Waste Heat to Power Market By Source of Waste Heat Stream (Medium to Low temperature heat sources, High-temperature heat sources, and Steam); By Technology (Steam Rankine Cycle, Organic Rankine Cycle, Kalina Cycle, Supercritical Carbon Dioxide (CO2) Cycle, Heat Recovery Systems, and Others); By Offering ((Products (Thermoelectric Generators, Piezoelectric Generators, Thermionic Devices, Thermo-photovoltaic Generators, Small Steam-Electric Generator (Electric generator using waste steam, Steam Screw Expanders (SSE)), Stirling Engines, and Others); Installation Support (Construction Planning, Installation Adjustments, Test Operation, Installation Supports, and Others)); By Organization Size (Small & Medium Organizations, Large Organizations); By Application (Petroleum and Coal Products, Glass production, Incineration Systems and Cogeneration Systems, Garbage Incineration Plant, Woody Biomass Boiler, Industrial Scale Incineration Systems & Industrial furnaces, Chemical Manufacturing, Cement and Ceramic Manufacturing, Primary Metal Manufacturing and Nonmetallic Mineral Product Manufacturing, Heavy Metal Production, Pulp and Paper Industry, Food and Beverage, and others); By Region (U.S., Canada, Mexico, Rest of North America, France, The UK, Spain, Germany, Italy, Nordic Countries, Benelux Union, Rest of Europe, China, Japan, India, New Zealand, Australia, South Korea, Southeast Asia (Singapore, Philippines, Indonesia, Thailand, Malaysia, Vietnam, Rest of Southeast Asia), Rest of Asia Pacific, Saudi Arabia, UAE, Egypt, Kuwait, South Africa, Rest of Middle East & Africa, Brazil, Argentina, Rest of Latin America); – Regional Insights, Growth, Size, Comparative Analysis, Trends and Forecast, 2021 - 2029
Industry Trends
In factories catering to different industries and even in the means of transportation such as navy ships, gas turbine engines are used for electrical power generation. Many turbines consume 65% of the energy, leading to waste heat. Safe and efficient recovery of electrical power energy can help to provide 20% reduction in fuel consumption in the process being carried out for power generation. Waste heat to power (WHP) is the method of collecting heat, which would otherwise be wasted, by a process and converting it to electricity.
Many factors are driving the global waste heat to power market but the most important one is increasing demand for clean energy. Due to the depletion of Ozone layer, increasing global warming, increasing skin disorders due to ultraviolet rays, and the health problems caused by increasing air pollution, many countries are adopting strict environmental laws along with demanding new methods of power generation that are eco-friendly. With waste products being used as fuel for power generation, expenses of garbage disposal as well as efforts for recycling are reduced, which is aiding the growth of waste heat to power market.
The robust industrial growth along with growing significance for energy management & optimization showcases substantial growth opportunity for the global waste heat to power market over the forecast period.
The major factors that restrain the growth of global waste heat to power market include technical issues, business considerations, and regulatory issues. The concerns about waste heat sources containing chemical and mechanical contaminants can affect the complexity, cost, and efficiency of the heat recovery process. The equipment costs can significantly affect a waste heat to power (WHP) project.
Source of Waste Heat Stream Outlook:
In terms of source of waste heat stream, the global waste heat to power market covers medium to low temperature heat sources, high-temperature heat sources, and steam. In 2020, high-temperature heat sources occupied the largest market share due to the ability of high-temperature heat sources to product sheath temperatures (more than 1000°F) and the same time, provide uniform temperatures with 2, 3 or 6 independently controllable zones.
Technology Outlook:
The technology segment in the global waste heat to power market is classified into steam rankine cycle, organic rankine cycle, Kalina cycle, supercritical carbon dioxide (CO2) cycle, and heat recovery systems amongst others. In 2020, steam rankine cycle (SRC) held the largest share in the global market. During the forecast period, the supercritical CO2 cycle is estimated to register highest growth rate owing to high efficiency and small equipment size.
Offering Outlook:
The offering segment in the global waste heat to power market is bifurcated into products and installation support. The products category is further categorized into thermoelectric generators, piezoelectric Generators, thermionic devices, thermo-photovoltaic generators, small steam-electric generator, stirling engines, and others. In 2020, thermoelectric generators held the highest market share due to its environment-friendly nature, which is aiding in lower production cost when they are used in any project. The use of thermoelectric generators reduces carbon emissions and thus, air pollution. During the forecast period, stirling engines segment is expected to grow at the highest rate due to their ability to use various heat sources and their combustion chambers, which meet environmental requirements.
Organization Size Outlook:
Considering organization size, the global waste heat to power market is segmented into small & medium organizations and large organizations. In 2020, large organizations held the highest market share due to their established presence in the global market, which enabled it to procure several contracts from governments as well as private players. During the forecast period, small & medium organizations segment is expected to see faster growth in market as many small organizations are collaborating with each other and pooling their resources to match the budget of large organizations. Demand for more energy efficiency with less fuel is increasing, which is encouraging new players to enter the market to capture the engulfing demand.
Application Outlook:
The application segment in the global waste heat to power market is segmented into petroleum & coal products, glass production, incineration systems and cogeneration systems, garbage incineration plant, woody biomass boiler, industrial scale incineration systems & industrial furnaces, chemical manufacturing, cement & ceramic manufacturing, primary metal manufacturing & nonmetallic mineral product manufacturing, heavy metal production, pulp & paper industry, food & beverage, and others.
In 2020, chemical manufacturing segment held the largest share in the global market. Chemical manufacturing is among the second largest energy consuming industries in the world, producing a large variant of products. The sector is also among the largest producer of waste heat, which showcases the potential of being converted into power.
Region Outlook:
In 2020, North America held the largest market share in the global waste heat to power market due to rising demand from heavy industries for electricity, which is fuelling the need for an efficient waste heat recovery system. During the forecast period, Asia Pacific region is anticipated to register highest growth rate owing to the need for controlling increasing rate of municipal waste generation. Many countries in this region are focusing on reducing waste by utilizing it to generate energy in the form of methane. This move can also help to stabilize the increasing carbon footprint in the region.
The global waste heat to power market accounted for US $ 17,873.64 Mn in 2020, and is expected to grow at a compound annual growth rate (CAGR) of 12.6% during the forecast years (2021-2029).
Global Waste Heat to Power Market Revenue & Forecast, (US$ Million), 2015 – 2029
Competitive Landscape
The report provides both, qualitative and quantitative research of global waste heat to power market, as well as provides comprehensive insights and development methods adopted by the key contenders. The report also offers extensive research on the key players in this market and details on the competitiveness of these players. Key business strategies such as mergers and acquisitions (M&A), affiliations, collaborations, and contracts adopted by these major market participants are also recognized and analysed in the report. For each company, the report studies their global presence, competitors, service offerings and specification amongst others.
Some of the major players operating in the global waste heat to power market are Bosch Industriekessel GmbH, Forbes Marshall, IHI Corporation, John Wood Group PLC (Amec Foster Wheeler), Kalina Power Limited, Mitsubishi Hitachi Power Systems Ltd., Ormat, Shinoda Co. Ltd., Siemens AG and Thermax amongst others.
Global Waste Heat to Power Market:
By Source of Waste Heat Stream
- Medium to Low temperature heat sources
- High-temperature heat sources
- Steam
