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2021-2027 Global and Regional Waste Heat to Power Industry Status and Prospects Professional Market Research Report Standard Version

The global Waste Heat to Power market was valued at 2075.37 Million USD in 2020 and will grow with a CAGR of 4.9% from 2020 to 2027, based on HNY Research newly published report.
The prime objective of this report is to provide the insights on the post COVID-19 impact which will help market players in this field evaluate their business approaches. Also, this report covers market segmentation by major market verdors, types, applications/end users and geography(North America, East Asia, Europe, South Asia, Southeast Asia, Middle East, Africa, Oceania, South America).
Waste heat to power (WHP) is the process of capturing heat discarded by an existing industrial process and using that heat to generate power.Energy intensive industrial processes—such as those occurring at refineries, steel mills, glass furnaces, and cement kilns—all release hot exhaust gases and waste streams that can be harnessed with well-established technologies to generate electricity (see Appendix). The recovery of industrial waste heat for power is a largely untapped type of combined heat and power (CHP), which is the use of a single fuel source to generate both thermal energy (heating or cooling) and electricity. In the last several years, global market of Waste Heat to Power developed stably, with an average growth rate of 6.2%. In 2016, global revenue of Waste Heat to Power is nearly 1767 M USD.
By Market Verdors:
Siemens
GE
ABB
Amec Foster Wheeler
Ormat
MHI
Exergy
ElectraTherm
Dürr Cyplan
GETEC
CNBM
DaLian East
E-Rational

By Types:
Steam Rankine Cycle
Organic Rankine Cycles
Kalina Cycle

By Applications:
Chemical Industry
Metal Manufacturing
Oil and Gas

Key Indicators Analysed
Market Players & Competitor Analysis: The report covers the key players of the industry including Company Profile, Product Specifications, Production Capacity/Sales, Revenue, Price and Gross Margin 2016-2027 & Sales with a thorough analysis of the market's competitive landscape and detailed information on vendors and comprehensive details of factors that will challenge the growth of major market vendors.
Global and Regional Market Analysis: The report includes Global & Regional market status and outlook 2016-2027. Further the report provides break down details about each region & countries covered in the report. Identifying its sales, sales volume & revenue forecast. With detailed analysis by types and applications.
Market Trends: Market key trends which include Increased Competition and Continuous Innovations.
Opportunities and Drivers: Identifying the Growing Demands and New Technology
Porters Five Force Analysis: The report provides with the state of competition in industry depending on five basic forces: threat of new entrants, bargaining power of suppliers, bargaining power of buyers, threat of substitute products or services, and existing industry rivalry.

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Chapter 1 Industry Overview
1.1 Definition
1.2 Assumptions
1.3 Research Scope
1.4 Market Analysis by Regions
1.4.1 North America Market States and Outlook (2022-2027)
1.4.2 East Asia Market States and Outlook (2022-2027)
1.4.3 Europe Market States and Outlook (2022-2027)
1.4.4 South Asia Market States and Outlook (2022-2027)
1.4.5 Southeast Asia Market States and Outlook (2022-2027)
1.4.6 Middle East Market States and Outlook (2022-2027)
1.4.7 Africa Market States and Outlook (2022-2027)
1.4.8 Oceania Market States and Outlook (2022-2027)
