2025年废热发电（WHP）全球市场报告

预计未来几年，废热发电 (WHP) 市场规模将快速成长，到 2029 年将达到 322.8 亿美元，复合年增长率为 11.9%。预测期内的成长归因于电力需求成长、政府措施以及投资增加。预测期内的主要趋势包括伙伴关係关係、无铅废弃物能源回收材料的开发、利用热电材料直接回收废弃物的兴起以及产品创新。

未来五年预测成长率为11.9%，较我们先前对该市场的预测略有下降0.3%。这一下降主要源自于美国与其他国家之间关税的影响。关税的实施，尤其是对从欧洲和日本进口的高效涡轮机和热交换器征收关税，可能会阻碍美国余热发电（WHP）系统的发展，增加资本支出，并降低工业復苏计划的财务可行性。此外，互惠关税以及不断升级的贸易紧张局势和限制对全球经济和贸易造成的负面影响可能会产生更广泛的影响。

预计未来几年，工业部门的成长将显着推动电力市场余热利用。影响工业成长的关键因素包括资本投入、劳动投入、金融投资和技术创新。特别是非金属矿物生产、石油精炼和重金属生产等产业为余热回收提供了重要的机会。例如，美国政府机构美国国家标准与技术研究院 (NIST) 在 2023 年 12 月报告称，製造业将在 2022 年为美国GDP 贡献 2.3 兆美元，占 GDP 总量的 11.4%。此外，2020 年 7 月至 2022 年 7 月期间，所有製造业的生产者价格上涨了 33.4%。因此，工业部门的成长正在推动电力市场余热利用的扩张。

目录

第一章执行摘要

第二章 市场特征

第三章 市场趋势与策略

第四章 市场：宏观经济情景，包括利率、通膨、地缘政治、贸易战和关税，以及新冠疫情和復苏对市场的影响

第五章 全球成长分析与策略分析框架

• 全球废热发电（WHP）：PESTEL分析（政治、社会、技术、环境、法律因素、驱动因素与限制因素）
• 最终用途产业分析
• 全球废热发电（WHP）市场：成长率分析
• 全球废热发电 (WHP) 市场表现：规模与成长，2019-2024 年
• 全球余热发电 (WHP) 市场预测：2024-2029 年及 2034 年规模与成长
• 全球废热发电 (WHP)：总目标市场 (TAM)

第六章市场区隔

• 全球余热发电 (WHP) 市场：依产品、绩效及预测，2019-2024 年、2024-2029 年、2034 年
• 蒸汽朗肯迴圈
• 有机朗肯迴圈
• 卡丽娜循环
• 全球余热发电 (WHP) 市场：按应用、性能和预测，2019-2024 年、2024-2029 年、2034 年
• 预热
• 蒸气和发电
• 其他用途
• 全球余热发电 (WHP) 市场：依最终用途、实际及预测，2019-2024 年、2024-2029 年、2034 年
• 石油精炼
• 水泥工业
• 重金属生产
• 化工
• 纸浆和造纸
• 食品/饮料
• 玻璃工业
• 其他最终用户
• 全球余热发电 (WHP) 市场、蒸汽朗肯迴圈细分、按类型、性能和预测，2019-2024 年、2024-2029 年、2034 年
• 传统蒸气朗肯迴圈
• 超临界蒸气朗肯迴圈
• 全球废热发电 (WHP) 市场，按有机朗肯迴圈类型细分，绩效及预测，2019-2024 年、2024-2029 年、2034 年
• 干有机朗肯迴圈
• 湿式有机朗肯迴圈
• 等温有机朗肯迴圈
• 全球余热发电 (WHP) 市场、卡利纳循环细分（按类型）、业绩及预测，2019-2024 年、2024-2029 年、2034 年
• 氨水卡林纳循环
• 乙醇-水卡林纳循环

第七章 区域和国家分析

• 全球废热发电 (WHP) 市场：区域表现及预测（2019-2024 年、2024-2029 年及 2034 年）
• 全球余热发电 (WHP) 市场：按国家/地区、绩效及预测，2019-2024 年、2024-2029 年、2034 年

