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市场调查报告书
商品编码
1563745

全球波浪能市场评估:依技术、应用、地区、机会和预测(2017-2031)

Wave Energy Market Assessment, By Technology, [Oscillating Water Column, Oscillating Body Converters, Overtopping Converters], By Application [Power Generation, Desalination, Others], By Region, Opportunities and Forecast, 2017-2031F
出版日期: | 出版商: Market Xcel - Markets and Data | 英文 232 Pages | 商品交期: 3-5个工作天内

价格

全球波浪能市场规模预计在2023年的5396万美元中将达到1.7825亿美元,在2024 -2031年的预测期间,其年复合成长率为16.11%。强调减少温室气体的排放以及向更环保和可持续的能源的转变推动全球波浪能市场的成长。波浪能具有多种优势,包括降低环境影响和提高可预测性,进而提高能源安全性。这些因素增加了波浪能在整体能源结构中的比例。

传输和吸收波浪能的过程可用于多种目的,包括海水淡化、环境保护和发电。波浪能技术目的是从深海获取电力,无论是陆上、近岸或海上。再生能源发电的主要来源之一是丰富的海浪。

例如,2024年1月,芬兰AW-ENERGY开发了WaveRoller,这是一种将海浪能转化为电能的技术。该设备在海岸附近运行,距离海岸约 0.3 至 2 km,深度为 8 至20 m。根据潮汐条件,它主要或完全被淹没并牢固地固定在海底。

本报告研究和分析了全球波浪能市场,提供市场规模和预测、市场动态以及主要参与者的状况。

目录

第1章 专案范围与定义

第2章 研究方法

第3章 执行摘要

第4章 全球波浪能市场展望(2017-2031)

  • 市场规模分析与预测
    • 金额
  • 市占率分析与预测
    • 依技术
    • 依用途
    • 依地区
    • 市占率分析:依公司划分(金额)(前5名公司及其他 -2023年)
  • 市场地图分析(2023年)
    • 依技术
    • 依用途
    • 依地区

第5章 北美波浪能市场展望(2017-2031)

  • 市场规模分析与预测
    • 金额
  • 市占率分析与预测
    • 依技术
    • 依用途
    • 占有率:依国家/地区
  • 每个国家市场的评估
    • 美国波浪能展望(2017-2031)
    • 加拿大
    • 墨西哥

第6章 欧洲波浪能市场展望(2017-2031)

  • 德国
  • 法国
  • 义大利
  • 英国
  • 俄罗斯
  • 荷兰
  • 西班牙
  • 土耳其
  • 波兰

第7章 亚太波浪能市场展望(2017-2031)

  • 印度
  • 中国
  • 日本
  • 澳洲
  • 越南
  • 韩国
  • 印尼
  • 菲律宾

第8章 南美波浪能市场展望(2017-2031)

  • 巴西
  • 阿根廷

第9章 中东与非洲波浪能市场展望(2017-2031年)

  • 沙乌地阿拉伯
  • 阿拉伯联合大公国
  • 南非

第10章 波特五力分析

第11章 PESTLE分析

第12章 市场机制

  • 市场驱动因素
  • 市场挑战

第13章 市场趋势与发展

第14章 25家生产工厂产能一览

第15章 竞合情势

  • 前5名市场领导者的竞争矩阵
  • 前5名的公司的SWOT 分析
  • 前10名主要企业状况
    • Ocean Renewable Power Company. Inc.
    • CorPower Ocean
    • Ocean Power Technologies.
    • SSE Renewables
    • Eco Wave Power Global AB
    • The European Marine Energy Centre Ltd
    • Orbital Marine
    • Mocean Energy
    • Nova Innovation Limited
    • Tacardo B.V

第16章 策略建议

第17章 关于本公司,免责声明

Product Code: MX11987

Global wave energy market is expected to observe a CAGR of 16.11% during the forecast period 2024-2031, rising from USD 53.96 million in 2023 to USD 178.25 million in 2031. The growing emphasis on lowering greenhouse gas emissions and switching to greener and more sustainable energy sources drive the growth of the global wave energy market. Wave energy offers several advantages, including a low environmental impact and high predictability, which enhances energy security. These factors contribute to an increasing share of wave energy in the overall energy mix.