1.4.9 South America Market States and Outlook (2022-2027)
1.5 Global Waste Heat to Power Market Size Analysis from 2022 to 2027
1.5.1 Global Waste Heat to Power Market Size Analysis from 2022 to 2027 by Consumption Volume
1.5.2 Global Waste Heat to Power Market Size Analysis from 2022 to 2027 by Value
1.5.3 Global Waste Heat to Power Price Trends Analysis from 2022 to 2027
1.6 COVID-19 Outbreak: Waste Heat to Power Industry Impact
Chapter 2 Global Waste Heat to Power Competition by Types, Applications, and Top Regions and Countries
2.1 Global Waste Heat to Power (Volume and Value) by Type
2.1.1 Global Waste Heat to Power Consumption and Market Share by Type (2016-2021)
2.1.2 Global Waste Heat to Power Revenue and Market Share by Type (2016-2021)
2.2 Global Waste Heat to Power (Volume and Value) by Application
2.2.1 Global Waste Heat to Power Consumption and Market Share by Application (2016-2021)
2.2.2 Global Waste Heat to Power Revenue and Market Share by Application (2016-2021)
2.3 Global Waste Heat to Power (Volume and Value) by Regions
2.3.1 Global Waste Heat to Power Consumption and Market Share by Regions (2016-2021)
2.3.2 Global Waste Heat to Power Revenue and Market Share by Regions (2016-2021)
Chapter 3 Production Market Analysis
3.1 Global Production Market Analysis
3.1.1 2016-2021 Global Capacity, Production, Capacity Utilization Rate, Ex-Factory Price, Revenue, Cost, Gross and Gross Margin Analysis
3.1.2 2016-2021 Major Manufacturers Performance and Market Share
3.2 Regional Production Market Analysis
3.2.1 2016-2021 Regional Market Performance and Market Share
3.2.2 North America Market
3.2.3 East Asia Market
3.2.4 Europe Market
3.2.5 South Asia Market
3.2.6 Southeast Asia Market
3.2.7 Middle East Market
3.2.8 Africa Market
3.2.9 Oceania Market
3.2.10 South America Market
3.2.11 Rest of the World Market
Chapter 4 Global Waste Heat to Power Sales, Consumption, Export, Import by Regions (2016-2021)
4.1 Global Waste Heat to Power Consumption by Regions (2016-2021)
4.2 North America Waste Heat to Power Sales, Consumption, Export, Import (2016-2021)
4.3 East Asia Waste Heat to Power Sales, Consumption, Export, Import (2016-2021)
4.4 Europe Waste Heat to Power Sales, Consumption, Export, Import (2016-2021)
4.5 South Asia Waste Heat to Power Sales, Consumption, Export, Import (2016-2021)
4.6 Southeast Asia Waste Heat to Power Sales, Consumption, Export, Import (2016-2021)
4.7 Middle East Waste Heat to Power Sales, Consumption, Export, Import (2016-2021)
4.8 Africa Waste Heat to Power Sales, Consumption, Export, Import (2016-2021)
4.9 Oceania Waste Heat to Power Sales, Consumption, Export, Import (2016-2021)
4.10 South America Waste Heat to Power Sales, Consumption, Export, Import (2016-2021)
Chapter 5 North America Waste Heat to Power Market Analysis
5.1 North America Waste Heat to Power Consumption and Value Analysis
5.1.1 North America Waste Heat to Power Market Under COVID-19
5.2 North America Waste Heat to Power Consumption Volume by Types
5.3 North America Waste Heat to Power Consumption Structure by Application
5.4 North America Waste Heat to Power Consumption by Top Countries
5.4.1 United States Waste Heat to Power Consumption Volume from 2016 to 2021
5.4.2 Canada Waste Heat to Power Consumption Volume from 2016 to 2021
5.4.3 Mexico Waste Heat to Power Consumption Volume from 2016 to 2021
Chapter 6 East Asia Waste Heat to Power Market Analysis
6.1 East Asia Waste Heat to Power Consumption and Value Analysis
6.1.1 East Asia Waste Heat to Power Market Under COVID-19
6.2 East Asia Waste Heat to Power Consumption Volume by Types