第八章 亚太市场

第九章：中国市场

第十章 印度市场

第十一章 日本市场

第十二章：澳洲市场

第十三章 印尼市场

第十四章 韩国市场

第十五章：西欧市场

第十六章英国市场

第十七章：德国市场

第十八章：法国市场

第十九章：义大利市场

第20章：西班牙市场

第21章 东欧市场

第22章：俄罗斯市场

第23章 北美市场

第24章美国市场

第25章：加拿大市场

第26章 南美洲市场

第27章：巴西市场

第28章 中东市场

第29章：非洲市场

第30章：竞争格局与公司概况

• 废热发电（WHP）市场：竞争格局
• 废热发电（WHP）市场：公司简介
  • Mitsubishi Heavy Industries Ltd Overview, Products and Services, Strategy and Financial Analysis
  • Bosch Thermotechnology Overview, Products and Services, Strategy and Financial Analysis
  • Ormat Technologies Overview, Products and Services, Strategy and Financial Analysis
  • IHI Corporation Overview, Products and Services, Strategy and Financial Analysis
  • Durr Group Overview, Products and Services, Strategy and Financial Analysis

第31章：其他领先和创新企业

• Thermax Limited
• Exergy SPA
• Siemens Energy
• ElectraTherm
• Enogia SAS
• Shenzhen Energy Group
• Kawasaki Heavy Industries Ltd
• Siemens AG
• Orcan Energy
• Vital Energi
• EDF Energy
• E. ON Next
• ScottishPower
• Shell Energy
• Hitachi Zosen Inova（HZI）

第 32 章全球市场竞争基准化分析与仪表板

第33章 重大併购

第34章近期市场趋势

第 35 章：高潜力市场国家、细分市场与策略

• 2029年废热发电（WHP）市场：提供新机会的国家
• 2029年余热发电（WHP）市场：细分领域带来新机会
• 2029年废热发电（WHP）市场：成长策略
  • 基于市场趋势的策略
  • 竞争对手的策略

第36章 附录

Waste heat to power refers to the process of harnessing heat discarded by an existing thermal process to generate electricity, thereby reducing pollution, equipment size, and auxiliary energy consumption.

The primary methods in waste heat to power are the steam Rankine cycle, the organic Rankine cycle, and the Kalina cycle. The steam Rankine cycle is a simplified thermodynamic process where heat converts into mechanical work within a constant-pressure heat engine. This cycle typically employs water (in liquid and vapor phases) as its working fluid. Applications of waste heat to power include preheating, steam and electricity generation, among others, across various industries such as petroleum refining, oil and gas extraction, cement, heavy metal production, chemicals, pulp and paper, food and beverage, glass manufacturing, and more.

Note that the outlook for this market is being affected by rapid changes in trade relations and tariffs globally. The report will be updated prior to delivery to reflect the latest status, including revised forecasts and quantified impact analysis. The report's Recommendations and Conclusions sections will be updated to give strategies for entities dealing with the fast-moving international environment.

The sharp rise in U.S. tariffs and the ensuing trade tensions in spring 2025 are having a notable impact on the utilities sector, particularly across power generation, grid modernization, and renewable energy initiatives. Increased duties on imported equipment such as turbines, transformers, solar panels, and battery storage systems are driving up both capital and operational expenses for utility companies, prompting many to delay projects or pass higher costs on to consumers through increased energy rates. The water and waste management sectors are similarly affected, as tariffs inflate the cost of essential machinery, piping, and treatment technologies. Moreover, retaliatory tariffs from key trading partners have disrupted the supply of critical raw materials-such as rare earth elements vital for clean energy technologies-posing further challenges to the shift toward sustainable energy. In response, the sector is increasingly focusing on domestic procurement, digital transformation, and efficiency-enhancing innovations to control rising costs while safeguarding energy reliability and meeting regulatory demands.

The waste heat to power market research report is one of a series of new reports from The Business Research Company that provides waste heat to power market statistics, including waste heat to power industry global market size, regional shares, competitors with a waste heat to power market share, detailed waste heat to power market segments, market trends and opportunities, and any further data you may need to thrive in the waste heat to the power industry. This waste heat to power market research report delivers a complete perspective of everything you need, with an in-depth analysis of the current and future scenario of the industry.

The waste heat to power market size has grown rapidly in recent years. It will grow from $18.58 billion in 2024 to $20.61 billion in 2025 at a compound annual growth rate (CAGR) of 10.9%. The growth in the historic period can be attributed to increasing demand for clean energy, strong economic growth in emerging markets and growth in industrial sector.