By Technology
- Steam Rankine Cycle
- Organic Rankine Cycle
- Kalina Cycle
- Supercritical Carbon Dioxide (CO2) Cycle
- Heat Recovery Systems
- Others
By Offering
- Products
- Thermoelectric Generators
- Piezoelectric Generators
- Thermionic Devices
- Thermo-photovoltaic Generators
- Small steam-electric generator
- Electric Generator Using Waste Steam
- Steam Screw Expanders (SSE)
- Stirling Engines
- Others
- Installation Support
- Construction Planning
- Installation Adjustments
- Test Operation
- Installation Supports
- Others
By Organization Size
- Small & Medium Organizations
- Large Organizations
By Application
- Petroleum and Coal Products
- Glass Production, Incineration Systems and Cogeneration Systems
- Garbage Incineration Plant, Woody Biomass Boiler, Industrial Scale Incineration Systems and Industrial Furnaces
- Chemical Manufacturing
- Cement and Ceramic Manufacturing
- Primary Metal Manufacturing and Nonmetallic Mineral Product Manufacturing
- Heavy Metal Production
- Pulp and Paper Industry
- Food and Beverage
- Others
By Geography
- North America
- US
- Canada
- Mexico
- Rest of North America
- Europe
- France
- The UK
- Spain
- Germany
- Italy
- Nordic Countries
- Denmark
- Finland
- Iceland
- Sweden
- Norway
- Benelux Union
- Belgium
- The Netherlands
- Luxembourg
- Rest of Europe
- Asia Pacific
- China
- Japan
- India
- New Zealand
- Australia
- South Korea
- Southeast Asia
- Indonesia
- Thailand
- Malaysia
- Singapore
- Rest of Southeast Asia
- Rest of Asia Pacific
- Middle East and Africa
- Saudi Arabia
- UAE
- Egypt
- Kuwait
- South Africa
- Rest of Middle East & Africa
- Latin America
- Brazil
- Argentina
- Rest of Latin America
Table of Contents
1. Market
Scope
1.1. Market
Segmentation
1.2. Years
Considered
1.2.1. Historic
Years: 2015 - 2018
1.2.2. Base
Year: 2019
1.2.3. Forecast
Years: 2020 – 2028
2. Key Target
Audiences
3. Research
Methodology
3.1. Primary
Research
3.1.1. Research
Questionnaire
3.1.2. Global
Percentage Breakdown
3.1.3. Primary
Interviews: Key Opinion Leaders (KOLs)
3.2. Secondary
Research
3.2.1. Paid
Databases
3.2.2. Secondary
Sources
3.3. Market
Size Estimates
3.3.1. Top-Down
Approach
3.3.2. Bottom-Up
Approach
3.4. Data
Triangulation Methodology
3.5. Research
Assumptions
4. Recommendations
and Insights from AMI’s Perspective**
5. Holistic
Overview of Waste Heat to Power Market
6. Market
Synopsis: Waste Heat to Power Market
7. Waste Heat
to Power Market Analysis: Qualitative Perspective
7.1. Introduction
7.1.1. Product
Definition
7.1.2. Industry
Development
7.2. Market
Dynamics
7.2.1. Drivers
7.2.2. Restraints
7.2.3. Opportunities
7.3. Trends in
Waste Heat to Power Market
7.4. Market
Determinants Radar Chart
7.5. Macro-Economic
and Micro-Economic Indicators: Waste Heat to Power Market
7.6. Porter’s
Five Force Analysis
7.7. Impact of
Covid-19 on Waste Heat to Power Market
8. Global
Waste Heat to Power Market Analysis and Forecasts, 2020 – 2028
8.1. Overview
8.1.1. Global
Waste Heat to Power Market Revenue (US$ Mn)
8.2. Global
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Source of Waste
Heat Stream
8.2.1. Medium
to Low Temperature Heat Sources
8.2.1.1. Definition
8.2.1.2. Market
Estimation and Penetration, 2015 – 2019
8.2.1.3. Market
Forecast, 2020 – 2028
8.2.1.4. Compound
Annual Growth Rate (CAGR)
8.2.1.5. Regional
Bifurcation
8.2.1.5.1. North
America
8.2.1.5.1.1. Market
Estimation, 2015 – 2019
8.2.1.5.1.2. Market
Forecast, 2020 – 2028
8.2.1.5.2. Europe
8.2.1.5.2.1. Market
Estimation, 2015 – 2019
8.2.1.5.2.2. Market
Forecast, 2020 – 2028
8.2.1.5.3. Asia
Pacific
8.2.1.5.3.1. Market
Estimation, 2015 – 2019
8.2.1.5.3.2. Market
Forecast, 2020 – 2028
8.2.1.5.4. Middle
East and Africa
8.2.1.5.4.1. Market
Estimation, 2015 – 2019
8.2.1.5.4.2. Market
Forecast, 2020 – 2028
8.2.1.5.5. Latin
America
8.2.1.5.5.1. Market
Estimation, 2015 – 2019
8.2.1.5.5.2. Market
Forecast, 2020 – 2028
8.2.2. High-temperature
Heat Sources
8.2.2.1. Definition
8.2.2.2. Market
Estimation and Penetration, 2015 – 2019
8.2.2.3. Market
Forecast, 2020 – 2028
8.2.2.4. Compound
Annual Growth Rate (CAGR)
8.2.2.5. Regional
Bifurcation
8.2.2.5.1. North
America
8.2.2.5.1.1. Market
Estimation, 2015 – 2019
8.2.2.5.1.2. Market
Forecast, 2020 – 2028
8.2.2.5.2. Europe
8.2.2.5.2.1. Market
Estimation, 2015 – 2019
8.2.2.5.2.2. Market
Forecast, 2020 – 2028
8.2.2.5.3. Asia
Pacific
8.2.2.5.3.1. Market
Estimation, 2015 – 2019
8.2.2.5.3.2. Market
Forecast, 2020 – 2028
8.2.2.5.4. Middle
East and Africa
8.2.2.5.4.1. Market
Estimation, 2015 – 2019
8.2.2.5.4.2. Market
Forecast, 2020 – 2028
8.2.2.5.5. Latin
America
8.2.2.5.5.1. Market
Estimation, 2015 – 2019
8.2.2.5.5.2. Market
Forecast, 2020 – 2028
8.2.3. Steam
8.2.3.1. Definition
8.2.3.2. Market
Estimation and Penetration, 2015 – 2019
8.2.3.3. Market
Forecast, 2020 – 2028
8.2.3.4. Compound
Annual Growth Rate (CAGR)
8.2.3.5. Regional
Bifurcation
8.2.3.5.1. North
America
8.2.3.5.1.1. Market
Estimation, 2015 – 2019
8.2.3.5.1.2. Market
Forecast, 2020 – 2028
8.2.3.5.2. Europe
8.2.3.5.2.1. Market
Estimation, 2015 – 2019
8.2.3.5.2.2. Market
Forecast, 2020 – 2028
8.2.3.5.3. Asia
Pacific
8.2.3.5.3.1. Market
Estimation, 2015 – 2019
8.2.3.5.3.2. Market
Forecast, 2020 – 2028
8.2.3.5.4. Middle
East and Africa
8.2.3.5.4.1. Market
Estimation, 2015 – 2019
8.2.3.5.4.2. Market
Forecast, 2020 – 2028
8.2.3.5.5. Latin
America
8.2.3.5.5.1. Market
Estimation, 2015 – 2019
8.2.3.5.5.2. Market
Forecast, 2020 – 2028
8.3. Key
Segment for Channeling Investments
8.3.1. By
Source of Waste Heat Stream
9. Global
Waste Heat to Power Market Analysis and Forecasts, 2020 – 2028
9.1. Overview
9.2. Global
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Technology
9.2.1. Steam
Rankine Cycle
9.2.1.1. Definition
9.2.1.2. Market
Estimation and Penetration, 2015 – 2019
9.2.1.3. Market
Forecast, 2020 – 2028
9.2.1.4. Compound
Annual Growth Rate (CAGR)
9.2.1.5. Regional
Bifurcation
9.2.1.5.1. North
America
9.2.1.5.1.1. Market
Estimation, 2015 – 2019
9.2.1.5.1.2. Market
Forecast, 2020 – 2028
9.2.1.5.2. Europe
9.2.1.5.2.1. Market
Estimation, 2015 – 2019
9.2.1.5.2.2. Market
Forecast, 2020 – 2028
9.2.1.5.3. Asia
Pacific
9.2.1.5.3.1. Market
Estimation, 2015 – 2019
9.2.1.5.3.2. Market
Forecast, 2020 – 2028
9.2.1.5.4. Middle
East and Africa
9.2.1.5.4.1. Market
Estimation, 2015 – 2019
9.2.1.5.4.2. Market
Forecast, 2020 – 2028
9.2.1.5.5. Latin
America
9.2.1.5.5.1. Market
Estimation, 2015 – 2019
9.2.1.5.5.2. Market
Forecast, 2020 – 2028
9.2.2. Organic
Rankine Cycle
9.2.2.1. Definition
9.2.2.2. Market
Estimation and Penetration, 2015 – 2019
9.2.2.3. Market
Forecast, 2020 – 2028
9.2.2.4. Compound
Annual Growth Rate (CAGR)
9.2.2.5. Regional
Bifurcation
9.2.2.5.1. North
America
9.2.2.5.1.1. Market
Estimation, 2015 – 2019
9.2.2.5.1.2. Market
Forecast, 2020 – 2028
9.2.2.5.2. Europe
9.2.2.5.2.1. Market
Estimation, 2015 – 2019
9.2.2.5.2.2. Market
Forecast, 2020 – 2028
9.2.2.5.3. Asia
Pacific
9.2.2.5.3.1. Market
Estimation, 2015 – 2019
9.2.2.5.3.2. Market
Forecast, 2020 – 2028
9.2.2.5.4. Middle
East and Africa
9.2.2.5.4.1. Market
Estimation, 2015 – 2019
9.2.2.5.4.2. Market
Forecast, 2020 – 2028
9.2.2.5.5. Latin
America
9.2.2.5.5.1. Market
Estimation, 2015 – 2019
9.2.2.5.5.2. Market
Forecast, 2020 – 2028
9.2.3. Kalina
Cycle
9.2.3.1. Definition
9.2.3.2. Market
Estimation and Penetration, 2015 – 2019
9.2.3.3. Market
Forecast, 2020 – 2028
9.2.3.4. Compound
Annual Growth Rate (CAGR)
9.2.3.5. Regional
Bifurcation
9.2.3.5.1. North
America
9.2.3.5.1.1. Market
Estimation, 2015 – 2019
9.2.3.5.1.2. Market
Forecast, 2020 – 2028
9.2.3.5.2. Europe
9.2.3.5.2.1. Market
Estimation, 2015 – 2019
9.2.3.5.2.2. Market
Forecast, 2020 – 2028
9.2.3.5.3. Asia
Pacific
9.2.3.5.3.1. Market
Estimation, 2015 – 2019
9.2.3.5.3.2. Market
Forecast, 2020 – 2028
9.2.3.5.4. Middle
East and Africa
9.2.3.5.4.1. Market
Estimation, 2015 – 2019
9.2.3.5.4.2. Market
Forecast, 2020 – 2028
9.2.3.5.5. Latin
America
9.2.3.5.5.1. Market
Estimation, 2015 – 2019
9.2.3.5.5.2. Market
Forecast, 2020 – 2028
9.2.4. Supercritical
Carbon Dioxide (CO2) Cycle
9.2.4.1. Definition
9.2.4.2. Market
Estimation and Penetration, 2015 – 2019
9.2.4.3. Market
Forecast, 2020 – 2028
9.2.4.4. Compound
Annual Growth Rate (CAGR)
9.2.4.5. Regional
Bifurcation
9.2.4.5.1. North
America
9.2.4.5.1.1. Market
Estimation, 2015 – 2019
9.2.4.5.1.2. Market
Forecast, 2020 – 2028
9.2.4.5.2. Europe
9.2.4.5.2.1. Market
Estimation, 2015 – 2019
9.2.4.5.2.2. Market
Forecast, 2020 – 2028
9.2.4.5.3. Asia
Pacific
9.2.4.5.3.1. Market
Estimation, 2015 – 2019
9.2.4.5.3.2. Market
Forecast, 2020 – 2028
9.2.4.5.4. Middle
East and Africa
9.2.4.5.4.1. Market
Estimation, 2015 – 2019
9.2.4.5.4.2. Market
Forecast, 2020 – 2028
9.2.4.5.5. Latin
America
9.2.4.5.5.1. Market
Estimation, 2015 – 2019
9.2.4.5.5.2. Market
Forecast, 2020 – 2028
9.2.5. Heat
Recovery Systems
9.2.5.1. Definition
9.2.5.2. Market
Estimation and Penetration, 2015 – 2019
9.2.5.3. Market
Forecast, 2020 – 2028
9.2.5.4. Compound