6.3 East Asia Waste Heat to Power Consumption Structure by Application
6.4 East Asia Waste Heat to Power Consumption by Top Countries
6.4.1 China Waste Heat to Power Consumption Volume from 2016 to 2021
6.4.2 Japan Waste Heat to Power Consumption Volume from 2016 to 2021
6.4.3 South Korea Waste Heat to Power Consumption Volume from 2016 to 2021
Chapter 7 Europe Waste Heat to Power Market Analysis
7.1 Europe Waste Heat to Power Consumption and Value Analysis
7.1.1 Europe Waste Heat to Power Market Under COVID-19
7.2 Europe Waste Heat to Power Consumption Volume by Types
7.3 Europe Waste Heat to Power Consumption Structure by Application
7.4 Europe Waste Heat to Power Consumption by Top Countries
7.4.1 Germany Waste Heat to Power Consumption Volume from 2016 to 2021
7.4.2 UK Waste Heat to Power Consumption Volume from 2016 to 2021
7.4.3 France Waste Heat to Power Consumption Volume from 2016 to 2021
7.4.4 Italy Waste Heat to Power Consumption Volume from 2016 to 2021
7.4.5 Russia Waste Heat to Power Consumption Volume from 2016 to 2021
7.4.6 Spain Waste Heat to Power Consumption Volume from 2016 to 2021
7.4.7 Netherlands Waste Heat to Power Consumption Volume from 2016 to 2021
7.4.8 Switzerland Waste Heat to Power Consumption Volume from 2016 to 2021
7.4.9 Poland Waste Heat to Power Consumption Volume from 2016 to 2021
Chapter 8 South Asia Waste Heat to Power Market Analysis
8.1 South Asia Waste Heat to Power Consumption and Value Analysis
8.1.1 South Asia Waste Heat to Power Market Under COVID-19
8.2 South Asia Waste Heat to Power Consumption Volume by Types
8.3 South Asia Waste Heat to Power Consumption Structure by Application
8.4 South Asia Waste Heat to Power Consumption by Top Countries
8.4.1 India Waste Heat to Power Consumption Volume from 2016 to 2021
8.4.2 Pakistan Waste Heat to Power Consumption Volume from 2016 to 2021
8.4.3 Bangladesh Waste Heat to Power Consumption Volume from 2016 to 2021
Chapter 9 Southeast Asia Waste Heat to Power Market Analysis
9.1 Southeast Asia Waste Heat to Power Consumption and Value Analysis
9.1.1 Southeast Asia Waste Heat to Power Market Under COVID-19
9.2 Southeast Asia Waste Heat to Power Consumption Volume by Types
9.3 Southeast Asia Waste Heat to Power Consumption Structure by Application
9.4 Southeast Asia Waste Heat to Power Consumption by Top Countries
9.4.1 Indonesia Waste Heat to Power Consumption Volume from 2016 to 2021
9.4.2 Thailand Waste Heat to Power Consumption Volume from 2016 to 2021
9.4.3 Singapore Waste Heat to Power Consumption Volume from 2016 to 2021
9.4.4 Malaysia Waste Heat to Power Consumption Volume from 2016 to 2021
9.4.5 Philippines Waste Heat to Power Consumption Volume from 2016 to 2021
9.4.6 Vietnam Waste Heat to Power Consumption Volume from 2016 to 2021
9.4.7 Myanmar Waste Heat to Power Consumption Volume from 2016 to 2021
Chapter 10 Middle East Waste Heat to Power Market Analysis
10.1 Middle East Waste Heat to Power Consumption and Value Analysis
10.1.1 Middle East Waste Heat to Power Market Under COVID-19
10.2 Middle East Waste Heat to Power Consumption Volume by Types
10.3 Middle East Waste Heat to Power Consumption Structure by Application
10.4 Middle East Waste Heat to Power Consumption by Top Countries
10.4.1 Turkey Waste Heat to Power Consumption Volume from 2016 to 2021
10.4.2 Saudi Arabia Waste Heat to Power Consumption Volume from 2016 to 2021
10.4.3 Iran Waste Heat to Power Consumption Volume from 2016 to 2021
10.4.4 United Arab Emirates Waste Heat to Power Consumption Volume from 2016 to 2021
10.4.5 Israel Waste Heat to Power Consumption Volume from 2016 to 2021