The waste heat to power market size is expected to see rapid growth in the next few years. It will grow to $32.28 billion in 2029 at a compound annual growth rate (CAGR) of 11.9%. The growth in the forecast period can be attributed to rising electricity demand, government initiatives and increasing investments. Major trends in the forecast period include partnership & collaboration, development of lead-free materials for waste power recovery, emergence of direct waste recovery using thermoelectric materials and product innovation.

The forecast of 11.9% growth over the next five years reflects a modest reduction of 0.3% from the previous estimate for this market. This reduction is primarily due to the impact of tariffs between the US and other countries. The enforcement of tariffs on imported high-efficiency turbines and heat exchangers especially from Europe and Japan may hinder the development of waste heat to power systems in the U.S., increasing capital expenditure and reducing the financial viability of industrial recovery projects. The effect will also be felt more widely due to reciprocal tariffs and the negative effect on the global economy and trade due to increased trade tensions and restrictions.

The growth of the industrial sector is expected to significantly boost the waste heat in the power market in the coming years. Key factors influencing industrial growth include capital investment, labor input, financial investment, and technological innovation. Notably, sectors such as non-metallic mineral production, petroleum refining, and heavy metal production present substantial opportunities for waste heat recovery. For example, in December 2023, the National Institute of Standards and Technology (NIST), a US-based government agency, reported that manufacturing contributed $2.3 trillion to the U.S. GDP in 2022, representing 11.4% of the total GDP. Additionally, producer prices for all manufacturing increased by 33.4% between July 2020 and July 2022. Thus, the growth in the industrial sector is driving the expansion of waste heat in the power market.

Government initiatives aimed at maximizing energy efficiency are poised to be key drivers for the waste heat to power market. Notably, government actions focusing on the management of waste heat in industries such as oil, gas, and cement are expected to have a positive impact on the market. An illustrative example is the announcement made by the government of India in January 2022. India has outlined ambitious targets, aiming to achieve net-zero emissions by 2070 and secure 50% of its electricity needs from renewable sources by 2030. This commitment reflects a novel approach to economic growth, sidestepping carbon-intensive strategies and potentially serving as a model for other emerging markets. The backing of government initiatives is expected to provide robust support for the waste heat to power market in the future.

Major companies in the waste-to-heat market are focusing on innovative pilot projects to develop and demonstrate advanced technologies for capturing and converting waste heat into usable energy. These projects aim to capture excess hydrothermal energy and convert it into grid-quality power, aligning with waste heat recovery objectives. For instance, in November 2022, Extract Energy, a Canada-based energy technology company, launched a pilot project in Hamilton, Ontario. This initiative focuses on capturing excess hydrothermal energy from a district heating and cooling plant and converting it into grid-quality power using their innovative Heat Engine, which features a nickel-titanium core. This technology is designed to target waste heat in the range of 70°C to 150°C, addressing the significant global energy loss of approximately 65%.

Partnerships and collaborations are emerging as key trends in the waste heat to power market. Companies in this sector are increasingly joining forces to strengthen their market position. For example, in September 2022, Transitional Energy, a US-based geothermal technology company, partnered with ElectraTherm, Inc., a US-based provider of waste heat recovery solutions, to convert waste heat to power in the oil and gas industry. This collaboration aims to enhance energy efficiency and reduce emissions, promoting more sustainable practices in a sector known for generating substantial waste heat. By leveraging geothermal technology alongside waste heat recovery solutions, this partnership seeks to effectively transform waste heat into usable power within the oil and gas industry.

In May 2022, Yokogawa Electric Corporation, a Japan-based engineering company, acquired Dublix Technology ApS for an undisclosed amount. This acquisition is intended to enhance Yokogawa's portfolio of solutions for waste-to-energy and biomass power plants by integrating Dublix Technology's advanced combustion control and boiler performance optimization technologies. The goal is to improve operational efficiency, reduce environmental impact, and support the increasing demand for sustainable energy generation.

Major companies operating in the waste heat to power market include Mitsubishi Heavy Industries Ltd, Bosch Thermotechnology, Ormat Technologies, IHI Corporation, Durr Group, Thermax Limited, Exergy SPA, Siemens Energy, ElectraTherm, Enogia SAS, Shenzhen Energy Group, Kawasaki Heavy Industries Ltd, Siemens AG, Orcan Energy, Vital Energi, EDF Energy, E. ON Next, ScottishPower, Shell Energy, Hitachi Zosen Inova (HZI), EcoTerra BioGas, CEZ Group, Romelectro, ZiO-Podolsk, Notus Energy, Polish Energy Group

Europe was the largest region in the waste heat to power market in 2024. The regions covered in the waste heat to power market report are Asia-Pacific, Western Europe, Eastern Europe, North America, South America, Middle East, Africa.