The process of moving and absorbing wave energy is used for a variety of purposes, including desalination, environmental preservation, and power generation. Wave energy technology is designed to capture power from onshore, nearshore, or deep-water offshore locales. One of the main sources of power generated by renewable energy is the abundance of ocean waves.

For instance, in January 2024, a Finnish company, AW-ENERGY, created WaveRoller, a technology that converts ocean wave energy into electricity. This device operates on nearshore locations, approximately 0.3 to 2 km from the coast, at depths ranging from 8 to 20 meters. Depending on tidal conditions, it is primarily or completely submerged and securely anchored to the seabed.

Rising Grid Integration of Wave Energy to Drive the Market Growth

With the integration of wave energy with current electrical infrastructures, the production through wave energy has become more predictable and reliable. The smoother integration of variable energy sources, such as tides and waves, into the grid is made possible using modern grid integration technology. Integration guarantees a more steady and reliable power supply and reduces intermittency-related problems. Advances in grid integration assist in reducing energy production fluctuations by managing the inherent uncertainty of renewable energy sources.

The performance of wave energy systems is greatly improved by energy storage technology. The capture and storage of extra energy created during periods of peak output is made possible by solutions such as pumped hydro storage and modern battery systems. The stored energy could be subsequently released during times of low output. Through the strategic management of both production and storage, integrated systems enhance the overall energy efficiency and strengthen the dependability of wave energy as a sustainable renewable energy source.

For instance, in December 2023, in the Faroe Islands, Minesto put Dragon 12, the first tidal power plant into service, feeding the national grid of the United Kingdom with electricity produced by the sea.

Rapid Development in Renewable Energy Sector is Driving the Market Growth

Due to the rapid depletion of fossil fuels and growing environmental concerns, the wave energy market size is rising. Countries such as the United Kingdom have started initiatives for the expansion of clean energy, such as cutting technological costs, lowering carbon emissions, and developing technologies to evaluate the feasibility of a new source of electricity. Numerous technologies have been highlighted for their significance in lowering carbon emissions, including solar, wind, wave, and tidal energy.

For instance, in June 2024, the United Kingdom had over 30 GW of unused tidal stream and wave energy capacity, which could supply over one-third of its electricity needs. By 2028, the nation hopes to have more than 100 MW of tidal stream capacity, which will support green jobs and account for 80% of supply chain content expenditures. The United Kingdom's transition to net zero emissions depends on the outcome of the next parliament, which will convene from 2024 to 2029.

Government Initiatives Acting as a Catalyst

Government initiatives are pivotal in driving the growth and creating opportunities for the wave energy market. The government offers financial support, regulatory frameworks, and infrastructure development to overcome challenges associated with the commercialization of wave energy, which is fostering the long-term potential of wave energy as a reliable renewable energy source.

In several countries, governments offer tax incentives or credits for companies and investors that are involved in wave energy projects. The benefits reduce the financial burden on developers and make wave energy projects more attractive to private investors. Moreover, governments of developing countries are often establishing funds for specialized test facilities and demonstration projects for wave energy. The facilities provide developers with access to controlled environments to test wave energy technologies and evaluate their performance in real-world conditions.

Thus, government initiatives such as financial support, regulatory frameworks, investments in infrastructure, and facilitating international collaboration create the opportunities for energy market.

For instance, in September 2024, the United States Department of Energy decided to invest in marine energy, making USD 112.5 million available for the commercialization of wave energy technologies.

Power Generation Sector Holds the Highest Market

In the global wave energy market, the power-generating sector commands the largest market share, fueled by rising investments and advancements in technology. Wave energy is increasingly recognized as a viable renewable energy source that harnesses the kinetic energy of ocean waves to produce electricity. This technology is particularly advantageous for shallow waters near the shores, as it provides a non-invasive and low-profile solution for power generation.

One of the key benefits of submerged wave energy systems is their ability to operate without obstructing marine traffic or impacting coastal views, making them more acceptable to local communities and stakeholders. Additionally, these systems can be integrated into existing marine infrastructure, further enhancing their appeal.

While Europe has historically been a leader in wave energy technology, recent developments show that countries such as China and Israel are at the forefront of expanding their wave energy capacities. In 2022, China outpaced Europe in adding wave energy capacity, due to significant government investments and a growing commitment to renewable energy. This shift underscores a broader trend in which nations are increasingly focusing on sustainable power generation to meet their energy needs and combat climate change.