10.4.6 Iraq Waste Heat to Power Consumption Volume from 2016 to 2021
10.4.7 Qatar Waste Heat to Power Consumption Volume from 2016 to 2021
10.4.8 Kuwait Waste Heat to Power Consumption Volume from 2016 to 2021
10.4.9 Oman Waste Heat to Power Consumption Volume from 2016 to 2021
Chapter 11 Africa Waste Heat to Power Market Analysis
11.1 Africa Waste Heat to Power Consumption and Value Analysis
11.1.1 Africa Waste Heat to Power Market Under COVID-19
11.2 Africa Waste Heat to Power Consumption Volume by Types
11.3 Africa Waste Heat to Power Consumption Structure by Application
11.4 Africa Waste Heat to Power Consumption by Top Countries
11.4.1 Nigeria Waste Heat to Power Consumption Volume from 2016 to 2021
11.4.2 South Africa Waste Heat to Power Consumption Volume from 2016 to 2021
11.4.3 Egypt Waste Heat to Power Consumption Volume from 2016 to 2021
11.4.4 Algeria Waste Heat to Power Consumption Volume from 2016 to 2021
11.4.5 Morocco Waste Heat to Power Consumption Volume from 2016 to 2021
Chapter 12 Oceania Waste Heat to Power Market Analysis
12.1 Oceania Waste Heat to Power Consumption and Value Analysis
12.2 Oceania Waste Heat to Power Consumption Volume by Types
12.3 Oceania Waste Heat to Power Consumption Structure by Application
12.4 Oceania Waste Heat to Power Consumption by Top Countries
12.4.1 Australia Waste Heat to Power Consumption Volume from 2016 to 2021
12.4.2 New Zealand Waste Heat to Power Consumption Volume from 2016 to 2021
Chapter 13 South America Waste Heat to Power Market Analysis
13.1 South America Waste Heat to Power Consumption and Value Analysis
13.1.1 South America Waste Heat to Power Market Under COVID-19
13.2 South America Waste Heat to Power Consumption Volume by Types
13.3 South America Waste Heat to Power Consumption Structure by Application
13.4 South America Waste Heat to Power Consumption Volume by Major Countries
13.4.1 Brazil Waste Heat to Power Consumption Volume from 2016 to 2021
13.4.2 Argentina Waste Heat to Power Consumption Volume from 2016 to 2021
13.4.3 Columbia Waste Heat to Power Consumption Volume from 2016 to 2021
13.4.4 Chile Waste Heat to Power Consumption Volume from 2016 to 2021
13.4.5 Venezuela Waste Heat to Power Consumption Volume from 2016 to 2021
13.4.6 Peru Waste Heat to Power Consumption Volume from 2016 to 2021
13.4.7 Puerto Rico Waste Heat to Power Consumption Volume from 2016 to 2021
13.4.8 Ecuador Waste Heat to Power Consumption Volume from 2016 to 2021
Chapter 14 Company Profiles and Key Figures in Waste Heat to Power Business
14.1 Siemens
14.1.1 Siemens Company Profile
14.1.2 Siemens Waste Heat to Power Product Specification
14.1.3 Siemens Waste Heat to Power Production Capacity, Revenue, Price and Gross Margin (2016-2021)
14.2 GE
14.2.1 GE Company Profile
14.2.2 GE Waste Heat to Power Product Specification
14.2.3 GE Waste Heat to Power Production Capacity, Revenue, Price and Gross Margin (2016-2021)
14.3 ABB
14.3.1 ABB Company Profile
14.3.2 ABB Waste Heat to Power Product Specification
14.3.3 ABB Waste Heat to Power Production Capacity, Revenue, Price and Gross Margin (2016-2021)
14.4 Amec Foster Wheeler
14.4.1 Amec Foster Wheeler Company Profile
14.4.2 Amec Foster Wheeler Waste Heat to Power Product Specification
14.4.3 Amec Foster Wheeler Waste Heat to Power Production Capacity, Revenue, Price and Gross Margin (2016-2021)
14.5 Ormat
14.5.1 Ormat Company Profile
14.5.2 Ormat Waste Heat to Power Product Specification
14.5.3 Ormat Waste Heat to Power Production Capacity, Revenue, Price and Gross Margin (2016-2021)
14.6 MHI
14.6.1 MHI Company Profile
14.6.2 MHI Waste Heat to Power Product Specification