The countries covered in the waste heat to power market report are Australia, Brazil, China, France, Germany, India, Indonesia, Japan, Russia, South Korea, UK, USA, Italy, Spain, Canada.

The waste heat to power market includes revenues earned by entities by providing services such as ORC, steam cycle, and cascaded steam-organic cycle. The market value includes the value of related goods sold by the service provider or included within the service offering. Only goods and services traded between entities or sold to end consumers are included.

The market value is defined as the revenues that enterprises gain from the sale of goods and/or services within the specified market and geography through sales, grants, or donations in terms of the currency (in USD unless otherwise specified).

The revenues for a specified geography are consumption values that are revenues generated by organizations in the specified geography within the market, irrespective of where they are produced. It does not include revenues from resales along the supply chain, either further along the supply chain or as part of other products.

Waste Heat to Power Global Market Report 2025 from The Business Research Company provides strategists, marketers and senior management with the critical information they need to assess the market.

This report focuses on waste heat to power market which is experiencing strong growth. The report gives a guide to the trends which will be shaping the market over the next ten years and beyond.

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Where is the largest and fastest growing market for waste heat to power ? How does the market relate to the overall economy, demography and other similar markets? What forces will shape the market going forward, including technological disruption, regulatory shifts, and changing consumer preferences? The waste heat to power market global report from the Business Research Company answers all these questions and many more.

The report covers market characteristics, size and growth, segmentation, regional and country breakdowns, competitive landscape, market shares, trends and strategies for this market. It traces the market's historic and forecast market growth by geography.

• The market characteristics section of the report defines and explains the market.
• The market size section gives the market size ($b) covering both the historic growth of the market, and forecasting its development.
• The forecasts are made after considering the major factors currently impacting the market. These include:

The forecasts are made after considering the major factors currently impacting the market. These include the technological advancements such as AI and automation, Russia-Ukraine war, trade tariffs (government-imposed import/export duties), elevated inflation and interest rates.

• Market segmentations break down the market into sub markets.
• The regional and country breakdowns section gives an analysis of the market in each geography and the size of the market by geography and compares their historic and forecast growth.
• The competitive landscape chapter gives a description of the competitive nature of the market, market shares, and a description of the leading companies. Key financial deals which have shaped the market in recent years are identified.
• The trends and strategies section analyses the shape of the market as it emerges from the crisis and suggests how companies can grow as the market recovers.

Scope

• Markets Covered:1) By Product: Steam Rankine Cycle, Organic Rankine Cycle, Kalina Cycle
• 2) By Application: Preheating, Steam And Electricity Generation, Other Applications
• 3) By End Users: Petroleum Refining And Oil & Gas Extraction, Cement Industry, Heavy Metal Production, Chemical Industry, Pulp And Paper, Food And Beverage, Glass Industry, Other End Users
• Subsegments:
• 1) By Steam Rankine Cycle: Conventional Steam Rankine Cycle; Supercritical Steam Rankine Cycle
• 2) By Organic Rankine Cycle: Dry Organic Rankine Cycle; Wet Organic Rankine Cycle; Isothermal Organic Rankine Cycle
• 3) By Kalina Cycle: Ammonia-Water Kalina Cycle; Ethanol-Water Kalina Cycle
• Companies Mentioned: Mitsubishi Heavy Industries Ltd; Bosch Thermotechnology; Ormat Technologies; IHI Corporation; Durr Group; Thermax Limited; Exergy SPA; Siemens Energy; ElectraTherm; Enogia SAS; Shenzhen Energy Group; Kawasaki Heavy Industries Ltd; Siemens AG; Orcan Energy; Vital Energi; EDF Energy; E. ON Next; ScottishPower; Shell Energy; Hitachi Zosen Inova (HZI); EcoTerra BioGas; CEZ Group; Romelectro; ZiO-Podolsk; Notus Energy; Polish Energy Group
• Countries: Australia; Brazil; China; France; Germany; India; Indonesia; Japan; Russia; South Korea; UK; USA; Canada; Italy; Spain
• Regions: Asia-Pacific; Western Europe; Eastern Europe; North America; South America; Middle East; Africa
• Time Series: Five years historic and ten years forecast.
• Data: Ratios of market size and growth to related markets, GDP proportions, expenditure per capita,
• Data Segmentations: country and regional historic and forecast data, market share of competitors, market segments.
• Sourcing and Referencing: Data and analysis throughout the report is sourced using end notes.
• Delivery Format: PDF, Word and Excel Data Dashboard.

