamic designs, and better mooring systems, allowing for more effective energy capture in deeper waters. The improved blade aerodynamics enable floating wind turbines to capture more energy even in low-wind conditions. The above-mentioned upgrades enhance the overall efficiency, and output of floating wind farms, and make technology more competitive with other renewable energy generation technologies.
Floating offshore wind farms utilize larger and efficient wind turbines which are designed to withstand harsh marine conditions. Innovations regarding the raw material and specialized coatings protect against corrosion from saltwater to blade, which reduces the overall maintenance cost of the project. The use of advanced materials, such as high-strength synthetic fibers and steel alloys, enhances the stability of floating turbines against dynamic marine forces. The adaptation of innovative materials and turbine technology for offshore environments ensures the systems under extreme weather conditions.
For instance, in October 2024, three companies in the region signed contracts with Norway's Marine Energy Test Centre (METCentre) to evaluate new technology aimed at reducing the costs of floating offshore wind. This development highlights the adoption and development of innovative technologies for floating wind power in the market.
Semi-Submersible to Dominate the Market Share
Semi-submersibles are experiencing a high adoption rate in the forecast period, which makes the segment dominate the market. Semi-submersible platforms provide enhanced stability compared to other floating structures in the market. They are also easier and more cost-effective to construct compared to other floating designs, which fosters demand in the market.
Furthermore, the design of the platform typically includes multiple buoyant columns that are submerged below the waterline, allowing the system to resist the forces of waves and wind effectively. The semi-submersible platforms could be upscaled to accommodate the larger units of the turbine while ensuring stability and safety, driving its demand in the market. In addition, the modular design of the platform facilitates large-scale manufacturing and simplifies coordination requirements, which could significantly reduce overall project timelines and costs.
Europe Leads the Floating Wind Power Market
Europe has dominated the floating wind power market and is expected to continue during the forecast period. The government is actively promoting the development of renewable energy to meet climate targets and reduce carbon emissions in the region, leading to the development of a floating wind power market. The European government has taken the initiative to boost significant investments in floating energy generation technologies. The government providing financial incentives, grants, and streamlined regulatory processes in support of developing floating wind projects with the private sector, has further facilitated the developers to invest in the projects. European companies have established a dominant position in the floating wind market by implementing innovative technologies for renewable energy generation.
Currently, the region has been at the forefront of developing and testing floating power technologies, with successful pilot projects such as Hywind Scotland and WindFloat Atlantic which demonstrate the feasibility and effectiveness of floating wind systems in the market. In addition, the European Union has set ambitious targets for increasing offshore wind capacity, aiming for at least 60 GW by 2030 and 300 GW by 2050, driving the deployment of floating wind turbines in the region in the coming years.
Future Market Scenario (2025 - 2032F)
Massive investments in renewable energy technologies are driving the growth of the floating wind power market in the coming years.
Governments are focusing on investment and modernizing the floating wind power plant which fosters the market growth in the forecast period.
Ongoing technological innovations are enhancing the efficiency and reliability of floating wind turbines which creates the opportunity for the market.
Countries with extensive deep-water coastlines, such as Norway, Spain, Japan, South Korea, and Brazil, are increasingly recognizing the potential for the deployment of floating wind technology in the coming years.
Key Players Landscape and Outlook
Continuous innovation characterizes floating wind power globally as the companies compete in terms of energy efficiency, technology, and unique features. The market outlook remains pragmatic, owing to increased demand for renewable energy and increasing investment in wind energy generation technologies. Floating wind power players focus on energy efficiency and environmental practices, defining the industry's future. Technology upgrades, agreements, business expansions, and collaborations will increase competition in the fast-paced market.
For instance, in September 2023, RWE collaborated with Saitec Offshore Technologies and Kansai Electric Power (KEPCO) for the development of the commercial floating offshore wind project DemoSATH. The DemoSATH project has successfully begun supplying electricity to the Spanish grid. This milestone marks Spain's first floating wind turbine connected to the grid, located offshore in the Basque Country. The platform's 2 MW turbine is expected to generate enough energy to power around 2,000 households annually. Over the next two years, the project will gather data on the technology's performance and environmental interactions, aiming to enhance marine biodiversity and support sustainable fishing practices.