Annual Growth Rate (CAGR)
9.2.5.5. Regional
Bifurcation
9.2.5.5.1. North
America
9.2.5.5.1.1. Market
Estimation, 2015 – 2019
9.2.5.5.1.2. Market
Forecast, 2020 – 2028
9.2.5.5.2. Europe
9.2.5.5.2.1. Market
Estimation, 2015 – 2019
9.2.5.5.2.2. Market
Forecast, 2020 – 2028
9.2.5.5.3. Asia
Pacific
9.2.5.5.3.1. Market
Estimation, 2015 – 2019
9.2.5.5.3.2. Market
Forecast, 2020 – 2028
9.2.5.5.4. Middle
East and Africa
9.2.5.5.4.1. Market
Estimation, 2015 – 2019
9.2.5.5.4.2. Market
Forecast, 2020 – 2028
9.2.5.5.5. Latin
America
9.2.5.5.5.1. Market
Estimation, 2015 – 2019
9.2.5.5.5.2. Market
Forecast, 2020 – 2028
9.2.6. Others
9.2.6.1. Definition
9.2.6.2. Market
Estimation and Penetration, 2015 – 2019
9.2.6.3. Market
Forecast, 2020 – 2028
9.2.6.4. Compound
Annual Growth Rate (CAGR)
9.2.6.5. Regional
Bifurcation
9.2.6.5.1. North
America
9.2.6.5.1.1. Market
Estimation, 2015 – 2019
9.2.6.5.1.2. Market
Forecast, 2020 – 2028
9.2.6.5.2. Europe
9.2.6.5.2.1. Market
Estimation, 2015 – 2019
9.2.6.5.2.2. Market
Forecast, 2020 – 2028
9.2.6.5.3. Asia
Pacific
9.2.6.5.3.1. Market
Estimation, 2015 – 2019
9.2.6.5.3.2. Market
Forecast, 2020 – 2028
9.2.6.5.4. Middle
East and Africa
9.2.6.5.4.1. Market
Estimation, 2015 – 2019
9.2.6.5.4.2. Market
Forecast, 2020 – 2028
9.2.6.5.5. Latin
America
9.2.6.5.5.1. Market
Estimation, 2015 – 2019
9.2.6.5.5.2. Market
Forecast, 2020 – 2028
9.3. Key
Segment for Channeling Investments
9.3.1. By
Technology
10. Global
Waste Heat to Power Market Analysis and Forecasts, 2020 – 2028
10.1. Overview
10.2. Global
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Product
10.2.1. Products
(Definition, Market Estimation and Penetration, 2015 – 2019, Market Estimation
(2015 – 2019), Market Forecast (2020 – 2028), Compound Annual Growth Rate (CAGR),
Regional Bifurcation (North America, Europe, Asia Pacific, Middle East and
Africa, Latin America) and Information on Thermoelectric Generators,
Piezoelectric Generators, Thermionic Devices, Thermo-photovoltaic Generators,
Small steam-electric Generator, Stirling Engines, Others)
10.2.1.1. Thermoelectric
Generators
10.2.1.2. Piezoelectric
Generators
10.2.1.3. Thermionic
Devices
10.2.1.4. Thermo-photovoltaic
Generators
10.2.1.5. Small
steam-electric Generator
10.2.1.5.1. Electric
generator using Waste Steam
10.2.1.5.2. Steam
Screw Expanders (SSE)
10.2.1.6. Stirling
Engines
10.2.1.7. Others
10.2.2. Installation
Support (Definition, Market Estimation and Penetration, 2015 – 2019, Market
Estimation (2015 – 2019), Market Forecast (2020 – 2028), Compound Annual Growth
Rate (CAGR), Regional Bifurcation (North America, Europe, Asia Pacific, Middle
East and Africa, Latin America) and Information on Construction Planning,
Installation Adjustments, Test Operation, Installation Supports, Others)
10.2.2.1. Construction
Planning
10.2.2.2. Installation
Adjustments
10.2.2.3. Test
Operation
10.2.2.4. Installation
Supports
10.2.2.5. Others
10.3. Key
Segment for Channeling Investments
10.3.1. By
Product
11. Global
Waste Heat to Power Market Analysis and Forecasts, 2020 – 2028
11.1. Overview
11.2. Global
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Organization Size
11.2.1. Small
and Medium Organizations
11.2.1.1. Definition
11.2.1.2. Market
Estimation and Penetration, 2015 – 2019
11.2.1.3. Market
Forecast, 2020 – 2028
11.2.1.4. Compound
Annual Growth Rate (CAGR)
11.2.1.5. Regional
Bifurcation
11.2.1.5.1. North
America
11.2.1.5.1.1. Market
Estimation, 2015 – 2019
11.2.1.5.1.2. Market
Forecast, 2020 – 2028
11.2.1.5.2. Europe
11.2.1.5.2.1. Market
Estimation, 2015 – 2019
11.2.1.5.2.2. Market
Forecast, 2020 – 2028
11.2.1.5.3. Asia
Pacific
11.2.1.5.3.1. Market
Estimation, 2015 – 2019
11.2.1.5.3.2. Market
Forecast, 2020 – 2028
11.2.1.5.4. Middle
East and Africa
11.2.1.5.4.1. Market
Estimation, 2015 – 2019
11.2.1.5.4.2. Market
Forecast, 2020 – 2028
11.2.1.5.5. Latin
America
11.2.1.5.5.1. Market
Estimation, 2015 – 2019
11.2.1.5.5.2. Market
Forecast, 2020 – 2028
11.2.2. Large
Organizations
11.2.2.1. Definition
11.2.2.2. Market
Estimation and Penetration, 2015 – 2019
11.2.2.3. Market
Forecast, 2020 – 2028
11.2.2.4. Compound
Annual Growth Rate (CAGR)
11.2.2.5. Regional
Bifurcation
11.2.2.5.1. North
America
11.2.2.5.1.1. Market
Estimation, 2015 – 2019
11.2.2.5.1.2. Market
Forecast, 2020 – 2028
11.2.2.5.2. Europe
11.2.2.5.2.1. Market
Estimation, 2015 – 2019
11.2.2.5.2.2. Market
Forecast, 2020 – 2028
11.2.2.5.3. Asia
Pacific
11.2.2.5.3.1. Market
Estimation, 2015 – 2019
11.2.2.5.3.2. Market
Forecast, 2020 – 2028
11.2.2.5.4. Middle
East and Africa
11.2.2.5.4.1. Market
Estimation, 2015 – 2019
11.2.2.5.4.2. Market
Forecast, 2020 – 2028
11.2.2.5.5. Latin
America
11.2.2.5.5.1. Market
Estimation, 2015 – 2019
11.2.2.5.5.2. Market
Forecast, 2020 – 2028
11.3. Key
Segment for Channeling Investments
11.3.1. By
Organization Size
12. Global
Waste Heat to Power Market Analysis and Forecasts, 2020 – 2028
12.1. Overview
12.2. Global
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Application
12.2.1. Petroleum
and Coal Products
12.2.1.1. Definition
12.2.1.2. Market
Estimation and Penetration, 2015 – 2019
12.2.1.3. Market
Forecast, 2020 – 2028
12.2.1.4. Compound
Annual Growth Rate (CAGR)
12.2.1.5. Regional
Bifurcation
12.2.1.5.1. North
America
12.2.1.5.1.1. Market
Estimation, 2015 – 2019
12.2.1.5.1.2. Market
Forecast, 2020 – 2028
12.2.1.5.2. Europe
12.2.1.5.2.1. Market
Estimation, 2015 – 2019
12.2.1.5.2.2. Market
Forecast, 2020 – 2028
12.2.1.5.3. Asia
Pacific
12.2.1.5.3.1. Market
Estimation, 2015 – 2019
12.2.1.5.3.2. Market
Forecast, 2020 – 2028
12.2.1.5.4. Middle
East and Africa
12.2.1.5.4.1. Market
Estimation, 2015 – 2019
12.2.1.5.4.2. Market
Forecast, 2020 – 2028
12.2.1.5.5. Latin
America
12.2.1.5.5.1. Market
Estimation, 2015 – 2019
12.2.1.5.5.2. Market
Forecast, 2020 – 2028
12.2.2. Glass
Production, Incineration Systems and Cogeneration Systems
12.2.2.1. Definition
12.2.2.2. Market
Estimation and Penetration, 2015 – 2019
12.2.2.3. Market
Forecast, 2020 – 2028
12.2.2.4. Compound
Annual Growth Rate (CAGR)
12.2.2.5. Regional
Bifurcation
12.2.2.5.1. North
America
12.2.2.5.1.1. Market
Estimation, 2015 – 2019
12.2.2.5.1.2. Market
Forecast, 2020 – 2028
12.2.2.5.2. Europe
12.2.2.5.2.1. Market
Estimation, 2015 – 2019
12.2.2.5.2.2. Market
Forecast, 2020 – 2028
12.2.2.5.3. Asia
Pacific
12.2.2.5.3.1. Market
Estimation, 2015 – 2019
12.2.2.5.3.2. Market
Forecast, 2020 – 2028
12.2.2.5.4. Middle
East and Africa
12.2.2.5.4.1. Market
Estimation, 2015 – 2019
12.2.2.5.4.2. Market
Forecast, 2020 – 2028
12.2.2.5.5. Latin
America
12.2.2.5.5.1. Market
Estimation, 2015 – 2019
12.2.2.5.5.2. Market
Forecast, 2020 – 2028
12.2.3. Garbage
Incineration Plant, Woody Biomass Boiler, Industrial Scale Incineration Systems
and Industrial Furnaces
12.2.3.1. Definition
12.2.3.2. Market
Estimation and Penetration, 2015 – 2019
12.2.3.3. Market
Forecast, 2020 – 2028
12.2.3.4. Compound
Annual Growth Rate (CAGR)
12.2.3.5. Regional
Bifurcation
12.2.3.5.1. North
America
12.2.3.5.1.1. Market
Estimation, 2015 – 2019
12.2.3.5.1.2. Market
Forecast, 2020 – 2028
12.2.3.5.2. Europe
12.2.3.5.2.1. Market
Estimation, 2015 – 2019
12.2.3.5.2.2. Market
Forecast, 2020 – 2028
12.2.3.5.3. Asia
Pacific
12.2.3.5.3.1. Market
Estimation, 2015 – 2019
12.2.3.5.3.2. Market
Forecast, 2020 – 2028
12.2.3.5.4. Middle
East and Africa
12.2.3.5.4.1. Market
Estimation, 2015 – 2019
12.2.3.5.4.2. Market
Forecast, 2020 – 2028
12.2.3.5.5. Latin
America
12.2.3.5.5.1. Market
Estimation, 2015 – 2019
12.2.3.5.5.2. Market
Forecast, 2020 – 2028
12.2.4. Chemical
Manufacturing
12.2.4.1. Definition
12.2.4.2. Market
Estimation and Penetration, 2015 – 2019
12.2.4.3. Market
Forecast, 2020 – 2028
12.2.4.4. Compound
Annual Growth Rate (CAGR)
12.2.4.5. Regional
Bifurcation
12.2.4.5.1. North
America
12.2.4.5.1.1. Market
Estimation, 2015 – 2019
12.2.4.5.1.2. Market
Forecast, 2020 – 2028
12.2.4.5.2. Europe
12.2.4.5.2.1. Market
Estimation, 2015 – 2019
12.2.4.5.2.2. Market
Forecast, 2020 – 2028
12.2.4.5.3. Asia
Pacific
12.2.4.5.3.1. Market
Estimation, 2015 – 2019
12.2.4.5.3.2. Market
Forecast, 2020 – 2028
12.2.4.5.4. Middle
East and Africa
12.2.4.5.4.1. Market
Estimation, 2015 – 2019
12.2.4.5.4.2. Market
Forecast, 2020 – 2028
12.2.4.5.5. Latin
America
12.2.4.5.5.1. Market
Estimation, 2015 – 2019
12.2.4.5.5.2. Market
Forecast, 2020 – 2028
12.2.5. Cement
and Ceramic Manufacturing
12.2.5.1. Definition
12.2.5.2. Market
Estimation and Penetration, 2015 – 2019
12.2.5.3. Market
Forecast, 2020 – 2028
12.2.5.4. Compound
Annual Growth Rate (CAGR)
12.2.5.5. Regional
Bifurcation
12.2.5.5.1. North
America
12.2.5.5.1.1. Market
Estimation, 2015 – 2019
12.2.5.5.1.2. Market
Forecast, 2020 – 2028
12.2.5.5.2. Europe
12.2.5.5.2.1. Market
Estimation, 2015 – 2019
12.2.5.5.2.2. Market
Forecast, 2020 – 2028
12.2.5.5.3. Asia
Pacific
12.2.5.5.3.1. Market
Estimation, 2015 – 2019
12.2.5.5.3.2. Market
Forecast, 2020 – 2028
12.2.5.5.4. Middle
East and Africa
12.2.5.5.4.1. Market
Estimation, 2015 – 2019
