세계의 부유식 해상 풍력에너지 시장

The global market for floating offshore wind energy is estimated to grow from $1.7 billion in 2025 to $18 billion by the end of 2030, at a compound annual growth rate (CAGR) of 60.1% from 2025 to 2030.

The U.K. market for floating offshore wind energy is estimated to grow from $455.2 million in 2025 to $2.2 billion by the end of 2030, at a CAGR of 36.8% from 2025 to 2030.

The Spain market for floating offshore wind energy is estimated to grow from $20.5 million in 2025 to $2.4 billion by the end of 2030, at a CAGR of 158.7% from 2025 to 2030.

Report Scope

In this report, the global market for floating offshore wind energy is segmented and analyzed by components, floating platform technology, depth, turbine rating and country. The market size is provided in value ($ millions) and volumetric (megawatts) terms. It also discusses market dynamics, emerging technologies and global developments. The report includes the impact of artificial intelligence (AI) on the floating offshore wind energy industry. Emerging trends, technological advances, climate regulations and technical standards are also discussed. The report includes a value chain analysis; Porter's Five Forces analysis; and a strength, weakness, opportunity and threat (SWOT) analysis.

Report Includes

• 70 data tables and 54 additional tables
• An overview of the global market for floating offshore wind energy
• In-depth analysis of global market trends, featuring historical revenue data for 2024, estimated figures for 2025, as well as forecasts for 2029, including projections of CAGRs through 2030
• Evaluation of the current market size and revenue growth prospects specific to the floating offshore wind energy, accompanied by a market share analysis by component, floating platform technology, water depth, turbine rating, and country
• Analysis of market opportunities with a review of Porter's Five Forces model and industry supply chain analysis, considering both micro- and macro-environmental factors prevailing in the market
• Discussion of factors affecting the choice of floating offshore wind energy, and the impact of tariff war on the floating offshore wind energy industry
• Coverage of evolving technologies, the current and future market potential, R&D activities, growth strategies, regulatory framework and reimbursement scenarios, and ESG trends of the market
• Identification of companies best positioned to meet this demand due to their proprietary technologies, mergers and acquisitions, joint ventures and other strategic alliances
• Profiles of the leading global companies, including Aker Solutions ASA, BlueFloat Energy International, BW Ideol, Equinor ASA and GE Vernova.

Table of Contents

Chapter 1 Executive Summary

• Market Outlook
• Scope of Report
• Market Summary
• Market Dynamics and Drivers
• Regional Insights and Emerging Markets
• Analysis by Segment
• Conclusion

Chapter 2 Market Overview

• Overview and Market Definition
• Porter's Five Forces Analysis
• Bargaining Power of Buyers
• Bargaining Power of Suppliers
• Potential for New Entrants
• Threat of Substitutes
• Level of Competition
• Value Chain Analysis
• Strength, Weakness, Opportunity and Threat Analysis
• Climate Change Policies and Regulations
• Paris Agreement
• Feed-In Tariffs
• Inflation Reduction Act
• European Green Deal
• Innovation Fund

Chapter 3 Market Dynamics

• Market Dynamics
• Market Drivers
• Cost Reduction in Wind Energy Generation
• Increased Focus on Intensive Research and Development
• Market Challenges
• Lack of Specialized Port Infrastructure
• High Upfront Cost
• Market Restrictions
• Restrictive Trade Policies
• Limited Transmission Capacity and Aging Grid Infrastructure
• Market Opportunities
• Synergy with Green Hydrogen
• Increasing Demand for Integrated Engineering, Procurement, Construction and Installation Solutions

Chapter 4 Emerging Technologies and Developments

• Emerging Technologies
• Increasing Number of Startups
• Hybrid Power Generation Sources
• Fold-Up/Flat-Pack Floating Platforms
• Advanced Materials
• Digital Transformation
• Recyclable Blade
• Vacuum-Cast-Coil Dry-Type Transformer
• Vertical-Axis Wind Turbine
• Single-Piece, Self-Tilt Rotor

Chapter 5 Market Segmentation Analysis

• Segmentation Breakdown
• Market Analysis by Floating Platform Technology
• Takeaways
• Semi-Submersible
• Spar-Buoy
• Tension Leg Platform
• Barge and Hybrid Systems
• Market Analysis by Component
• Takeaways
• Tower
• Floating Platform
• Blade
• Other components
• Market Analysis by Water Depth
• Takeaways
• Less Than or Equal to 50 Meters
• More than 50 Meters to 100 Meters
• More Than 100 Meters
• Market Analysis by Turbine Rating
• Takeaways
• Up to 3 MW
• More Than 3 MW to 8 MW
• 8 MW to 12 MW
• More than 12 MW
• Market Analysis by Country
• Takeaways
• Norway
• U.K.
• China
• Portugal
• France
• Spain
• Japan
• RoW

Chapter 6 Sustainability in the Floating Offshore Wind Energy Industry: An ESG Perspective

• Introduction to ESG
• ESG Risk Ratings Analysis
• Key ESG Issues
• Environmental Issues
• Social Issues
• Governance Issues
• ESG Practices in the Floating Offshore Wind Energy Market
• Equinor
• SGRE
• GE Vernova
• Future of ESG: Emerging Trends and Opportunities
• Concluding Remarks

Chapter 7 Competitive Intelligence

• Industry Structure
• Company Share Analysis
• Equinor ASA
• SGRE
• Mingyang Smart Energy Group
• Vestas
• BW Ideol
• Shanghai Electric Wind Power Group
• Hexicon AB
• Strategic Analysis

Chapter 8 Appendix

• Methodology
• Information Sources
• References
• Abbreviations Used in the Report
• Company Profiles
• AKER SOLUTIONS
• BLUEFLOAT ENERGY INTERNATIONAL S.L.U.
• BW IDEOL
• EKWIL
• EQUINOR ASA
• GE VERNOVA
• HEXICON
• OCEAN WINDS
• OCERGY INC.
• ORSTED A/S
• RWE
• SIEMENS GAMESA RENEWABLE ENERGY S.A.U.
• TOTALENERGIES
• VESTAS
• X1WIND