Table of Contents
1. Project Scope and Definitions
2. Research Methodology
3. Executive Summary
4. Voice of Customers
- 4.1. Factors Considered for the Floating Wind Power Project
- 4.1.1. Design and Engineering
- 4.1.2. Cost of the Project
- 4.1.3. Power Generation Capacity
- 4.1.4. Environmental Impact
- 4.1.5. Government Policies and Support
5. Global Floating Wind Power Market Outlook, 2018-2032F
- 5.1. Market Size Analysis & Forecast
- 5.1.1. By Value
- 5.1.2. By Volume
- 5.2. Market Share Analysis & Forecast
- 5.2.1. By Type
- 5.2.1.1. Barge
- 5.2.1.2. Semi-Submersible
- 5.2.1.3. Others
- 5.2.2. By Capacity
- 5.2.2.1. Up to 3 MW
- 5.2.2.2. 3 MW to 6 MW
- 5.2.2.3. Above 6 MW
- 5.2.3. By Water Depth
- 5.2.3.1. Shallow Water
- 5.2.3.2. Transitional Water
- 5.2.3.3. Deep Water
- 5.2.4. By Region
- 5.2.4.1. North America
- 5.2.4.2. Europe
- 5.2.4.3. Asia-Pacific
- 5.2.4.4. South America
- 5.2.4.5. Middle East and Africa
- 5.2.5. By Company Market Share Analysis (Top 5 Companies and Others - By Value, 2024)
- 5.2.1. By Type
- 5.3. Market Map Analysis, 2024
- 5.3.1. By Platform Type
- 5.3.2. By Capacity
- 5.3.3. By Water Depth
- 5.3.4. By Region
6. North America Floating Wind Power Market Outlook, 2018-2032F*
- 6.1. Market Size Analysis & Forecast
- 6.1.1. By Value
- 6.1.2. By Volume
- 6.2. Market Share Analysis & Forecast
- 6.2.1. By Type
- 6.2.1.1. Barge
- 6.2.1.2. Semi-Submersible
- 6.2.1.3. Others
- 6.2.2. By Capacity
- 6.2.2.1. Up to 3 MW
- 6.2.2.2. 3 MW to 6 MW
- 6.2.2.3. Above 6 MW
- 6.2.3. By Water Depth
- 6.2.3.1. Shallow Water
- 6.2.3.2. Transitional Water
- 6.2.3.3. Deep Water
- 6.2.4. By Country Share
- 6.2.4.1. United States
- 6.2.4.2. Canada
- 6.2.4.3. Mexico
- 6.2.1. By Type
- 6.3. Country Market Assessment
- 6.3.1. United States Floating Wind Power Market Outlook, 2018-2032F*
- 6.3.1.1. Market Size Analysis & Forecast
- 6.3.1.1.1. By Value
- 6.3.1.1.2. By Volume
- 6.3.1.2. Market Share Analysis & Forecast
- 6.3.1.2.1. By Platform Type
- 6.3.1.2.1.1. Barge
- 6.3.1.2.1.2. Semi-Submersible
- 6.3.1.2.1.3. Others
- 6.3.1.2.2. By Capacity
- 6.3.1.2.2.1. Up to 3 MW
- 6.3.1.2.2.2. 3 MW to 6 MW
- 6.3.1.2.2.3. Above 6 MW
- 6.3.1.2.3. By Water Depth
- 6.3.1.2.3.1. Shallow Water
- 6.3.1.2.3.2. Transitional Water
- 6.3.1.2.3.3. Deep Water
- 6.3.1.2.1. By Platform Type
- 6.3.1.1. Market Size Analysis & Forecast
- 6.3.2. Canada
- 6.3.3. Mexico
- 6.3.1. United States Floating Wind Power Market Outlook, 2018-2032F*
All segments will be provided for all regions and countries covered
7. Europe Floating Wind Power Market Outlook, 2018-2032F
- 7.1. Germany
- 7.2. France
- 7.3. Italy
- 7.4. United Kingdom
- 7.5. Russia
- 7.6. Netherlands
- 7.7. Spain
- 7.8. Turkey
- 7.9. Poland
8. Asia-Pacific Floating Wind Power Market Outlook, 2018-2032F
- 8.1. India
- 8.2. China
- 8.3. Japan
- 8.4. Australia
- 8.5. Vietnam
- 8.6. South Korea
- 8.7. Indonesia
- 8.8. Philippines
9. South America Floating Wind Power Market Outlook, 2018-2032F
- 9.1. Brazil
- 9.2. Argentina
10. Middle East and Africa Floating Wind Power Market Outlook, 2018-2032F
- 10.1. Saudi Arabia
- 10.2. UAE
- 10.3. South Africa
11. Porter's Five Forces Analysis
12. PESTLE Analysis