12.2.5.5.4.2. Market
Forecast, 2020 – 2028
12.2.5.5.5. Latin
America
12.2.5.5.5.1. Market
Estimation, 2015 – 2019
12.2.5.5.5.2. Market
Forecast, 2020 – 2028
12.2.6. Primary
Metal Manufacturing and Nonmetallic Mineral Product Manufacturing
12.2.6.1. Definition
12.2.6.2. Market
Estimation and Penetration, 2015 – 2019
12.2.6.3. Market
Forecast, 2020 – 2028
12.2.6.4. Compound
Annual Growth Rate (CAGR)
12.2.6.5. Regional
Bifurcation
12.2.6.5.1. North
America
12.2.6.5.1.1. Market
Estimation, 2015 – 2019
12.2.6.5.1.2. Market
Forecast, 2020 – 2028
12.2.6.5.2. Europe
12.2.6.5.2.1. Market
Estimation, 2015 – 2019
12.2.6.5.2.2. Market
Forecast, 2020 – 2028
12.2.6.5.3. Asia
Pacific
12.2.6.5.3.1. Market
Estimation, 2015 – 2019
12.2.6.5.3.2. Market
Forecast, 2020 – 2028
12.2.6.5.4. Middle
East and Africa
12.2.6.5.4.1. Market
Estimation, 2015 – 2019
12.2.6.5.4.2. Market
Forecast, 2020 – 2028
12.2.6.5.5. Latin
America
12.2.6.5.5.1. Market
Estimation, 2015 – 2019
12.2.6.5.5.2. Market
Forecast, 2020 – 2028
12.2.7. Heavy
Metal Production
12.2.7.1. Definition
12.2.7.2. Market
Estimation and Penetration, 2015 – 2019
12.2.7.3. Market
Forecast, 2020 – 2028
12.2.7.4. Compound
Annual Growth Rate (CAGR)
12.2.7.5. Regional
Bifurcation
12.2.7.5.1. North
America
12.2.7.5.1.1. Market
Estimation, 2015 – 2019
12.2.7.5.1.2. Market
Forecast, 2020 – 2028
12.2.7.5.2. Europe
12.2.7.5.2.1. Market
Estimation, 2015 – 2019
12.2.7.5.2.2. Market
Forecast, 2020 – 2028
12.2.7.5.3. Asia
Pacific
12.2.7.5.3.1. Market
Estimation, 2015 – 2019
12.2.7.5.3.2. Market
Forecast, 2020 – 2028
12.2.7.5.4. Middle
East and Africa
12.2.7.5.4.1. Market
Estimation, 2015 – 2019
12.2.7.5.4.2. Market
Forecast, 2020 – 2028
12.2.7.5.5. Latin
America
12.2.7.5.5.1. Market
Estimation, 2015 – 2019
12.2.7.5.5.2. Market
Forecast, 2020 – 2028
12.2.8. Pulp
and Paper Industry
12.2.8.1. Definition
12.2.8.2. Market
Estimation and Penetration, 2015 – 2019
12.2.8.3. Market
Forecast, 2020 – 2028
12.2.8.4. Compound
Annual Growth Rate (CAGR)
12.2.8.5. Regional
Bifurcation
12.2.8.5.1. North
America
12.2.8.5.1.1. Market
Estimation, 2015 – 2019
12.2.8.5.1.2. Market
Forecast, 2020 – 2028
12.2.8.5.2. Europe
12.2.8.5.2.1. Market
Estimation, 2015 – 2019
12.2.8.5.2.2. Market
Forecast, 2020 – 2028
12.2.8.5.3. Asia
Pacific
12.2.8.5.3.1. Market
Estimation, 2015 – 2019
12.2.8.5.3.2. Market
Forecast, 2020 – 2028
12.2.8.5.4. Middle
East and Africa
12.2.8.5.4.1. Market
Estimation, 2015 – 2019
12.2.8.5.4.2. Market
Forecast, 2020 – 2028
12.2.8.5.5. Latin
America
12.2.8.5.5.1. Market
Estimation, 2015 – 2019
12.2.8.5.5.2. Market
Forecast, 2020 – 2028
12.2.9. Food
and Beverage
12.2.9.1. Definition
12.2.9.2. Market
Estimation and Penetration, 2015 – 2019
12.2.9.3. Market
Forecast, 2020 – 2028
12.2.9.4. Compound
Annual Growth Rate (CAGR)
12.2.9.5. Regional
Bifurcation
12.2.9.5.1. North
America
12.2.9.5.1.1. Market
Estimation, 2015 – 2019
12.2.9.5.1.2. Market
Forecast, 2020 – 2028
12.2.9.5.2. Europe
12.2.9.5.2.1. Market
Estimation, 2015 – 2019
12.2.9.5.2.2. Market
Forecast, 2020 – 2028
12.2.9.5.3. Asia
Pacific
12.2.9.5.3.1. Market
Estimation, 2015 – 2019
12.2.9.5.3.2. Market
Forecast, 2020 – 2028
12.2.9.5.4. Middle
East and Africa
12.2.9.5.4.1. Market
Estimation, 2015 – 2019
12.2.9.5.4.2. Market
Forecast, 2020 – 2028
12.2.9.5.5. Latin
America
12.2.9.5.5.1. Market
Estimation, 2015 – 2019
12.2.9.5.5.2. Market
Forecast, 2020 – 2028
12.2.10. Others
12.2.10.1. Definition
12.2.10.2. Market
Estimation and Penetration, 2015 – 2019
12.2.10.3. Market
Forecast, 2020 – 2028
12.2.10.4. Compound
Annual Growth Rate (CAGR)
12.2.10.5. Regional
Bifurcation
12.2.10.5.1. North
America
12.2.10.5.1.1. Market
Estimation, 2015 – 2019
12.2.10.5.1.2. Market
Forecast, 2020 – 2028
12.2.10.5.2. Europe
12.2.10.5.2.1. Market
Estimation, 2015 – 2019
12.2.10.5.2.2. Market
Forecast, 2020 – 2028
12.2.10.5.3. Asia
Pacific
12.2.10.5.3.1. Market
Estimation, 2015 – 2019
12.2.10.5.3.2. Market
Forecast, 2020 – 2028
12.2.10.5.4. Middle
East and Africa
12.2.10.5.4.1. Market
Estimation, 2015 – 2019
12.2.10.5.4.2. Market
Forecast, 2020 – 2028
12.2.10.5.5. Latin
America
12.2.10.5.5.1. Market
Estimation, 2015 – 2019
12.2.10.5.5.2. Market
Forecast, 2020 – 2028
12.3. Key
Segment for Channeling Investments
12.3.1. By
Application
13. North
America Waste Heat to Power Market Analysis and Forecasts, 2020 - 2028
13.1. Overview
13.1.1. North
America Waste Heat to Power Market Revenue (US$ Mn)
13.2. North
America Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Source of
Waste Heat Stream
13.2.1. Medium
to Low Temperature Heat Sources
13.2.2. High-temperature
Heat Sources
13.2.3. Steam
13.3. North
America Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Technology
13.3.1. Steam
Rankine Cycle
13.3.2. Organic
Rankine Cycle
13.3.3. Kalina
Cycle
13.3.4. Supercritical
Carbon Dioxide (CO2) Cycle
13.3.5. Heat
Recovery Systems
13.3.6. Others
13.4. North
America Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Product
13.4.1. Products
13.4.1.1. Thermoelectric
Generators
13.4.1.2. Piezoelectric
Generators
13.4.1.3. Thermionic
Devices
13.4.1.4. Thermo-photovoltaic
Generators
13.4.1.5. Small
steam-electric Generator
13.4.1.5.1. Electric
generator using Waste Steam
13.4.1.5.2. Steam
Screw Expanders (SSE)
13.4.1.6. Stirling
Engines
13.4.1.7. Others
13.4.2. Installation
Support
13.4.2.1. Construction
Planning
13.4.2.2. Installation
Adjustments
13.4.2.3. Test
Operation
13.4.2.4. Installation
Supports
13.4.2.5. Others
13.5. North
America Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By
Organization Size
13.5.1. Small
and Medium Organizations
13.5.2. Large
Organizations
13.6. North
America Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By
Application
13.6.1. Petroleum
and Coal Products
13.6.2. Glass
Production, Incineration Systems and Cogeneration Systems
13.6.3. Garbage
Incineration Plant, Woody Biomass Boiler, Industrial Scale Incineration Systems
and Industrial Furnaces
13.6.4. Chemical
Manufacturing
13.6.5. Cement
and Ceramic Manufacturing
13.6.6. Primary
Metal Manufacturing and Nonmetallic Mineral Product Manufacturing
13.6.7. Heavy
Metal Production
13.6.8. Pulp
and Paper Industry
13.6.9. Food
and Beverage
13.6.10. Others
13.7. North
America Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Country
13.7.1. U.S
13.7.1.1. U.S
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Source of Waste
Heat Stream
13.7.1.1.1. Medium
to Low Temperature Heat Sources
13.7.1.1.2. High-temperature
Heat Sources
13.7.1.1.3. Steam
13.7.1.2. U.S
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Technology
13.7.1.2.1. Steam
Rankine Cycle
13.7.1.2.2. Organic
Rankine Cycle
13.7.1.2.3. Kalina
Cycle
13.7.1.2.4. Supercritical
Carbon Dioxide (CO2) Cycle
13.7.1.2.5. Heat
Recovery Systems
13.7.1.2.6. Others
13.7.1.3. U.S
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Product
13.7.1.3.1. Products
13.7.1.3.1.1. Thermoelectric
Generators
13.7.1.3.1.2. Piezoelectric
Generators
13.7.1.3.1.3. Thermionic
Devices
13.7.1.3.1.4. Thermo-photovoltaic
Generators
13.7.1.3.1.5. Small
steam-electric Generator
13.7.1.3.1.5.1. Electric generator using Waste Steam
13.7.1.3.1.5.2. Steam Screw Expanders (SSE)
13.7.1.3.1.6. Stirling
Engines
13.7.1.3.1.7. Others
13.7.1.3.2. Installation
Support
13.7.1.3.2.1. Construction
Planning
13.7.1.3.2.2. Installation
Adjustments
13.7.1.3.2.3. Test
Operation
13.7.1.3.2.4. Installation
Supports
13.7.1.3.2.5. Others
13.7.1.4. U.S
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Organization Size
13.7.1.4.1. Small
and Medium Organizations
13.7.1.4.2. Large
Organizations
13.7.1.5. U.S
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Application
13.7.1.5.1. Petroleum
and Coal Products
13.7.1.5.2. Glass
Production, Incineration Systems and Cogeneration Systems
13.7.1.5.3. Garbage
Incineration Plant, Woody Biomass Boiler, Industrial Scale Incineration Systems
and Industrial Furnaces
13.7.1.5.4. Chemical
Manufacturing
13.7.1.5.5. Cement
and Ceramic Manufacturing
13.7.1.5.6. Primary
Metal Manufacturing and Nonmetallic Mineral Product Manufacturing
13.7.1.5.7. Heavy
Metal Production
13.7.1.5.8. Pulp
and Paper Industry
13.7.1.5.9. Food
and Beverage
13.7.1.5.10. Others
13.7.2. Canada
13.7.2.1. Canada
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Source of Waste
Heat Stream
13.7.2.1.1. Medium
to Low Temperature Heat Sources
13.7.2.1.2. High-temperature
Heat Sources
13.7.2.1.3. Steam
13.7.2.2. Canada
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Technology
13.7.2.2.1. Steam
Rankine Cycle
13.7.2.2.2. Organic
Rankine Cycle
13.7.2.2.3. Kalina
Cycle
13.7.2.2.4. Supercritical
Carbon Dioxide (CO2) Cycle
13.7.2.2.5. Heat
Recovery Systems
13.7.2.2.6. Others
13.7.2.3. Canada
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Product
13.7.2.3.1. Products
13.7.2.3.1.1. Thermoelectric
Generators
13.7.2.3.1.2. Piezoelectric
Generators
13.7.2.3.1.3. Thermionic
Devices
13.7.2.3.1.4. Thermo-photovoltaic
Generators
13.7.2.3.1.5. Small