As wave energy technology continues to evolve, ongoing research and development efforts are expected to improve efficiency and reduce costs, creating it as an attractive option for energy generation. The combination of technological innovation, supportive government policies, and a growing global awareness of the need for sustainable energy solutions is expected to bolster the wave energy market further, positioning it as a critical component of the future energy landscape.

Europe to Hold the Largest Market Share

Europe holds the largest market share in the global wave energy market. The region is amongst the early adopters of technology and continuous investments in renewable energy. Scotland, Portugal, and Sweden have become important players in the European wave energy scene. The European Marine Energy Centre (EMEC) in Scotland has played a crucial role in the development and testing of wave energy technology. An ecosystem of innovative businesses, government-backed programs to increase wave energy production, and research institutes sustain Europe's share in the wave energy market.

For instance, in May 2024, Ocean Energy Europe (OEE) announced that EU funding and domestic revenue support were expected to facilitate the deployment of 137 MW of tidal and wave energy projects over the next five years.

Future Market Scenario (2024 - 2031F)

North America is investigating marine renewable sources in partnership with government, business, and academic institutions, which will uplift the wave energy market in the region.

Wave projects are being supported by Asia-Pacific countries, such as China and India, with government backing for the actual implementation. China has made significant R&D investments and established its turbine makers.

Technological developments, including better materials and energy converters, are expected to reduce prices and increase the viability of wave energy in comparison to other renewable energy sources.

Government regulations and financial incentives will remain crucial, with North America, Europe, and some parts of Asia-Pacific leading the way in the deployment of wave energy projects.

Key Players Landscape and Outlook

The global wave energy market is driven by the key players investing in research and development (R&D) and infrastructure. Companies are focused on employing innovative technologies to harness the energy of ocean waves. With increasing investments in renewable energy and government incentives, the market outlook is positive. However, high costs and technological constraints present challenges to the growth of the market, which is expected to be fueled by advancements in energy storage and grid integration. Europe currently leads the market, followed by North America and Asia-Pacific.

For instance, in March 2024, Orcas Power and Light Cooperative (OPALCO) in Washington State confirmed its partnership with Orbital Marine Power, a Scottish renewable energy company. This collaboration follows the selection of two marine energy projects by the United States Department of Energy (DOE), which awarded USD 6 million for the development of a pilot site for tidal energy research, development, and demonstration in 2021.

Similarly, in October 2023, researchers at the Indian Institute of Technology Madras (IIT Madras) patented a hybrid power generation system that harnesses tidal and wind energy. According to IIT Madras, this innovative energy conversion device can be deployed in coastal areas based on specific energy needs.

Table of Contents

1. Project Scope and Definitions

2. Research Methodology

3. Executive Summary

4. Global Wave Energy Market Outlook, 2017-2031F

  • 4.1. Market Size Analysis & Forecast
    • 4.1.1. By Value
  • 4.2. Market Share Analysis & Forecast
    • 4.2.1. By Technology
      • 4.2.1.1. Oscillating Water Column
      • 4.2.1.2. Oscillating Body Converters
      • 4.2.1.3. Overtopping Converters
    • 4.2.2. By Application
      • 4.2.2.1. Power Generation
      • 4.2.2.2. Desalination
      • 4.2.2.3. Others
    • 4.2.3. By Region
      • 4.2.3.1. North America
      • 4.2.3.2. Europe
      • 4.2.3.3. Asia-Pacific
      • 4.2.3.4. South America
      • 4.2.3.5. Middle East and Africa
    • 4.2.4. By Company Market Share Analysis (Top 5 Companies and Others - By Value, 2023)
  • 4.3. Market Map Analysis, 2023
    • 4.3.1. By Technology
    • 4.3.2. By Application
    • 4.3.3. By Region