13. Market Dynamics
- 13.1. Market Drivers
- 13.2. Market Challenges
14. Market Trends and Developments
15. Competitive Landscape
- 15.1. Competition Matrix of Top 5 Market Leaders
- 15.2. SWOT Analysis for Top 5 Players
- 15.3. Key Players Landscape for Top 10 Market Players
- 15.3.1. Orsted A/S
- 15.3.1.1. Company Details
- 15.3.1.2. Key Management Personnel
- 15.3.1.3. Products and Services
- 15.3.1.4. Financials (As Reported)
- 15.3.1.5. Key Market Focus and Geographical Presence
- 15.3.1.6. Recent Developments/Collaborations/Partnerships/Mergers and Acquisition
- 15.3.2. DNV AS
- 15.3.3. Exponential Renewables S.L.
- 15.3.4. Mainstream Renewable Power Limited
- 15.3.5. BlueFloat Energy International
- 15.3.6. Siemens Gamesa Renewable Energy, S.A.
- 15.3.7. IberBlue Wind
- 15.3.8. Doosan Enerbility Co., Ltd.
- 15.3.9. RWE AG
- 15.3.10. Vestas Wind Systems AS
- 15.3.11. BW Ideol
- 15.3.12. Equinor ASA
- 15.3.1. Orsted A/S
Companies mentioned above DO NOT hold any order as per market share and can be changed as per information available during research work.
16. Strategic Recommendations
17. About Us and Disclaimer
List of Tables
- Table 1. Competition Matrix of Top 5 Market Leaders
- Table 2. Mergers & Acquisitions/ Joint Ventures (If Applicable)
- Table 3. About Us - Regions and Countries Where We Have Executed Client Projects
List of Figures
- Figure 1. Global Floating Wind Power Market, By Value, in USD Billion, 2018-2032F
- Figure 2. Global Floating Wind Power Market, By Volume, in Gigawatt (GW), 2018-2032F
- Figure 3. Global Floating Wind Power Market Share (%), By Platform Type, 2018-2032F
- Figure 4. Global Floating Wind Power Market Share (%), By Capacity, 2018-2032F
- Figure 5. Global Floating Wind Power Market Share (%), By Water Depth, 2018-2032F
- Figure 6. Global Floating Wind Power Market Share (%), By Region, 2018-2032F
- Figure 7. North America Floating Wind Power Market, By Value, in USD Billion, 2018-2032F
- Figure 8. North America Floating Wind Power Market, By Volume, in Gigawatt (GW), 2018-2032F
- Figure 9. North America Floating Wind Power Market Share (%), By Platform Type, 2018-2032F
- Figure 10. North America Floating Wind Power Market Share (%), By Capacity, 2018-2032F
- Figure 11. North America Floating Wind Power Market Share (%), By Water Depth, 2018-2032F
- Figure 12. North America Floating Wind Power Market Share (%), By Country, 2018-2032F
- Figure 13. United States Floating Wind Power Market, By Value, in USD Billion, 2018-2032F
- Figure 14. United States Floating Wind Power Market, By Volume, in Gigawatt (GW), 2018-2032F
- Figure 15. United States Floating Wind Power Market Share (%), By Platform Type, 2018-2032F
- Figure 16. United States Floating Wind Power Market Share (%), By Capacity, 2018-2032F
- Figure 17. United States Floating Wind Power Market Share (%), By Water Depth, 2018-2032F
- Figure 18. Canada Floating Wind Power Market, By Value, in USD Billion, 2018-2032F
- Figure 19. Canada Floating Wind Power Market, By Volume, in Gigawatt (GW), 2018-2032F
- Figure 20. Canada Floating Wind Power Market Share (%), By Platform Type, 2018-2032F