steam-electric Generator
13.7.2.3.1.5.1. Electric generator using Waste Steam
13.7.2.3.1.5.2. Steam Screw Expanders (SSE)
13.7.2.3.1.6. Stirling
Engines
13.7.2.3.1.7. Others
13.7.2.3.2. Installation
Support
13.7.2.3.2.1. Construction
Planning
13.7.2.3.2.2. Installation
Adjustments
13.7.2.3.2.3. Test
Operation
13.7.2.3.2.4. Installation
Supports
13.7.2.3.2.5. Others
13.7.2.4. Canada
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Organization Size
13.7.2.4.1. Small
and Medium Organizations
13.7.2.4.2. Large
Organizations
13.7.2.5. Canada
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Application
13.7.2.5.1. Petroleum
and Coal Products
13.7.2.5.2. Glass
Production, Incineration Systems and Cogeneration Systems
13.7.2.5.3. Garbage
Incineration Plant, Woody Biomass Boiler, Industrial Scale Incineration Systems
and Industrial Furnaces
13.7.2.5.4. Chemical
Manufacturing
13.7.2.5.5. Cement
and Ceramic Manufacturing
13.7.2.5.6. Primary
Metal Manufacturing and Nonmetallic Mineral Product Manufacturing
13.7.2.5.7. Heavy
Metal Production
13.7.2.5.8. Pulp
and Paper Industry
13.7.2.5.9. Food
and Beverage
13.7.2.5.10. Others
13.7.3. Mexico
13.7.3.1. Mexico
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Source of Waste
Heat Stream
13.7.3.1.1. Medium
to Low Temperature Heat Sources
13.7.3.1.2. High-temperature
Heat Sources
13.7.3.1.3. Steam
13.7.3.2. Mexico
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Technology
13.7.3.2.1. Steam
Rankine Cycle
13.7.3.2.2. Organic
Rankine Cycle
13.7.3.2.3. Kalina
Cycle
13.7.3.2.4. Supercritical
Carbon Dioxide (CO2) Cycle
13.7.3.2.5. Heat
Recovery Systems
13.7.3.2.6. Others
13.7.3.3. Mexico
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Product
13.7.3.3.1. Products
13.7.3.3.1.1. Thermoelectric
Generators
13.7.3.3.1.2. Piezoelectric
Generators
13.7.3.3.1.3. Thermionic
Devices
13.7.3.3.1.4. Thermo-photovoltaic
Generators
13.7.3.3.1.5. Small
steam-electric Generator
13.7.3.3.1.5.1. Electric generator using Waste Steam
13.7.3.3.1.5.2. Steam Screw Expanders (SSE)
13.7.3.3.1.6. Stirling
Engines
13.7.3.3.1.7. Others
13.7.3.3.2. Installation
Support
13.7.3.3.2.1. Construction
Planning
13.7.3.3.2.2. Installation
Adjustments
13.7.3.3.2.3. Test
Operation
13.7.3.3.2.4. Installation
Supports
13.7.3.3.2.5. Others
13.7.3.4. Mexico
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Organization Size
13.7.3.4.1. Small
and Medium Organizations
13.7.3.4.2. Large
Organizations
13.7.3.5. Mexico
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Application
13.7.3.5.1. Petroleum
and Coal Products
13.7.3.5.2. Glass
Production, Incineration Systems and Cogeneration Systems
13.7.3.5.3. Garbage
Incineration Plant, Woody Biomass Boiler, Industrial Scale Incineration Systems
and Industrial Furnaces
13.7.3.5.4. Chemical
Manufacturing
13.7.3.5.5. Cement
and Ceramic Manufacturing
13.7.3.5.6. Primary
Metal Manufacturing and Nonmetallic Mineral Product Manufacturing
13.7.3.5.7. Heavy
Metal Production
13.7.3.5.8. Pulp
and Paper Industry
13.7.3.5.9. Food
and Beverage
13.7.3.5.10. Others
13.7.4. Rest of
North America
13.7.4.1. Rest
of North America Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By
Source of Waste Heat Stream
13.7.4.1.1. Medium
to Low Temperature Heat Sources
13.7.4.1.2. High-temperature
Heat Sources
13.7.4.1.3. Steam
13.7.4.2. Rest
of North America Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By
Technology
13.7.4.2.1. Steam
Rankine Cycle
13.7.4.2.2. Organic
Rankine Cycle
13.7.4.2.3. Kalina
Cycle
13.7.4.2.4. Supercritical
Carbon Dioxide (CO2) Cycle
13.7.4.2.5. Heat
Recovery Systems
13.7.4.2.6. Others
13.7.4.3. Rest
of North America Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By
Product
13.7.4.3.1. Products
13.7.4.3.1.1. Thermoelectric
Generators
13.7.4.3.1.2. Piezoelectric
Generators
13.7.4.3.1.3. Thermionic
Devices
13.7.4.3.1.4. Thermo-photovoltaic
Generators
13.7.4.3.1.5. Small
steam-electric Generator
13.7.4.3.1.5.1. Electric generator using Waste Steam
13.7.4.3.1.5.2. Steam Screw Expanders (SSE)
13.7.4.3.1.6. Stirling
Engines
13.7.4.3.1.7. Others
13.7.4.3.2. Installation
Support
13.7.4.3.2.1. Construction
Planning
13.7.4.3.2.2. Installation
Adjustments
13.7.4.3.2.3. Test
Operation
13.7.4.3.2.4. Installation
Supports
13.7.4.3.2.5. Others
13.7.4.4. Rest
of North America Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By
Organization Size
13.7.4.4.1. Small
and Medium Organizations
13.7.4.4.2. Large
Organizations
13.7.4.5. Rest
of North America Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By
Application
13.7.4.5.1. Petroleum
and Coal Products
13.7.4.5.2. Glass
Production, Incineration Systems and Cogeneration Systems
13.7.4.5.3. Garbage
Incineration Plant, Woody Biomass Boiler, Industrial Scale Incineration Systems
and Industrial Furnaces
13.7.4.5.4. Chemical
Manufacturing
13.7.4.5.5. Cement
and Ceramic Manufacturing
13.7.4.5.6. Primary
Metal Manufacturing and Nonmetallic Mineral Product Manufacturing
13.7.4.5.7. Heavy
Metal Production
13.7.4.5.8. Pulp
and Paper Industry
13.7.4.5.9. Food
and Beverage
13.7.4.5.10. Others
13.8. Key
Segment for Channeling Investments
13.8.1. By
Country
13.8.2. By
Source of Waste Heat Stream
13.8.3. By
Technology
13.8.4. By
Product
13.8.5. By
Organization Size
13.8.6. By
Application
14. Europe
Waste Heat to Power Market Analysis and Forecasts, 2020 - 2028
14.1. Overview
14.1.1. Europe
Waste Heat to Power Market Revenue (US$ Mn)
14.2. Europe
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Source of Waste
Heat Stream
14.2.1. Medium
to Low Temperature Heat Sources
14.2.2. High-temperature
Heat Sources
14.2.3. Steam
14.3. Europe
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Technology
14.3.1. Steam
Rankine Cycle
14.3.2. Organic
Rankine Cycle
14.3.3. Kalina
Cycle
14.3.4. Supercritical
Carbon Dioxide (CO2) Cycle
14.3.5. Heat
Recovery Systems
14.3.6. Others
14.4. Europe
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Product
14.4.1. Products
14.4.1.1. Thermoelectric
Generators
14.4.1.2. Piezoelectric
Generators
14.4.1.3. Thermionic
Devices
14.4.1.4. Thermo-photovoltaic
Generators
14.4.1.5. Small
steam-electric Generator
14.4.1.5.1. Electric
generator using Waste Steam
14.4.1.5.2. Steam
Screw Expanders (SSE)
14.4.1.6. Stirling
Engines
14.4.1.7. Others
14.4.2. Installation
Support
14.4.2.1. Construction
Planning
14.4.2.2. Installation
Adjustments
14.4.2.3. Test
Operation
14.4.2.4. Installation
Supports
14.4.2.5. Others
14.5. Europe
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Organization Size
14.5.1. Small
and Medium Organizations
14.5.2. Large
Organizations
14.6. Europe
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Application
14.6.1. Petroleum
and Coal Products
14.6.2. Glass
Production, Incineration Systems and Cogeneration Systems
14.6.3. Garbage
Incineration Plant, Woody Biomass Boiler, Industrial Scale Incineration Systems
and Industrial Furnaces
14.6.4. Chemical
Manufacturing
14.6.5. Cement
and Ceramic Manufacturing
14.6.6. Primary
Metal Manufacturing and Nonmetallic Mineral Product Manufacturing
14.6.7. Heavy
Metal Production
14.6.8. Pulp
and Paper Industry
14.6.9. Food
and Beverage
14.6.10. Others
14.7. Europe
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Country
14.7.1. France
14.7.1.1. France
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Source of Waste
Heat Stream
14.7.1.1.1. Medium
to Low Temperature Heat Sources
14.7.1.1.2. High-temperature
Heat Sources
14.7.1.1.3. Steam
14.7.1.2. France
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Technology
14.7.1.2.1. Steam
Rankine Cycle
14.7.1.2.2. Organic
Rankine Cycle
14.7.1.2.3. Kalina
Cycle
14.7.1.2.4. Supercritical
Carbon Dioxide (CO2) Cycle
14.7.1.2.5. Heat
Recovery Systems
14.7.1.2.6. Others
14.7.1.3. France
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Product
14.7.1.3.1. Products
14.7.1.3.1.1. Thermoelectric
Generators
14.7.1.3.1.2. Piezoelectric
Generators
14.7.1.3.1.3. Thermionic
Devices
14.7.1.3.1.4. Thermo-photovoltaic
Generators
14.7.1.3.1.5. Small
steam-electric Generator
14.7.1.3.1.5.1. Electric generator using Waste Steam
14.7.1.3.1.5.2. Steam Screw Expanders (SSE)
14.7.1.3.1.6. Stirling
Engines
14.7.1.3.1.7. Others
14.7.1.3.2. Installation
Support
14.7.1.3.2.1. Construction
Planning
14.7.1.3.2.2. Installation
Adjustments
14.7.1.3.2.3. Test
Operation
14.7.1.3.2.4. Installation
Supports
14.7.1.3.2.5. Others
14.7.1.4. France
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Organization Size
14.7.1.4.1. Small
and Medium Organizations
14.7.1.4.2. Large
Organizations
14.7.1.5. France
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Application
14.7.1.5.1. Petroleum
and Coal Products
14.7.1.5.2. Glass
Production, Incineration Systems and Cogeneration Systems
14.7.1.5.3. Garbage
Incineration Plant, Woody Biomass Boiler, Industrial Scale Incineration Systems
and Industrial Furnaces
14.7.1.5.4. Chemical
Manufacturing
14.7.1.5.5. Cement
and Ceramic Manufacturing
14.7.1.5.6. Primary