14.6.3 MHI Waste Heat to Power Production Capacity, Revenue, Price and Gross Margin (2016-2021)
14.7 Exergy
14.7.1 Exergy Company Profile
14.7.2 Exergy Waste Heat to Power Product Specification
14.7.3 Exergy Waste Heat to Power Production Capacity, Revenue, Price and Gross Margin (2016-2021)
14.8 ElectraTherm
14.8.1 ElectraTherm Company Profile
14.8.2 ElectraTherm Waste Heat to Power Product Specification
14.8.3 ElectraTherm Waste Heat to Power Production Capacity, Revenue, Price and Gross Margin (2016-2021)
14.9 Dürr Cyplan
14.9.1 Dürr Cyplan Company Profile
14.9.2 Dürr Cyplan Waste Heat to Power Product Specification
14.9.3 Dürr Cyplan Waste Heat to Power Production Capacity, Revenue, Price and Gross Margin (2016-2021)
14.10 GETEC
14.10.1 GETEC Company Profile
14.10.2 GETEC Waste Heat to Power Product Specification
14.10.3 GETEC Waste Heat to Power Production Capacity, Revenue, Price and Gross Margin (2016-2021)
14.11 CNBM
14.11.1 CNBM Company Profile
14.11.2 CNBM Waste Heat to Power Product Specification
14.11.3 CNBM Waste Heat to Power Production Capacity, Revenue, Price and Gross Margin (2016-2021)
14.12 DaLian East
14.12.1 DaLian East Company Profile
14.12.2 DaLian East Waste Heat to Power Product Specification
14.12.3 DaLian East Waste Heat to Power Production Capacity, Revenue, Price and Gross Margin (2016-2021)
14.13 E-Rational
14.13.1 E-Rational Company Profile
14.13.2 E-Rational Waste Heat to Power Product Specification
14.13.3 E-Rational Waste Heat to Power Production Capacity, Revenue, Price and Gross Margin (2016-2021)
Chapter 15 Global Waste Heat to Power Market Forecast (2022-2027)
15.1 Global Waste Heat to Power Consumption Volume, Revenue and Price Forecast (2022-2027)
15.1.1 Global Waste Heat to Power Consumption Volume and Growth Rate Forecast (2022-2027)
15.1.2 Global Waste Heat to Power Value and Growth Rate Forecast (2022-2027)
15.2 Global Waste Heat to Power Consumption Volume, Value and Growth Rate Forecast by Region (2022-2027)
15.2.1 Global Waste Heat to Power Consumption Volume and Growth Rate Forecast by Regions (2022-2027)
15.2.2 Global Waste Heat to Power Value and Growth Rate Forecast by Regions (2022-2027)
15.2.3 North America Waste Heat to Power Consumption Volume, Revenue and Growth Rate Forecast (2022-2027)
15.2.4 East Asia Waste Heat to Power Consumption Volume, Revenue and Growth Rate Forecast (2022-2027)
15.2.5 Europe Waste Heat to Power Consumption Volume, Revenue and Growth Rate Forecast (2022-2027)
15.2.6 South Asia Waste Heat to Power Consumption Volume, Revenue and Growth Rate Forecast (2022-2027)
15.2.7 Southeast Asia Waste Heat to Power Consumption Volume, Revenue and Growth Rate Forecast (2022-2027)
15.2.8 Middle East Waste Heat to Power Consumption Volume, Revenue and Growth Rate Forecast (2022-2027)
15.2.9 Africa Waste Heat to Power Consumption Volume, Revenue and Growth Rate Forecast (2022-2027)
15.2.10 Oceania Waste Heat to Power Consumption Volume, Revenue and Growth Rate Forecast (2022-2027)
15.2.11 South America Waste Heat to Power Consumption Volume, Revenue and Growth Rate Forecast (2022-2027)
15.3 Global Waste Heat to Power Consumption Volume, Revenue and Price Forecast by Type (2022-2027)
15.3.1 Global Waste Heat to Power Consumption Forecast by Type (2022-2027)
15.3.2 Global Waste Heat to Power Revenue Forecast by Type (2022-2027)
15.3.3 Global Waste Heat to Power Price Forecast by Type (2022-2027)
15.4 Global Waste Heat to Power Consumption Volume Forecast by Application (2022-2027)
15.5 Waste Heat to Power Market Forecast Under COVID-19
Chapter 16 Conclusions
Research Methodology

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