- Figure 21. Canada Floating Wind Power Market Share (%), By Capacity, 2018-2032F
- Figure 22. Canada Floating Wind Power Market Share (%), By Water Depth, 2018-2032F
- Figure 23. Mexico Floating Wind Power Market, By Value, in USD Billion, 2018-2032F
- Figure 24. Mexico Floating Wind Power Market, By Volume, in Gigawatt (GW), 2018-2032F
- Figure 25. Mexico Floating Wind Power Market Share (%), By Platform Type, 2018-2032F
- Figure 26. Mexico Floating Wind Power Market Share (%), By Capacity, 2018-2032F
- Figure 27. Mexico Floating Wind Power Market Share (%), By Water Depth, 2018-2032F
- Figure 28. Europe Floating Wind Power Market, By Value, in USD Billion, 2018-2032F
- Figure 29. Europe Floating Wind Power Market, By Volume, in Gigawatt (GW), 2018-2032F
- Figure 30. Europe Floating Wind Power Market Share (%), By Platform Type, 2018-2032F
- Figure 31. Europe Floating Wind Power Market Share (%), By Capacity, 2018-2032F
- Figure 32. Europe Floating Wind Power Market Share (%), By Water Depth, 2018-2032F
- Figure 33. Europe Floating Wind Power Market Share (%), By Country, 2018-2032F
- Figure 34. Germany Floating Wind Power Market, By Value, in USD Billion, 2018-2032F
- Figure 35. Germany Floating Wind Power Market, By Volume, in Gigawatt (GW), 2018-2032F
- Figure 36. Germany Floating Wind Power Market Share (%), By Platform Type, 2018-2032F
- Figure 37. Germany Floating Wind Power Market Share (%), By Capacity, 2018-2032F
- Figure 38. Germany Floating Wind Power Market Share (%), By Water Depth, 2018-2032F
- Figure 39. France Floating Wind Power Market, By Value, in USD Billion, 2018-2032F
- Figure 40. France Floating Wind Power Market, By Volume, in Gigawatt (GW), 2018-2032F
- Figure 41. France Floating Wind Power Market Share (%), By Platform Type, 2018-2032F
- Figure 42. France Floating Wind Power Market Share (%), By Capacity, 2018-2032F
- Figure 43. France Floating Wind Power Market Share (%), By Water Depth, 2018-2032F
- Figure 44. Italy Floating Wind Power Market, By Value, in USD Billion, 2018-2032F
- Figure 45. Italy Floating Wind Power Market, By Volume, in Gigawatt (GW), 2018-2032F
- Figure 46. Italy Floating Wind Power Market Share (%), By Platform Type, 2018-2032F
- Figure 47. Italy Floating Wind Power Market Share (%), By Capacity, 2018-2032F
- Figure 48. Italy Floating Wind Power Market Share (%), By Water Depth, 2018-2032F
- Figure 49. United Kingdom Floating Wind Power Market, By Value, in USD Billion, 2018-2032F
- Figure 50. United Kingdom Floating Wind Power Market, By Volume, in Gigawatt (GW), 2018-2032F
- Figure 51. United Kingdom Floating Wind Power Market Share (%), By Platform Type, 2018-2032F
- Figure 52. United Kingdom Floating Wind Power Market Share (%), By Capacity, 2018-2032F
- Figure 53. United Kingdom Floating Wind Power Market Share (%), By Water Depth, 2018-2032F
- Figure 54. Russia Floating Wind Power Market, By Value, in USD Billion, 2018-2032F
- Figure 55. Russia Floating Wind Power Market, By Volume, in Gigawatt (GW), 2018-2032F
- Figure 56. Russia Floating Wind Power Market Share (%), By Platform Type, 2018-2032F
- Figure 57. Russia Floating Wind Power Market Share (%), By Capacity, 2018-2032F