Metal Manufacturing and Nonmetallic Mineral Product Manufacturing
14.7.1.5.7. Heavy
Metal Production
14.7.1.5.8. Pulp
and Paper Industry
14.7.1.5.9. Food
and Beverage
14.7.1.5.10. Others
14.7.2. The UK
14.7.2.1. The
UK Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Source of
Waste Heat Stream
14.7.2.1.1. Medium
to Low Temperature Heat Sources
14.7.2.1.2. High-temperature
Heat Sources
14.7.2.1.3. Steam
14.7.2.2. The
UK Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Technology
14.7.2.2.1. Steam
Rankine Cycle
14.7.2.2.2. Organic
Rankine Cycle
14.7.2.2.3. Kalina
Cycle
14.7.2.2.4. Supercritical
Carbon Dioxide (CO2) Cycle
14.7.2.2.5. Heat
Recovery Systems
14.7.2.2.6. Others
14.7.2.3. The
UK Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Product
14.7.2.3.1. Products
14.7.2.3.1.1. Thermoelectric
Generators
14.7.2.3.1.2. Piezoelectric
Generators
14.7.2.3.1.3. Thermionic
Devices
14.7.2.3.1.4. Thermo-photovoltaic
Generators
14.7.2.3.1.5. Small
steam-electric Generator
14.7.2.3.1.5.1. Electric generator using Waste Steam
14.7.2.3.1.5.2. Steam Screw Expanders (SSE)
14.7.2.3.1.6. Stirling
Engines
14.7.2.3.1.7. Others
14.7.2.3.2. Installation
Support
14.7.2.3.2.1. Construction
Planning
14.7.2.3.2.2. Installation
Adjustments
14.7.2.3.2.3. Test
Operation
14.7.2.3.2.4. Installation
Supports
14.7.2.3.2.5. Others
14.7.2.4. The
UK Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Organization
Size
14.7.2.4.1. Small
and Medium Organizations
14.7.2.4.2. Large
Organizations
14.7.2.5. The
UK Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Application
14.7.2.5.1. Petroleum
and Coal Products
14.7.2.5.2. Glass
Production, Incineration Systems and Cogeneration Systems
14.7.2.5.3. Garbage
Incineration Plant, Woody Biomass Boiler, Industrial Scale Incineration Systems
and Industrial Furnaces
14.7.2.5.4. Chemical
Manufacturing
14.7.2.5.5. Cement
and Ceramic Manufacturing
14.7.2.5.6. Primary
Metal Manufacturing and Nonmetallic Mineral Product Manufacturing
14.7.2.5.7. Heavy
Metal Production
14.7.2.5.8. Pulp
and Paper Industry
14.7.2.5.9. Food
and Beverage
14.7.2.5.10. Others
14.7.3. Spain
14.7.3.1. Spain
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Source of Waste
Heat Stream
14.7.3.1.1. Medium
to Low Temperature Heat Sources
14.7.3.1.2. High-temperature
Heat Sources
14.7.3.1.3. Steam
14.7.3.2. Spain
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Technology
14.7.3.2.1. Steam
Rankine Cycle
14.7.3.2.2. Organic
Rankine Cycle
14.7.3.2.3. Kalina
Cycle
14.7.3.2.4. Supercritical
Carbon Dioxide (CO2) Cycle
14.7.3.2.5. Heat
Recovery Systems
14.7.3.2.6. Others
14.7.3.3. Spain
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Product
14.7.3.3.1. Products
14.7.3.3.1.1. Thermoelectric
Generators
14.7.3.3.1.2. Piezoelectric
Generators
14.7.3.3.1.3. Thermionic
Devices
14.7.3.3.1.4. Thermo-photovoltaic
Generators
14.7.3.3.1.5. Small
steam-electric Generator
14.7.3.3.1.5.1. Electric generator using Waste Steam
14.7.3.3.1.5.2. Steam Screw Expanders (SSE)
14.7.3.3.1.6. Stirling
Engines
14.7.3.3.1.7. Others
14.7.3.3.2. Installation
Support
14.7.3.3.2.1. Construction
Planning
14.7.3.3.2.2. Installation
Adjustments
14.7.3.3.2.3. Test
Operation
14.7.3.3.2.4. Installation
Supports
14.7.3.3.2.5. Others
14.7.3.4. Spain
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Organization Size
14.7.3.4.1. Small
and Medium Organizations
14.7.3.4.2. Large
Organizations
14.7.3.5. Spain
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Application
14.7.3.5.1. Petroleum
and Coal Products
14.7.3.5.2. Glass
Production, Incineration Systems and Cogeneration Systems
14.7.3.5.3. Garbage
Incineration Plant, Woody Biomass Boiler, Industrial Scale Incineration Systems
and Industrial Furnaces
14.7.3.5.4. Chemical
Manufacturing
14.7.3.5.5. Cement
and Ceramic Manufacturing
14.7.3.5.6. Primary
Metal Manufacturing and Nonmetallic Mineral Product Manufacturing
14.7.3.5.7. Heavy
Metal Production
14.7.3.5.8. Pulp
and Paper Industry
14.7.3.5.9. Food
and Beverage
14.7.3.5.10. Others
14.7.4. Germany
14.7.4.1. Germany
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Source of Waste
Heat Stream
14.7.4.1.1. Medium
to Low Temperature Heat Sources
14.7.4.1.2. High-temperature
Heat Sources
14.7.4.1.3. Steam
14.7.4.2. Germany
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Technology
14.7.4.2.1. Steam
Rankine Cycle
14.7.4.2.2. Organic
Rankine Cycle
14.7.4.2.3. Kalina
Cycle
14.7.4.2.4. Supercritical
Carbon Dioxide (CO2) Cycle
14.7.4.2.5. Heat
Recovery Systems
14.7.4.2.6. Others
14.7.4.3. Germany
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Product
14.7.4.3.1. Products
14.7.4.3.1.1. Thermoelectric
Generators
14.7.4.3.1.2. Piezoelectric
Generators
14.7.4.3.1.3. Thermionic
Devices
14.7.4.3.1.4. Thermo-photovoltaic
Generators
14.7.4.3.1.5. Small
steam-electric Generator
14.7.4.3.1.5.1. Electric generator using Waste Steam
14.7.4.3.1.5.2. Steam Screw Expanders (SSE)
14.7.4.3.1.6. Stirling
Engines
14.7.4.3.1.7. Others
14.7.4.3.2. Installation
Support
14.7.4.3.2.1. Construction
Planning
14.7.4.3.2.2. Installation
Adjustments
14.7.4.3.2.3. Test
Operation
14.7.4.3.2.4. Installation
Supports
14.7.4.3.2.5. Others
14.7.4.4. Germany
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Organization Size
14.7.4.4.1. Small
and Medium Organizations
14.7.4.4.2. Large
Organizations
14.7.4.5. Germany
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Application
14.7.4.5.1. Petroleum
and Coal Products
14.7.4.5.2. Glass
Production, Incineration Systems and Cogeneration Systems
14.7.4.5.3. Garbage
Incineration Plant, Woody Biomass Boiler, Industrial Scale Incineration Systems
and Industrial Furnaces
14.7.4.5.4. Chemical
Manufacturing
14.7.4.5.5. Cement
and Ceramic Manufacturing
14.7.4.5.6. Primary
Metal Manufacturing and Nonmetallic Mineral Product Manufacturing
14.7.4.5.7. Heavy
Metal Production
14.7.4.5.8. Pulp
and Paper Industry
14.7.4.5.9. Food
and Beverage
14.7.4.5.10. Others
14.7.5. Italy
14.7.5.1. Italy
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Source of Waste
Heat Stream
14.7.5.1.1. Medium
to Low Temperature Heat Sources
14.7.5.1.2. High-temperature
Heat Sources
14.7.5.1.3. Steam
14.7.5.2. Italy
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Technology
14.7.5.2.1. Steam
Rankine Cycle
14.7.5.2.2. Organic
Rankine Cycle
14.7.5.2.3. Kalina
Cycle
14.7.5.2.4. Supercritical
Carbon Dioxide (CO2) Cycle
14.7.5.2.5. Heat
Recovery Systems
14.7.5.2.6. Others
14.7.5.3. Italy
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Product
14.7.5.3.1. Products
14.7.5.3.1.1. Thermoelectric
Generators
14.7.5.3.1.2. Piezoelectric
Generators
14.7.5.3.1.3. Thermionic
Devices
14.7.5.3.1.4. Thermo-photovoltaic
Generators
14.7.5.3.1.5. Small
steam-electric Generator
14.7.5.3.1.5.1. Electric generator using Waste Steam
14.7.5.3.1.5.2. Steam Screw Expanders (SSE)
14.7.5.3.1.6. Stirling
Engines
14.7.5.3.1.7. Others
14.7.5.3.2. Installation
Support
14.7.5.3.2.1. Construction
Planning
14.7.5.3.2.2. Installation
Adjustments
14.7.5.3.2.3. Test
Operation
14.7.5.3.2.4. Installation
Supports
14.7.5.3.2.5. Others
14.7.5.4. Italy
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Organization Size
14.7.5.4.1. Small
and Medium Organizations
14.7.5.4.2. Large
Organizations
14.7.5.5. Italy
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Application
14.7.5.5.1. Petroleum
and Coal Products
14.7.5.5.2. Glass
Production, Incineration Systems and Cogeneration Systems
14.7.5.5.3. Garbage
Incineration Plant, Woody Biomass Boiler, Industrial Scale Incineration Systems
and Industrial Furnaces
14.7.5.5.4. Chemical
Manufacturing
14.7.5.5.5. Cement
and Ceramic Manufacturing
14.7.5.5.6. Primary
Metal Manufacturing and Nonmetallic Mineral Product Manufacturing
14.7.5.5.7. Heavy
Metal Production
14.7.5.5.8. Pulp
and Paper Industry
14.7.5.5.9. Food
and Beverage
14.7.5.5.10. Others
14.7.6. Nordic
Countries
14.7.6.1. Nordic
Countries Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Source
of Waste Heat Stream
14.7.6.1.1. Medium
to Low Temperature Heat Sources
14.7.6.1.2. High-temperature
Heat Sources
14.7.6.1.3. Steam
14.7.6.2. Nordic
Countries Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By
Technology
14.7.6.2.1. Steam
Rankine Cycle
14.7.6.2.2. Organic
Rankine Cycle
14.7.6.2.3. Kalina
Cycle
14.7.6.2.4. Supercritical
Carbon Dioxide (CO2) Cycle
14.7.6.2.5. Heat
Recovery Systems
14.7.6.2.6. Others
14.7.6.3. Nordic
Countries Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Product
14.7.6.3.1. Products
14.7.6.3.1.1. Thermoelectric
Generators
14.7.6.3.1.2. Piezoelectric
Generators
14.7.6.3.1.3. Thermionic
Devices
14.7.6.3.1.4. Thermo-photovoltaic
Generators
14.7.6.3.1.5. Small
steam-electric Generator
14.7.6.3.1.5.1. Electric generator using Waste Steam
14.7.6.3.1.5.2. Steam Screw Expanders (SSE)
14.7.6.3.1.6. Stirling
Engines
14.7.6.3.1.7. Others
14.7.6.3.2. Installation
Support
14.7.6.3.2.1. Construction
Planning
14.7.6.3.2.2. Installation