5. North America Wave Energy Market Outlook, 2017-2031F*

  • 5.1. Market Size Analysis & Forecast
    • 5.1.1. By Value
  • 5.2. Market Share Analysis & Forecast
    • 5.2.1. By Technology
      • 5.2.1.1. Oscillating Water Column
      • 5.2.1.2. Oscillating Body Converters
      • 5.2.1.3. Overtopping Converters
    • 5.2.2. By Application
      • 5.2.2.1. Power Generation
      • 5.2.2.2. Desalination
      • 5.2.2.3. Others
    • 5.2.3. By Country Share
      • 5.2.3.1. United States
      • 5.2.3.2. Canada
      • 5.2.3.3. Mexico
  • 5.3. Country Market Assessment
    • 5.3.1. United States Wave Energy Outlook, 2017-2031F*
      • 5.3.1.1. Market Size Analysis & Forecast
        • 5.3.1.1.1. By Value
      • 5.3.1.2. Market Share Analysis & Forecast
      • 5.3.1.3. By Technology
        • 5.3.1.3.1. Oscillating Water Column
        • 5.3.1.3.2. Oscillating Body Converters
        • 5.3.1.3.3. Overtopping Converters
      • 5.3.1.4. By Application
        • 5.3.1.4.1. Power Generation
        • 5.3.1.4.2. Desalination
        • 5.3.1.4.3. Others
    • 5.3.2. Canada
    • 5.3.3. Mexico

All segments will be provided for all regions and countries covered

6. Europe Wave Energy Market Outlook, 2017-2031F

  • 6.1. Germany
  • 6.2. France
  • 6.3. Italy
  • 6.4. United Kingdom
  • 6.5. Russia
  • 6.6. Netherlands
  • 6.7. Spain
  • 6.8. Turkey
  • 6.9. Poland

7. Asia-Pacific Wave Energy Market Outlook, 2017-2031F

  • 7.1. India
  • 7.2. China
  • 7.3. Japan
  • 7.4. Australia
  • 7.5. Vietnam
  • 7.6. South Korea
  • 7.7. Indonesia
  • 7.8. Philippines

8. South America Wave Energy Market Outlook, 2017-2031F

  • 8.1. Brazil
  • 8.2. Argentina

9. Middle East and Africa Wave Energy Market Outlook, 2017-2031F

  • 9.1. Saudi Arabia
  • 9.2. UAE
  • 9.3. South Africa

10. Porter's Five Forces Analysis

11. PESTLE Analysis

12. Market Dynamics

  • 12.1. Market Drivers
  • 12.2. Market Challenges

13. Market Trends and Developments

14. List of 25 Production Plant Capacities

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. Ocean Renewable Power Company. Inc.
      • 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. CorPower Ocean
    • 15.3.3. Ocean Power Technologies.
    • 15.3.4. SSE Renewables
    • 15.3.5. Eco Wave Power Global AB
    • 15.3.6. The European Marine Energy Centre Ltd
    • 15.3.7. Orbital Marine
    • 15.3.8. Mocean Energy
    • 15.3.9. Nova Innovation Limited
    • 15.3.10. Tacardo B.V

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. Pricing Analysis of Products from Key Players
  • Table 2. Competition Matrix of Top 5 Market Leaders
  • Table 3. Mergers & Acquisitions/ Joint Ventures (If Applicable)
  • Table 4. About Us - Regions and Countries Where We Have Executed Client Projects