- Figure 58. Russia Floating Wind Power Market Share (%), By Water Depth, 2018-2032F
- Figure 59. Netherlands Floating Wind Power Market, By Value, in USD Billion, 2018-2032F
- Figure 60. Netherlands Floating Wind Power Market, By Volume, in Gigawatt (GW), 2018-2032F
- Figure 61. Netherlands Floating Wind Power Market Share (%), By Platform Type, 2018-2032F
- Figure 62. Netherlands Floating Wind Power Market Share (%), By Capacity, 2018-2032F
- Figure 63. Netherlands Floating Wind Power Market Share (%), By Water Depth, 2018-2032F
- Figure 64. Spain Floating Wind Power Market, By Value, in USD Billion, 2018-2032F
- Figure 65. Spain Floating Wind Power Market, By Volume, in Gigawatt (GW), 2018-2032F
- Figure 66. Spain Floating Wind Power Market Share (%), By Platform Type, 2018-2032F
- Figure 67. Spain Floating Wind Power Market Share (%), By Capacity, 2018-2032F
- Figure 68. Spain Floating Wind Power Market Share (%), By Water Depth, 2018-2032F
- Figure 69. Turkey Floating Wind Power Market, By Value, in USD Billion, 2018-2032F
- Figure 70. Turkey Floating Wind Power Market, By Volume, in Gigawatt (GW), 2018-2032F
- Figure 71. Turkey Floating Wind Power Market Share (%), By Platform Type, 2018-2032F
- Figure 72. Turkey Floating Wind Power Market Share (%), By Capacity, 2018-2032F
- Figure 73. Turkey Floating Wind Power Market Share (%), By Water Depth, 2018-2032F
- Figure 74. Poland Floating Wind Power Market, By Value, in USD Billion, 2018-2032F
- Figure 75. Poland Floating Wind Power Market, By Volume, in Gigawatt (GW), 2018-2032F
- Figure 76. Poland Floating Wind Power Market Share (%), By Platform Type, 2018-2032F
- Figure 77. Poland Floating Wind Power Market Share (%), By Capacity, 2018-2032F
- Figure 78. Poland Floating Wind Power Market Share (%), By Water Depth, 2018-2032F
- Figure 79. South America Floating Wind Power Market, By Value, in USD Billion, 2018-2032F
- Figure 80. South America Floating Wind Power Market, By Volume, in Gigawatt (GW), 2018-2032F
- Figure 81. South America Floating Wind Power Market Share (%), By Platform Type, 2018-2032F
- Figure 82. South America Floating Wind Power Market Share (%), By Capacity, 2018-2032F
- Figure 83. South America Floating Wind Power Market Share (%), By Water Depth, 2018-2032F
- Figure 84. South America Floating Wind Power Market Share (%), By Country, 2018-2032F
- Figure 85. Brazil Floating Wind Power Market, By Value, in USD Billion, 2018-2032F
- Figure 86. Brazil Floating Wind Power Market, By Volume, in Gigawatt (GW), 2018-2032F
- Figure 87. Brazil Floating Wind Power Market Share (%), By Platform Type, 2018-2032F
- Figure 88. Brazil Floating Wind Power Market Share (%), By Capacity, 2018-2032F
- Figure 89. Brazil Floating Wind Power Market Share (%), By Water Depth, 2018-2032F
- Figure 90. Argentina Floating Wind Power Market, By Value, in USD Billion, 2018-2032F
- Figure 91. Argentina Floating Wind Power Market, By Volume, in Gigawatt (GW), 2018-2032F
- Figure 92. Argentina Floating Wind Power Market Share (%), By Platform Type, 2018-2032F
- Figure 93. Argentina Floating Wind Power Market Share (%), By Capacity, 2018-2032F
- Figure 94. Argentina Floating Wind Power Market Share (%), By Water Depth, 2018-2032F