Adjustments
14.7.6.3.2.3. Test
Operation
14.7.6.3.2.4. Installation
Supports
14.7.6.3.2.5. Others
14.7.6.4. Nordic
Countries Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By
Organization Size
14.7.6.4.1. Small
and Medium Organizations
14.7.6.4.2. Large
Organizations
14.7.6.5. Nordic
Countries Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By
Application
14.7.6.5.1. Petroleum
and Coal Products
14.7.6.5.2. Glass
Production, Incineration Systems and Cogeneration Systems
14.7.6.5.3. Garbage
Incineration Plant, Woody Biomass Boiler, Industrial Scale Incineration Systems
and Industrial Furnaces
14.7.6.5.4. Chemical
Manufacturing
14.7.6.5.5. Cement
and Ceramic Manufacturing
14.7.6.5.6. Primary
Metal Manufacturing and Nonmetallic Mineral Product Manufacturing
14.7.6.5.7. Heavy
Metal Production
14.7.6.5.8. Pulp
and Paper Industry
14.7.6.5.9. Food
and Beverage
14.7.6.5.10. Others
14.7.6.6. Nordic
Countries Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Country
14.7.6.6.1. Denmark
14.7.6.6.2. Finland
14.7.6.6.3. Iceland
14.7.6.6.4. Sweden
14.7.6.6.5. Norway
14.7.7. Benelux
Union
14.7.7.1. Benelux
Union Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Source of
Waste Heat Stream
14.7.7.1.1. Medium
to Low Temperature Heat Sources
14.7.7.1.2. High-temperature
Heat Sources
14.7.7.1.3. Steam
14.7.7.2. Benelux
Union Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Technology
14.7.7.2.1. Steam
Rankine Cycle
14.7.7.2.2. Organic
Rankine Cycle
14.7.7.2.3. Kalina
Cycle
14.7.7.2.4. Supercritical
Carbon Dioxide (CO2) Cycle
14.7.7.2.5. Heat
Recovery Systems
14.7.7.2.6. Others
14.7.7.3. Benelux
Union Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Product
14.7.7.3.1. Products
14.7.7.3.1.1. Thermoelectric
Generators
14.7.7.3.1.2. Piezoelectric
Generators
14.7.7.3.1.3. Thermionic
Devices
14.7.7.3.1.4. Thermo-photovoltaic
Generators
14.7.7.3.1.5. Small
steam-electric Generator
14.7.7.3.1.5.1. Electric generator using Waste Steam
14.7.7.3.1.5.2. Steam Screw Expanders (SSE)
14.7.7.3.1.6. Stirling
Engines
14.7.7.3.1.7. Others
14.7.7.3.2. Installation
Support
14.7.7.3.2.1. Construction
Planning
14.7.7.3.2.2. Installation
Adjustments
14.7.7.3.2.3. Test
Operation
14.7.7.3.2.4. Installation
Supports
14.7.7.3.2.5. Others
14.7.7.4. Benelux
Union Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By
Organization Size
14.7.7.4.1. Small
and Medium Organizations
14.7.7.4.2. Large
Organizations
14.7.7.5. Benelux
Union Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Application
14.7.7.5.1. Petroleum
and Coal Products
14.7.7.5.2. Glass
Production, Incineration Systems and Cogeneration Systems
14.7.7.5.3. Garbage
Incineration Plant, Woody Biomass Boiler, Industrial Scale Incineration Systems
and Industrial Furnaces
14.7.7.5.4. Chemical
Manufacturing
14.7.7.5.5. Cement
and Ceramic Manufacturing
14.7.7.5.6. Primary
Metal Manufacturing and Nonmetallic Mineral Product Manufacturing
14.7.7.5.7. Heavy
Metal Production
14.7.7.5.8. Pulp
and Paper Industry
14.7.7.5.9. Food
and Beverage
14.7.7.5.10. Others
14.7.7.6. Benelux
Union Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Country
14.7.7.6.1. Belgium
14.7.7.6.2. The
Netherlands
14.7.7.6.3. Luxembourg
14.7.8. Rest of
Europe
14.7.8.1. Rest
of Europe Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Source
of Waste Heat Stream
14.7.8.1.1. Medium
to Low Temperature Heat Sources
14.7.8.1.2. High-temperature
Heat Sources
14.7.8.1.3. Steam
14.7.8.2. Rest
of Europe Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By
Technology
14.7.8.2.1. Steam
Rankine Cycle
14.7.8.2.2. Organic
Rankine Cycle
14.7.8.2.3. Kalina
Cycle
14.7.8.2.4. Supercritical
Carbon Dioxide (CO2) Cycle
14.7.8.2.5. Heat
Recovery Systems
14.7.8.2.6. Others
14.7.8.3. Rest
of Europe Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Product
14.7.8.3.1. Products
14.7.8.3.1.1. Thermoelectric
Generators
14.7.8.3.1.2. Piezoelectric
Generators
14.7.8.3.1.3. Thermionic
Devices
14.7.8.3.1.4. Thermo-photovoltaic
Generators
14.7.8.3.1.5. Small
steam-electric Generator
14.7.8.3.1.5.1. Electric generator using Waste Steam
14.7.8.3.1.5.2. Steam Screw Expanders (SSE)
14.7.8.3.1.6. Stirling
Engines
14.7.8.3.1.7. Others
14.7.8.3.2. Installation
Support
14.7.8.3.2.1. Construction
Planning
14.7.8.3.2.2. Installation
Adjustments
14.7.8.3.2.3. Test
Operation
14.7.8.3.2.4. Installation
Supports
14.7.8.3.2.5. Others
14.7.8.4. Rest
of Europe Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By
Organization Size
14.7.8.4.1. Small
and Medium Organizations
14.7.8.4.2. Large
Organizations
14.7.8.5. Rest
of Europe Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By
Application
14.7.8.5.1. Petroleum
and Coal Products
14.7.8.5.2. Glass
Production, Incineration Systems and Cogeneration Systems
14.7.8.5.3. Garbage
Incineration Plant, Woody Biomass Boiler, Industrial Scale Incineration Systems
and Industrial Furnaces
14.7.8.5.4. Chemical
Manufacturing
14.7.8.5.5. Cement
and Ceramic Manufacturing
14.7.8.5.6. Primary
Metal Manufacturing and Nonmetallic Mineral Product Manufacturing
14.7.8.5.7. Heavy
Metal Production
14.7.8.5.8. Pulp
and Paper Industry
14.7.8.5.9. Food
and Beverage
14.7.8.5.10. Others
14.8. Key
Segment for Channeling Investments
14.8.1. By
Country
14.8.2. By
Source of Waste Heat Stream
14.8.3. By
Technology
14.8.4. By
Product
14.8.5. By
Organization Size
14.8.6. By
Application
15. Asia
Pacific Waste Heat to Power Market Analysis and Forecasts, 2020 - 2028
15.1. Overview
15.1.1. Asia
Pacific Waste Heat to Power Market Revenue (US$ Mn)
15.2. Asia
Pacific Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Source of
Waste Heat Stream
15.2.1. Medium
to Low Temperature Heat Sources
15.2.2. High-temperature
Heat Sources
15.2.3. Steam
15.3. Asia
Pacific Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By
Technology
15.3.1. Steam
Rankine Cycle
15.3.2. Organic
Rankine Cycle
15.3.3. Kalina
Cycle
15.3.4. Supercritical
Carbon Dioxide (CO2) Cycle
15.3.5. Heat
Recovery Systems
15.3.6. Others
15.4. Asia
Pacific Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Product
15.4.1. Products
15.4.1.1. Thermoelectric
Generators
15.4.1.2. Piezoelectric
Generators
15.4.1.3. Thermionic
Devices
15.4.1.4. Thermo-photovoltaic
Generators
15.4.1.5. Small
steam-electric Generator
15.4.1.5.1. Electric
generator using Waste Steam
15.4.1.5.2. Steam
Screw Expanders (SSE)
15.4.1.6. Stirling
Engines
15.4.1.7. Others
15.4.2. Installation
Support
15.4.2.1. Construction
Planning
15.4.2.2. Installation
Adjustments
15.4.2.3. Test
Operation
15.4.2.4. Installation
Supports
15.4.2.5. Others
15.5. Asia
Pacific Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By
Organization Size
15.5.1. Small
and Medium Organizations
15.5.2. Large
Organizations
15.6. Asia
Pacific Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By
Application
15.6.1. Petroleum
and Coal Products
15.6.2. Glass
Production, Incineration Systems and Cogeneration Systems
15.6.3. Garbage
Incineration Plant, Woody Biomass Boiler, Industrial Scale Incineration Systems
and Industrial Furnaces
15.6.4. Chemical
Manufacturing
15.6.5. Cement
and Ceramic Manufacturing
15.6.6. Primary
Metal Manufacturing and Nonmetallic Mineral Product Manufacturing
15.6.7. Heavy
Metal Production
15.6.8. Pulp
and Paper Industry
15.6.9. Food
and Beverage
15.6.10. Others
15.7. Asia
Pacific Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Country
15.7.1. China
15.7.1.1. China
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Source of Waste
Heat Stream
15.7.1.1.1. Medium
to Low Temperature Heat Sources
15.7.1.1.2. High-temperature
Heat Sources
15.7.1.1.3. Steam
15.7.1.2. China
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Technology
15.7.1.2.1. Steam
Rankine Cycle
15.7.1.2.2. Organic
Rankine Cycle
15.7.1.2.3. Kalina
Cycle
15.7.1.2.4. Supercritical
Carbon Dioxide (CO2) Cycle
15.7.1.2.5. Heat
Recovery Systems
15.7.1.2.6. Others
15.7.1.3. China
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Product
15.7.1.3.1. Products
15.7.1.3.1.1. Thermoelectric
Generators
15.7.1.3.1.2. Piezoelectric
Generators
15.7.1.3.1.3. Thermionic
Devices
15.7.1.3.1.4. Thermo-photovoltaic
Generators
15.7.1.3.1.5. Small
steam-electric Generator
15.7.1.3.1.5.1. Electric generator using Waste Steam
15.7.1.3.1.5.2. Steam Screw Expanders (SSE)
15.7.1.3.1.6. Stirling
Engines
15.7.1.3.1.7. Others
15.7.1.3.2. Installation
Support
15.7.1.3.2.1. Construction
Planning
15.7.1.3.2.2. Installation
Adjustments
15.7.1.3.2.3. Test
Operation
15.7.1.3.2.4. Installation
Supports
15.7.1.3.2.5. Others
15.7.1.4. China
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Organization Size
15.7.1.4.1. Small
and Medium Organizations
15.7.1.4.2. Large
Organizations
15.7.1.5. China
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Application
15.7.1.5.1. Petroleum
and Coal Products
15.7.1.5.2. Glass
Production, Incineration Systems and Cogeneration Systems
15.7.1.5.3. Garbage
Incineration Plant, Woody Biomass Boiler, Industrial Scale Incineration Systems
