下一代风力发电系统的技术进步

创新的设计方法以及成本效率、可靠性和永续性的改进推动转型成长

风力发电预计将在实现全行业排放目标方面发挥关键作用。然而，传统的风电系统面临可用土地有限、发电间歇性、低速和高速风环境不可用等挑战。本报告探讨了下一代风力系统解决传统风力发电机面临的挑战的潜力。浮体式系统的基础知识、运行原理原理、技术能力、应用和商业准备情况，包括浮动风力发电係统、无叶风力发电机、机载风力发电係统（AWES）、垂直轴风力发电机（VAWT）和直驱风力发电机。深入研究下一代风力发电技术。

本报告包括展示风力发电创新设计方法的案例研究，并研究了下一代风力发电技术的专利格局。它还强调了在能源领域开发创新风力发电解决方案的主要相关人员。该研究最后确定了下一代风力发电係统市场的驱动因素和限制因素，并对开发商和营运商可以利用的行业变化所带来的成长机会进行了深入分析。

目录

战略问题

• 为什么成长如此困难？策略要务 8 (TM)：阻碍成长的因素
• 战略要务8（风力发电）
• 主要策略要务对下一代风力发电系统的影响
• 利用Growth Pipeline Engine（TM）加速成长机会
• 调查方法

成长机会分析

• 分析范围
• 生长促进因子
• 成长阻碍因素

下一代风力发电係统的技术展望

• 介绍
• 浮体式支撑结构可利用深海优良的风势
• 浮体式风力发电支撑技术分析
• 提高浮体式支架性能的创新方法
• 无叶片设计使风力发电机更具成本效益
• 创新设计提高涡流风力发电机的效率
• 利用 AWES 实现可靠且经济高效的发电
• 垂直轴设计可在湍流低速风中能源产出
• 直驱设计使风力发电机更具成本效益
• 由于直接驱动技术的功能，未来普及的确定性
• 风电新技术比较

特色企业

• 下一代风力发电领域的知名企业

下一代风力发电技术智慧财产权分析

• 中国和美国垄断了下一代风力发电技术的专利格局

成长机会宇宙

• 成长机会1：将浮体式海上风电与其他可再生能源发电技术结合
• 成长机会 2：将浮体式风力发电厂改造成燃料库设施
• 成长机会3：结合传统技术部署下一代风力发电係统

附录

• 技术成熟度等级 (TRL)：解释

下一步

"Innovative Design Approaches and Enhanced Cost-efficiency, Reliability, and Sustainability are Driving Transformational Growth."

Wind energy is expected to play a vital role in achieving emission reduction targets across industries. However, conventional wind energy systems face several challenges, including limited land availability, intermittent power generation, and the inability to exploit low- and high-speed wind environments. This report studies the next-generation wind systems' potential to address the challenges faced by conventional wind turbines. It comprises a deep-dive analysis of next-generation wind energy technology, covering the fundamentals, working principles, technology capability, applications, and commercial readiness levels of emerging systems, including floating wind energy systems, bladeless wind turbines, airborne wind energy systems (AWESs), vertical-axis wind turbines (VAWTs), and direct-drive wind turbines.

The report includes case studies showcasing innovative design approaches to wind generation and examines the patent landscape of next-generation wind energy technology. It also highlights the key stakeholders developing innovative wind energy solutions in the energy sector. The study identifies the factors driving and restraining the next-generation wind energy system market and concludes by providing a detailed analysis of the growth opportunities emerging from the changes in this space for developers and operators to leverage.

Table of Contents

Strategic Imperatives

• Why Is It Increasingly Difficult to Grow?The Strategic Imperative 8™: Factors Creating Pressure on Growth
• The Strategic Imperative 8™
• The Impact of the Top 3 Strategic Imperatives on Next-generation Wind Energy Systems
• Growth Opportunities Fuel the Growth Pipeline Engine™
• Research Methodology

Growth Opportunity Analysis

• Scope of Analysis
• Growth Drivers
• Growth Restraints

Technology Landscape of Next-generation Wind Energy Systems

• Introduction
• Floating Support Structures Enable Superior Wind Potential Utilization in Deep Water
• Floating Wind Energy Support Technology Analysis
• Innovative Approaches that Enhance Floating Support Performance
• Bladeless Design Enhances the Cost-effectiveness of the Wind Turbine
• Innovative Design Enhances Vortex Wind Turbine Efficiency
• AWESs Achieve Reliable and Cost-effective Energy Generation
• Vertical Axis Design Enables Energy Generation in Turbulent, Low-speed Wind
• Direct-drive Design Enhances the Cost-efficiency of Wind Turbines
• Direct-drive Technology Capabilities Ensure Strong Future Adoption
• Emerging Wind Energy Generation Technology Comparison

Companies to Watch

• Companies to Watch in the Next-generation Wind Energy Sector

IP Analysis of the Next-generation Wind Energy Technologies

• China and the United States Dominate the Next-generation Wind Energy Technology Patent Landscape

Growth Opportunity Universe

• Growth Opportunity 1: Integration of Floating Wind with Other Renewable Energy Generation Technologies
• Growth Opportunity 2: Converting Floating Wind Farms into Bunkering Facilities
• Growth Opportunity 3: Deploying Next-generation Wind Energy Systems in Conjunction with Conventional Technologies

Appendix

• Technology Readiness Levels (TRL): Explanation

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