- Figure 95. Asia-Pacific Floating Wind Power Market, By Value, in USD Billion, 2018-2032F
- Figure 96. Asia-Pacific Floating Wind Power Market, By Volume, in Gigawatt (GW), 2018-2032F
- Figure 97. Asia-Pacific Floating Wind Power Market Share (%), By Platform Type, 2018-2032F
- Figure 98. Asia-Pacific Floating Wind Power Market Share (%), By Capacity, 2018-2032F
- Figure 99. Asia-Pacific Floating Wind Power Market Share (%), By Water Depth, 2018-2032F
- Figure 100. Asia-Pacific Floating Wind Power Market Share (%), By Country, 2018-2032F
- Figure 101. India Floating Wind Power Market, By Value, in USD Billion, 2018-2032F
- Figure 102. India Floating Wind Power Market, By Volume, in Gigawatt (GW), 2018-2032F
- Figure 103. India Floating Wind Power Market Share (%), By Platform Type, 2018-2032F
- Figure 104. India Floating Wind Power Market Share (%), By Capacity, 2018-2032F
- Figure 105. India Floating Wind Power Market Share (%), By Water Depth, 2018-2032F
- Figure 106. China Floating Wind Power Market, By Value, in USD Billion, 2018-2032F
- Figure 107. China Floating Wind Power Market, By Volume, in Gigawatt (GW), 2018-2032F
- Figure 108. China Floating Wind Power Market Share (%), By Platform Type, 2018-2032F
- Figure 109. China Floating Wind Power Market Share (%), By Capacity, 2018-2032F
- Figure 110. China Floating Wind Power Market Share (%), By Water Depth, 2018-2032F
- Figure 111. Japan Floating Wind Power Market, By Value, in USD Billion, 2018-2032F
- Figure 112. Japan Floating Wind Power Market, By Volume, in Gigawatt (GW), 2018-2032F
- Figure 113. Japan Floating Wind Power Market Share (%), By Platform Type, 2018-2032F
- Figure 114. Japan Floating Wind Power Market Share (%), By Capacity, 2018-2032F
- Figure 115. Japan Floating Wind Power Market Share (%), By Water Depth, 2018-2032F
- Figure 116. Australia Floating Wind Power Market, By Value, in USD Billion, 2018-2032F
- Figure 117. Australia Floating Wind Power Market, By Volume, in Gigawatt (GW), 2018-2032F
- Figure 118. Australia Floating Wind Power Market Share (%), By Platform Type, 2018-2032F
- Figure 119. Australia Floating Wind Power Market Share (%), By Capacity, 2018-2032F
- Figure 120. Australia Floating Wind Power Market Share (%), By Water Depth, 2018-2032F
- Figure 121. Vietnam Floating Wind Power Market, By Value, in USD Billion, 2018-2032F
- Figure 122. Vietnam Floating Wind Power Market, By Volume, in Gigawatt (GW), 2018-2032F
- Figure 123. Vietnam Floating Wind Power Market Share (%), By Platform Type, 2018-2032F
- Figure 124. Vietnam Floating Wind Power Market Share (%), By Capacity, 2018-2032F
- Figure 125. Vietnam Floating Wind Power Market Share (%), By Water Depth, 2018-2032F
- Figure 126. South Korea Floating Wind Power Market, By Value, in USD Billion, 2018-2032F
- Figure 127. South Korea Floating Wind Power Market, By Volume, in Gigawatt (GW), 2018-2032F
- Figure 128. South Korea Floating Wind Power Market Share (%), By Platform Type, 2018-2032F
- Figure 129. South Korea Floating Wind Power Market Share (%), By Capacity, 2018-2032F
- Figure 130. South Korea Floating Wind Power Market Share (%), By Water Depth, 2018-2032F