List of Figures

  • Figure 1. Global Wave Energy Market, By Value, In USD Million, 2017-2031F
  • Figure 2. Global Wave Energy Market Share (%), By Technology, 2017-2031F
  • Figure 3. Global Wave Energy Market Share (%), By Application, 2017-2031F
  • Figure 4. Global Wave Energy Market Share (%), By Region, 2017-2031F
  • Figure 5. North America Wave Energy Market, By Value, In USD Million, 2017-2031F
  • Figure 6. North America Wave Energy Market Share (%), By Technology, 2017-2031F
  • Figure 7. North America Wave Energy Market Share (%), By Application, 2017-2031F
  • Figure 8. North America Wave Energy Market Share (%), By Country, 2017-2031F
  • Figure 9. United States Wave Energy Market, By Value, In USD Million, 2017-2031F
  • Figure 10. United States Wave Energy Market Share (%), By Technology, 2017-2031F
  • Figure 11. United States Wave Energy Market Share (%), By Application, 2017-2031F
  • Figure 12. Canada Wave Energy Market, By Value, In USD Million, 2017-2031F
  • Figure 13. Canada Wave Energy Market Share (%), By Technology, 2017-2031F
  • Figure 14. Canada Wave Energy Market Share (%), By Application, 2017-2031F
  • Figure 15. Mexico Wave Energy Market, By Value, In USD Million, 2017-2031F
  • Figure 16. Mexico Wave Energy Market Share (%), By Technology, 2017-2031F
  • Figure 17. Mexico Wave Energy Market Share (%), By Application, 2017-2031F
  • Figure 18. Europe Wave Energy Market, By Value, In USD Million, 2017-2031F
  • Figure 19. Europe Wave Energy Market Share (%), By Technology, 2017-2031F
  • Figure 20. Europe Wave Energy Market Share (%), By Application, 2017-2031F
  • Figure 21. Europe Wave Energy Market Share (%), By Country, 2017-2031F
  • Figure 22. Germany Wave Energy Market, By Value, In USD Million, 2017-2031F
  • Figure 23. Germany Wave Energy Market Share (%), By Technology, 2017-2031F
  • Figure 24. Germany Wave Energy Market Share (%), By Application, 2017-2031F
  • Figure 25. France Wave Energy Market, By Value, In USD Million, 2017-2031F
  • Figure 26. France Wave Energy Market Share (%), By Technology, 2017-2031F
  • Figure 27. France Wave Energy Market Share (%), By Application, 2017-2031F
  • Figure 28. Italy Wave Energy Market, By Value, In USD Million, 2017-2031F
  • Figure 29. Italy Wave Energy Market Share (%), By Technology, 2017-2031F
  • Figure 30. Italy Wave Energy Market Share (%), By Application, 2017-2031F
  • Figure 31. United Kingdom Wave Energy Market, By Value, In USD Million, 2017-2031F
  • Figure 32. United Kingdom Wave Energy Market Share (%), By Technology, 2017-2031F
  • Figure 33. United Kingdom Wave Energy Market Share (%), By Application, 2017-2031F
  • Figure 34. Russia Wave Energy Market, By Value, In USD Million, 2017-2031F
  • Figure 35. Russia Wave Energy Market Share (%), By Technology, 2017-2031F
  • Figure 36. Russia Wave Energy Market Share (%), By Application, 2017-2031F
  • Figure 37. Netherlands Wave Energy Market, By Value, In USD Million, 2017-2031F
  • Figure 38. Netherlands Wave Energy Market Share (%), By Technology, 2017-2031F
  • Figure 39. Netherlands Wave Energy Market Share (%), By Application, 2017-2031F
  • Figure 40. Spain Wave Energy Market, By Value, In USD Million, 2017-2031F
  • Figure 41. Spain Wave Energy Market Share (%), By Technology, 2017-2031F
  • Figure 42. Spain Wave Energy Market Share (%), By Application, 2017-2031F
  • Figure 43. Turkey Wave Energy Market, By Value, In USD Million, 2017-2031F
  • Figure 44. Turkey Wave Energy Market Share (%), By Technology, 2017-2031F
  • Figure 45. Turkey Wave Energy Market Share (%), By Application, 2017-2031F
  • Figure 46. Poland Wave Energy Market, By Value, In USD Million, 2017-2031F
  • Figure 47. Poland Wave Energy Market Share (%), By Technology, 2017-2031F
  • Figure 48. Poland Wave Energy Market Share (%), By Application, 2017-2031F
  • Figure 49. South America Wave Energy Market, By Value, In USD Million, 2017-2031F
  • Figure 50. South America Wave Energy Market Share (%), By Technology, 2017-2031F
  • Figure 51. South America Wave Energy Market Share (%), By Application, 2017-2031F