Table of Contents

1. Executive Summary

2. Waste Heat to Power Market Characteristics

3. Waste Heat to Power Market Trends And Strategies

4. Waste Heat to Power Market - Macro Economic Scenario Including The Impact Of Interest Rates, Inflation, Geopolitics, Trade Wars and Tariffs, And Covid And Recovery On The Market

• 4.1. Supply Chain Impact from Tariff War & Trade Protectionism

5. Global Waste Heat to Power Growth Analysis And Strategic Analysis Framework

• 5.1. Global Waste Heat to Power PESTEL Analysis (Political, Social, Technological, Environmental and Legal Factors, Drivers and Restraints)
• 5.2. Analysis Of End Use Industries
• 5.3. Global Waste Heat to Power Market Growth Rate Analysis
• 5.4. Global Waste Heat to Power Historic Market Size and Growth, 2019 - 2024, Value ($ Billion)
• 5.5. Global Waste Heat to Power Forecast Market Size and Growth, 2024 - 2029, 2034F, Value ($ Billion)
• 5.6. Global Waste Heat to Power Total Addressable Market (TAM)

6. Waste Heat to Power Market Segmentation

• 6.1. Global Waste Heat to Power Market, Segmentation By Product, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion
• Steam Rankine Cycle
• Organic Rankine Cycle
• Kalina Cycle
• 6.2. Global Waste Heat to Power Market, Segmentation By Application, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion
• Preheating
• Steam And Electricity Generation
• Other Applications
• 6.3. Global Waste Heat to Power Market, Segmentation By End Use, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion
• Petroleum Refining
• Cement Industry
• Heavy Metal Production
• Chemical Industry
• Pulp And Paper
• Food And Beverage
• Glass Industry
• Other End Users
• 6.4. Global Waste Heat to Power Market, Sub-Segmentation Of Steam Rankine Cycle, By Type, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion
• Conventional Steam Rankine Cycle
• Supercritical Steam Rankine Cycle
• 6.5. Global Waste Heat to Power Market, Sub-Segmentation Of Organic Rankine Cycle, By Type, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion
• Dry Organic Rankine Cycle
• Wet Organic Rankine Cycle
• Isothermal Organic Rankine Cycle
• 6.6. Global Waste Heat to Power Market, Sub-Segmentation Of Kalina Cycle, By Type, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion
• Ammonia-Water Kalina Cycle
• Ethanol-Water Kalina Cycle

7. Waste Heat to Power Market Regional And Country Analysis

• 7.1. Global Waste Heat to Power Market, Split By Region, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion
• 7.2. Global Waste Heat to Power Market, Split By Country, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion

8. Asia-Pacific Waste Heat to Power Market

• 8.1. Asia-Pacific Waste Heat to Power Market Overview
• Region Information, Market Information, Background Information, Government Initiatives, Regulations, Regulatory Bodies, Major Associations, Taxes Levied, Corporate Tax Structure, Investments, Major Companies
• 8.2. Asia-Pacific Waste Heat to Power Market, Segmentation By Product, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion
• 8.3. Asia-Pacific Waste Heat to Power Market, Segmentation By Application, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion
• 8.4. Asia-Pacific Waste Heat to Power Market, Segmentation By End Use, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion

9. China Waste Heat to Power Market

• 9.1. China Waste Heat to Power Market Overview
• 9.2. China Waste Heat to Power Market, Segmentation By Product, Historic and Forecast, 2019-2024, 2024-2029F, 2034F,$ Billion
• 9.3. China Waste Heat to Power Market, Segmentation By Application, Historic and Forecast, 2019-2024, 2024-2029F, 2034F,$ Billion
• 9.4. China Waste Heat to Power Market, Segmentation By End Use, Historic and Forecast, 2019-2024, 2024-2029F, 2034F,$ Billion

10. India Waste Heat to Power Market

• 10.1. India Waste Heat to Power Market, Segmentation By Product, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion
• 10.2. India Waste Heat to Power Market, Segmentation By Application, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion
• 10.3. India Waste Heat to Power Market, Segmentation By End Use, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion

11. Japan Waste Heat to Power Market

• 11.1. Japan Waste Heat to Power Market Overview
• 11.2. Japan Waste Heat to Power Market, Segmentation By Product, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion
• 11.3. Japan Waste Heat to Power Market, Segmentation By Application, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion
• 11.4. Japan Waste Heat to Power Market, Segmentation By End Use, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion

12. Australia Waste Heat to Power Market

• 12.1. Australia Waste Heat to Power Market, Segmentation By Product, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion
• 12.2. Australia Waste Heat to Power Market, Segmentation By Application, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion
• 12.3. Australia Waste Heat to Power Market, Segmentation By End Use, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion

13. Indonesia Waste Heat to Power Market

• 13.1. Indonesia Waste Heat to Power Market, Segmentation By Product, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion
• 13.2. Indonesia Waste Heat to Power Market, Segmentation By Application, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion
• 13.3. Indonesia Waste Heat to Power Market, Segmentation By End Use, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion

14. South Korea Waste Heat to Power Market

• 14.1. South Korea Waste Heat to Power Market Overview
• 14.2. South Korea Waste Heat to Power Market, Segmentation By Product, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion
• 14.3. South Korea Waste Heat to Power Market, Segmentation By Application, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion
• 14.4. South Korea Waste Heat to Power Market, Segmentation By End Use, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion

15. Western Europe Waste Heat to Power Market

• 15.1. Western Europe Waste Heat to Power Market Overview
• 15.2. Western Europe Waste Heat to Power Market, Segmentation By Product, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion
• 15.3. Western Europe Waste Heat to Power Market, Segmentation By Application, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion
• 15.4. Western Europe Waste Heat to Power Market, Segmentation By End Use, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion

16. UK Waste Heat to Power Market

• 16.1. UK Waste Heat to Power Market, Segmentation By Product, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion
• 16.2. UK Waste Heat to Power Market, Segmentation By Application, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion
• 16.3. UK Waste Heat to Power Market, Segmentation By End Use, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion

17. Germany Waste Heat to Power Market

• 17.1. Germany Waste Heat to Power Market, Segmentation By Product, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion
• 17.2. Germany Waste Heat to Power Market, Segmentation By Application, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion
• 17.3. Germany Waste Heat to Power Market, Segmentation By End Use, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion

18. France Waste Heat to Power Market

• 18.1. France Waste Heat to Power Market, Segmentation By Product, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion
• 18.2. France Waste Heat to Power Market, Segmentation By Application, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion
• 18.3. France Waste Heat to Power Market, Segmentation By End Use, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion

19. Italy Waste Heat to Power Market

• 19.1. Italy Waste Heat to Power Market, Segmentation By Product, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion
• 19.2. Italy Waste Heat to Power Market, Segmentation By Application, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion
• 19.3. Italy Waste Heat to Power Market, Segmentation By End Use, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion

20. Spain Waste Heat to Power Market

• 20.1. Spain Waste Heat to Power Market, Segmentation By Product, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion
• 20.2. Spain Waste Heat to Power Market, Segmentation By Application, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion
• 20.3. Spain Waste Heat to Power Market, Segmentation By End Use, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion

21. Eastern Europe Waste Heat to Power Market

• 21.1. Eastern Europe Waste Heat to Power Market Overview
• 21.2. Eastern Europe Waste Heat to Power Market, Segmentation By Product, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion
• 21.3. Eastern Europe Waste Heat to Power Market, Segmentation By Application, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion
• 21.4. Eastern Europe Waste Heat to Power Market, Segmentation By End Use, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion

22. Russia Waste Heat to Power Market

• 22.1. Russia Waste Heat to Power Market, Segmentation By Product, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion
• 22.2. Russia Waste Heat to Power Market, Segmentation By Application, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion
• 22.3. Russia Waste Heat to Power Market, Segmentation By End Use, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion

23. North America Waste Heat to Power Market

• 23.1. North America Waste Heat to Power Market Overview
• 23.2. North America Waste Heat to Power Market, Segmentation By Product, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion
• 23.3. North America Waste Heat to Power Market, Segmentation By Application, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion
• 23.4. North America Waste Heat to Power Market, Segmentation By End Use, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion

24. USA Waste Heat to Power Market

• 24.1. USA Waste Heat to Power Market Overview
• 24.2. USA Waste Heat to Power Market, Segmentation By Product, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion
• 24.3. USA Waste Heat to Power Market, Segmentation By Application, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion
• 24.4. USA Waste Heat to Power Market, Segmentation By End Use, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion

25. Canada Waste Heat to Power Market

• 25.1. Canada Waste Heat to Power Market Overview
• 25.2. Canada Waste Heat to Power Market, Segmentation By Product, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion
• 25.3. Canada Waste Heat to Power Market, Segmentation By Application, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion
• 25.4. Canada Waste Heat to Power Market, Segmentation By End Use, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion

26. South America Waste Heat to Power Market

• 26.1. South America Waste Heat to Power Market Overview
• 26.2. South America Waste Heat to Power Market, Segmentation By Product, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion
• 26.3. South America Waste Heat to Power Market, Segmentation By Application, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion
• 26.4. South America Waste Heat to Power Market, Segmentation By End Use, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion

27. Brazil Waste Heat to Power Market

• 27.1. Brazil Waste Heat to Power Market, Segmentation By Product, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion
• 27.2. Brazil Waste Heat to Power Market, Segmentation By Application, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion
• 27.3. Brazil Waste Heat to Power Market, Segmentation By End Use, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion

28. Middle East Waste Heat to Power Market

• 28.1. Middle East Waste Heat to Power Market Overview
• 28.2. Middle East Waste Heat to Power Market, Segmentation By Product, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion
• 28.3. Middle East Waste Heat to Power Market, Segmentation By Application, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion
• 28.4. Middle East Waste Heat to Power Market, Segmentation By End Use, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion

29. Africa Waste Heat to Power Market

• 29.1. Africa Waste Heat to Power Market Overview
• 29.2. Africa Waste Heat to Power Market, Segmentation By Product, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion
• 29.3. Africa Waste Heat to Power Market, Segmentation By Application, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion
• 29.4. Africa Waste Heat to Power Market, Segmentation By End Use, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion

30. Waste Heat to Power Market Competitive Landscape And Company Profiles

• 30.1. Waste Heat to Power Market Competitive Landscape
• 30.2. Waste Heat to Power Market Company Profiles
  • 30.2.1. Mitsubishi Heavy Industries Ltd Overview, Products and Services, Strategy and Financial Analysis
  • 30.2.2. Bosch Thermotechnology Overview, Products and Services, Strategy and Financial Analysis
  • 30.2.3. Ormat Technologies Overview, Products and Services, Strategy and Financial Analysis
  • 30.2.4. IHI Corporation Overview, Products and Services, Strategy and Financial Analysis
  • 30.2.5. Durr Group Overview, Products and Services, Strategy and Financial Analysis

31. Waste Heat to Power Market Other Major And Innovative Companies

• 31.1. Thermax Limited
• 31.2. Exergy SPA
• 31.3. Siemens Energy
• 31.4. ElectraTherm
• 31.5. Enogia SAS
• 31.6. Shenzhen Energy Group
• 31.7. Kawasaki Heavy Industries Ltd
• 31.8. Siemens AG
• 31.9. Orcan Energy
• 31.10. Vital Energi
• 31.11. EDF Energy
• 31.12. E. ON Next
• 31.13. ScottishPower
• 31.14. Shell Energy
• 31.15. Hitachi Zosen Inova (HZI)

32. Global Waste Heat to Power Market Competitive Benchmarking And Dashboard

33. Key Mergers And Acquisitions In The Waste Heat to Power Market

34. Recent Developments In The Waste Heat to Power Market

35. Waste Heat to Power Market High Potential Countries, Segments and Strategies

• 35.1 Waste Heat to Power Market In 2029 - Countries Offering Most New Opportunities
• 35.2 Waste Heat to Power Market In 2029 - Segments Offering Most New Opportunities
• 35.3 Waste Heat to Power Market In 2029 - Growth Strategies
  • 35.3.1 Market Trend Based Strategies
  • 35.3.2 Competitor Strategies

36. Appendix

• 36.1. Abbreviations
• 36.2. Currencies
• 36.3. Historic And Forecast Inflation Rates
• 36.4. Research Inquiries
• 36.5. The Business Research Company
• 36.6. Copyright And Disclaimer