- Figure 131. Indonesia Floating Wind Power Market, By Value, in USD Billion, 2018-2032F
- Figure 132. Indonesia Floating Wind Power Market, By Volume, in Gigawatt (GW), 2018-2032F
- Figure 133. Indonesia Floating Wind Power Market Share (%), By Platform Type, 2018-2032F
- Figure 134. Indonesia Floating Wind Power Market Share (%), By Capacity, 2018-2032F
- Figure 135. Indonesia Floating Wind Power Market Share (%), By Water Depth, 2018-2032F
- Figure 136. Philippines Floating Wind Power Market, By Value, in USD Billion, 2018-2032F
- Figure 137. Philippines Floating Wind Power Market, By Volume, in Gigawatt (GW), 2018-2032F
- Figure 138. Philippines Floating Wind Power Market Share (%), By Platform Type, 2018-2032F
- Figure 139. Philippines Floating Wind Power Market Share (%), By Capacity, 2018-2032F
- Figure 140. Philippines Floating Wind Power Market Share (%), By Water Depth, 2018-2032F
- Figure 141. Middle East & Africa Floating Wind Power Market, By Value, in USD Billion, 2018-2032F
- Figure 142. Middle East & Africa Floating Wind Power Market, By Volume, in Gigawatt (GW), 2018-2032F
- Figure 143. Middle East & Africa Floating Wind Power Market Share (%), By Platform Type, 2018-2032F
- Figure 144. Middle East & Africa Floating Wind Power Market Share (%), By Capacity, 2018-2032F
- Figure 145. Middle East & Africa Floating Wind Power Market Share (%), By Water Depth, 2018-2032F
- Figure 146. Middle East & Africa Floating Wind Power Market Share (%), By Country, 2018-2032F
- Figure 147. Saudi Arabia Floating Wind Power Market, By Value, in USD Billion, 2018-2032F
- Figure 148. Saudi Arabia Floating Wind Power Market, By Volume, in Gigawatt (GW), 2018-2032F
- Figure 149. Saudi Arabia Floating Wind Power Market Share (%), By Platform Type, 2018-2032F
- Figure 150. Saudi Arabia Floating Wind Power Market Share (%), By Capacity, 2018-2032F
- Figure 151. Saudi Arabia Floating Wind Power Market Share (%), By Water Depth, 2018-2032F
- Figure 152. UAE Floating Wind Power Market, By Value, in USD Billion, 2018-2032F
- Figure 153. UAE Floating Wind Power Market, By Volume, in Gigawatt (GW), 2018-2032F
- Figure 154. UAE Floating Wind Power Market Share (%), By Platform Type, 2018-2032F
- Figure 155. UAE Floating Wind Power Market Share (%), By Capacity, 2018-2032F
- Figure 156. UAE Floating Wind Power Market Share (%), By Water Depth, 2018-2032F
- Figure 157. South Africa Floating Wind Power Market, By Value, in USD Billion, 2018-2032F
- Figure 158. South Africa Floating Wind Power Market, By Volume, in Gigawatt (GW), 2018-2032F
- Figure 159. South Africa Floating Wind Power Market Share (%), By Platform Type, 2018-2032F
- Figure 160. South Africa Floating Wind Power Market Share (%), By Capacity, 2018-2032F
- Figure 161. South Africa Floating Wind Power Market Share (%), By Water Depth, 2018-2032F
- Figure 162. By Platform Type Map-Market Size (USD Billion) & Growth Rate (%), 2024
- Figure 163. By Capacity Map-Market Size (USD Billion) & Growth Rate (%), 2024
- Figure 164. By Water Depth Map-Market Size (USD Billion) & Growth Rate (%), 2024
- Figure 165. By Region Map-Market Size (USD Billion) & Growth Rate (%), 2024