  • Figure 52. South America Wave Energy Market Share (%), By Country, 2017-2031F
  • Figure 53. Brazil Wave Energy Market, By Value, In USD Million, 2017-2031F
  • Figure 54. Brazil Wave Energy Market Share (%), By Technology, 2017-2031F
  • Figure 55. Brazil Wave Energy Market Share (%), By Application, 2017-2031F
  • Figure 56. Argentina Wave Energy Market, By Value, In USD Million, 2017-2031F
  • Figure 57. Argentina Wave Energy Market Share (%), By Technology, 2017-2031F
  • Figure 58. Argentina Wave Energy Market Share (%), By Application, 2017-2031F
  • Figure 59. Asia-Pacific Wave Energy Market, By Value, In USD Million, 2017-2031F
  • Figure 60. Asia-Pacific Wave Energy Market Share (%), By Technology, 2017-2031F
  • Figure 61. Asia-Pacific Wave Energy Market Share (%), By Application, 2017-2031F
  • Figure 62. Asia-Pacific Wave Energy Market Share (%), By Country, 2017-2031F
  • Figure 63. India Wave Energy Market, By Value, In USD Million, 2017-2031F
  • Figure 64. India Wave Energy Market Share (%), By Technology, 2017-2031F
  • Figure 65. India Wave Energy Market Share (%), By Application, 2017-2031F
  • Figure 66. China Wave Energy Market, By Value, In USD Million, 2017-2031F
  • Figure 67. China Wave Energy Market Share (%), By Technology, 2017-2031F
  • Figure 68. China Wave Energy Market Share (%), By Application, 2017-2031F
  • Figure 69. Japan Wave Energy Market, By Value, In USD Million, 2017-2031F
  • Figure 70. Japan Wave Energy Market Share (%), By Technology, 2017-2031F
  • Figure 71. Japan Wave Energy Market Share (%), By Application, 2017-2031F
  • Figure 72. Australia Wave Energy Market, By Value, In USD Million, 2017-2031F
  • Figure 73. Australia Wave Energy Market Share (%), By Technology, 2017-2031F
  • Figure 74. Australia Wave Energy Market Share (%), By Application, 2017-2031F
  • Figure 75. Vietnam Wave Energy Market, By Value, In USD Million, 2017-2031F
  • Figure 76. Vietnam Wave Energy Market Share (%), By Technology, 2017-2031F
  • Figure 77. Vietnam Wave Energy Market Share (%), By Application, 2017-2031F
  • Figure 78. South Korea Wave Energy Market, By Value, In USD Million, 2017-2031F
  • Figure 79. South Korea Wave Energy Market Share (%), By Technology, 2017-2031F
  • Figure 80. South Korea Wave Energy Market Share (%), By Application, 2017-2031F
  • Figure 81. Indonesia Wave Energy Market, By Value, In USD Million, 2017-2031F
  • Figure 82. Indonesia Wave Energy Market Share (%), By Technology, 2017-2031F
  • Figure 83. Indonesia Wave Energy Market Share (%), By Application, 2017-2031F
  • Figure 84. Philippines Wave Energy Market, By Value, In USD Million, 2017-2031F
  • Figure 85. Philippines Wave Energy Market Share (%), By Technology, 2017-2031F
  • Figure 86. Philippines Wave Energy Market Share (%), By Application, 2017-2031F
  • Figure 87. Middle East & Africa Wave Energy Market, By Value, In USD Million, 2017-2031F
  • Figure 88. Middle East & Africa Wave Energy Market Share (%), By Technology, 2017-2031F
  • Figure 89. Middle East & Africa Wave Energy Market Share (%), By Application, 2017-2031F
  • Figure 90. Middle East & Africa Wave Energy Market Share (%), By Country, 2017-2031F
  • Figure 91. Saudi Arabia Wave Energy Market, By Value, In USD Million, 2017-2031F
  • Figure 92. Saudi Arabia Wave Energy Market Share (%), By Technology, 2017-2031F
  • Figure 93. Saudi Arabia Wave Energy Market Share (%), By Application, 2017-2031F
  • Figure 94. UAE Wave Energy Market, By Value, In USD Million, 2017-2031F
  • Figure 95. UAE Wave Energy Market Share (%), By Technology, 2017-2031F
  • Figure 96. UAE Wave Energy Market Share (%), By Application, 2017-2031F
  • Figure 97. South Africa Wave Energy Market, By Value, In USD Million, 2017-2031F
  • Figure 98. South Africa Wave Energy Market Share (%), By Technology, 2017-2031F
  • Figure 99. South Africa Wave Energy Market Share (%), By Application, 2017-2031F
  • Figure 100. By Technology Map-Market Size (USD Million) & Growth Rate (%), 2023
  • Figure 101. By Application Map-Market Size (USD Million) & Growth Rate (%), 2023
  • Figure 102. By Region Map-Market Size (USD Million) & Growth Rate (%), 2023