and Industrial Furnaces
15.7.1.5.4. Chemical
Manufacturing
15.7.1.5.5. Cement
and Ceramic Manufacturing
15.7.1.5.6. Primary
Metal Manufacturing and Nonmetallic Mineral Product Manufacturing
15.7.1.5.7. Heavy
Metal Production
15.7.1.5.8. Pulp
and Paper Industry
15.7.1.5.9. Food
and Beverage
15.7.1.5.10. Others
15.7.2. Japan
15.7.2.1. Japan
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Source of Waste
Heat Stream
15.7.2.1.1. Medium
to Low Temperature Heat Sources
15.7.2.1.2. High-temperature
Heat Sources
15.7.2.1.3. Steam
15.7.2.2. Japan
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Technology
15.7.2.2.1. Steam
Rankine Cycle
15.7.2.2.2. Organic
Rankine Cycle
15.7.2.2.3. Kalina
Cycle
15.7.2.2.4. Supercritical
Carbon Dioxide (CO2) Cycle
15.7.2.2.5. Heat
Recovery Systems
15.7.2.2.6. Others
15.7.2.3. Japan
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Product
15.7.2.3.1. Products
15.7.2.3.1.1. Thermoelectric
Generators
15.7.2.3.1.2. Piezoelectric
Generators
15.7.2.3.1.3. Thermionic
Devices
15.7.2.3.1.4. Thermo-photovoltaic
Generators
15.7.2.3.1.5. Small
steam-electric Generator
15.7.2.3.1.5.1. Electric generator using Waste Steam
15.7.2.3.1.5.2. Steam Screw Expanders (SSE)
15.7.2.3.1.6. Stirling
Engines
15.7.2.3.1.7. Others
15.7.2.3.2. Installation
Support
15.7.2.3.2.1. Construction
Planning
15.7.2.3.2.2. Installation
Adjustments
15.7.2.3.2.3. Test
Operation
15.7.2.3.2.4. Installation
Supports
15.7.2.3.2.5. Others
15.7.2.4. Japan
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Organization Size
15.7.2.4.1. Small
and Medium Organizations
15.7.2.4.2. Large
Organizations
15.7.2.5. Japan
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Application
15.7.2.5.1. Petroleum
and Coal Products
15.7.2.5.2. Glass
Production, Incineration Systems and Cogeneration Systems
15.7.2.5.3. Garbage
Incineration Plant, Woody Biomass Boiler, Industrial Scale Incineration Systems
and Industrial Furnaces
15.7.2.5.4. Chemical
Manufacturing
15.7.2.5.5. Cement
and Ceramic Manufacturing
15.7.2.5.6. Primary
Metal Manufacturing and Nonmetallic Mineral Product Manufacturing
15.7.2.5.7. Heavy
Metal Production
15.7.2.5.8. Pulp
and Paper Industry
15.7.2.5.9. Food
and Beverage
15.7.2.5.10. Others
15.7.3. India
15.7.3.1. India
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Source of Waste
Heat Stream
15.7.3.1.1. Medium
to Low Temperature Heat Sources
15.7.3.1.2. High-temperature
Heat Sources
15.7.3.1.3. Steam
15.7.3.2. India
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Technology
15.7.3.2.1. Steam
Rankine Cycle
15.7.3.2.2. Organic
Rankine Cycle
15.7.3.2.3. Kalina
Cycle
15.7.3.2.4. Supercritical
Carbon Dioxide (CO2) Cycle
15.7.3.2.5. Heat
Recovery Systems
15.7.3.2.6. Others
15.7.3.3. India
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Product
15.7.3.3.1. Products
15.7.3.3.1.1. Thermoelectric
Generators
15.7.3.3.1.2. Piezoelectric
Generators
15.7.3.3.1.3. Thermionic
Devices
15.7.3.3.1.4. Thermo-photovoltaic
Generators
15.7.3.3.1.5. Small
steam-electric Generator
15.7.3.3.1.5.1. Electric generator using Waste Steam
15.7.3.3.1.5.2. Steam Screw Expanders (SSE)
15.7.3.3.1.6. Stirling
Engines
15.7.3.3.1.7. Others
15.7.3.3.2. Installation
Support
15.7.3.3.2.1. Construction
Planning
15.7.3.3.2.2. Installation
Adjustments
15.7.3.3.2.3. Test
Operation
15.7.3.3.2.4. Installation
Supports
15.7.3.3.2.5. Others
15.7.3.4. India
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Organization Size
15.7.3.4.1. Small
and Medium Organizations
15.7.3.4.2. Large
Organizations
15.7.3.5. India
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Application
15.7.3.5.1. Petroleum
and Coal Products
15.7.3.5.2. Glass
Production, Incineration Systems and Cogeneration Systems
15.7.3.5.3. Garbage
Incineration Plant, Woody Biomass Boiler, Industrial Scale Incineration Systems
and Industrial Furnaces
15.7.3.5.4. Chemical
Manufacturing
15.7.3.5.5. Cement
and Ceramic Manufacturing
15.7.3.5.6. Primary
Metal Manufacturing and Nonmetallic Mineral Product Manufacturing
15.7.3.5.7. Heavy
Metal Production
15.7.3.5.8. Pulp
and Paper Industry
15.7.3.5.9. Food
and Beverage
15.7.3.5.10. Others
15.7.4. New
Zealand
15.7.4.1. New
Zealand Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Source of
Waste Heat Stream
15.7.4.1.1. Medium
to Low Temperature Heat Sources
15.7.4.1.2. High-temperature
Heat Sources
15.7.4.1.3. Steam
15.7.4.2. New
Zealand Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By
Technology
15.7.4.2.1. Steam
Rankine Cycle
15.7.4.2.2. Organic
Rankine Cycle
15.7.4.2.3. Kalina
Cycle
15.7.4.2.4. Supercritical
Carbon Dioxide (CO2) Cycle
15.7.4.2.5. Heat
Recovery Systems
15.7.4.2.6. Others
15.7.4.3. New
Zealand Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Product
15.7.4.3.1. Products
15.7.4.3.1.1. Thermoelectric
Generators
15.7.4.3.1.2. Piezoelectric
Generators
15.7.4.3.1.3. Thermionic
Devices
15.7.4.3.1.4. Thermo-photovoltaic
Generators
15.7.4.3.1.5. Small
steam-electric Generator
15.7.4.3.1.5.1. Electric generator using Waste Steam
15.7.4.3.1.5.2. Steam Screw Expanders (SSE)
15.7.4.3.1.6. Stirling
Engines
15.7.4.3.1.7. Others
15.7.4.3.2. Installation
Support
15.7.4.3.2.1. Construction
Planning
15.7.4.3.2.2. Installation
Adjustments
15.7.4.3.2.3. Test
Operation
15.7.4.3.2.4. Installation
Supports
15.7.4.3.2.5. Others
15.7.4.4. New
Zealand Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By
Organization Size
15.7.4.4.1. Small
and Medium Organizations
15.7.4.4.2. Large
Organizations
15.7.4.5. New
Zealand Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By
Application
15.7.4.5.1. Petroleum
and Coal Products
15.7.4.5.2. Glass
Production, Incineration Systems and Cogeneration Systems
15.7.4.5.3. Garbage
Incineration Plant, Woody Biomass Boiler, Industrial Scale Incineration Systems
and Industrial Furnaces
15.7.4.5.4. Chemical
Manufacturing
15.7.4.5.5. Cement
and Ceramic Manufacturing
15.7.4.5.6. Primary
Metal Manufacturing and Nonmetallic Mineral Product Manufacturing
15.7.4.5.7. Heavy
Metal Production
15.7.4.5.8. Pulp
and Paper Industry
15.7.4.5.9. Food
and Beverage
15.7.4.5.10. Others
15.7.5. Australia
15.7.5.1. Australia
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Source of Waste
Heat Stream
15.7.5.1.1. Medium
to Low Temperature Heat Sources
15.7.5.1.2. High-temperature
Heat Sources
15.7.5.1.3. Steam
15.7.5.2. Australia
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Technology
15.7.5.2.1. Steam
Rankine Cycle
15.7.5.2.2. Organic
Rankine Cycle
15.7.5.2.3. Kalina
Cycle
15.7.5.2.4. Supercritical
Carbon Dioxide (CO2) Cycle
15.7.5.2.5. Heat
Recovery Systems
15.7.5.2.6. Others
15.7.5.3. Australia
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Product
15.7.5.3.1. Products
15.7.5.3.1.1. Thermoelectric
Generators
15.7.5.3.1.2. Piezoelectric
Generators
15.7.5.3.1.3. Thermionic
Devices
15.7.5.3.1.4. Thermo-photovoltaic
Generators
15.7.5.3.1.5. Small
steam-electric Generator
15.7.5.3.1.5.1. Electric generator using Waste Steam
15.7.5.3.1.5.2. Steam Screw Expanders (SSE)
15.7.5.3.1.6. Stirling
Engines
15.7.5.3.1.7. Others
15.7.5.3.2. Installation
Support
15.7.5.3.2.1. Construction
Planning
15.7.5.3.2.2. Installation
Adjustments
15.7.5.3.2.3. Test
Operation
15.7.5.3.2.4. Installation
Supports
15.7.5.3.2.5. Others
15.7.5.4. Australia
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Organization Size
15.7.5.4.1. Small
and Medium Organizations
15.7.5.4.2. Large
Organizations
15.7.5.5. Australia
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Application
15.7.5.5.1. Petroleum
and Coal Products
15.7.5.5.2. Glass
Production, Incineration Systems and Cogeneration Systems
15.7.5.5.3. Garbage
Incineration Plant, Woody Biomass Boiler, Industrial Scale Incineration Systems
and Industrial Furnaces
15.7.5.5.4. Chemical
Manufacturing
15.7.5.5.5. Cement
and Ceramic Manufacturing
15.7.5.5.6. Primary
Metal Manufacturing and Nonmetallic Mineral Product Manufacturing
15.7.5.5.7. Heavy
Metal Production
15.7.5.5.8. Pulp
and Paper Industry
15.7.5.5.9. Food
and Beverage
15.7.5.5.10. Others
15.7.6. South
Korea
15.7.6.1. South
Korea Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Source of
Waste Heat Stream
15.7.6.1.1. Medium
to Low Temperature Heat Sources
15.7.6.1.2. High-temperature
Heat Sources
15.7.6.1.3. Steam
15.7.6.2. South
Korea Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Technology
15.7.6.2.1. Steam
Rankine Cycle
15.7.6.2.2. Organic
Rankine Cycle
15.7.6.2.3. Kalina
Cycle
15.7.6.2.4. Supercritical
Carbon Dioxide (CO2) Cycle
15.7.6.2.5. Heat
Recovery Systems
15.7.6.2.6. Others
15.7.6.3. South
Korea Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Product
15.7.6.3.1. Products
15.7.6.3.1.1. Thermoelectric
Generators
15.7.6.3.1.2. Piezoelectric
Generators
15.7.6.3.1.3. Thermionic
Devices
15.7.6.3.1.4. Thermo-photovoltaic
Generators
15.7.6.3.1.5. Small
steam-electric Generator
15.7.6.3.1.5.1. Electric generator using Waste Steam
15.7.6.3.1.5.2. Steam Screw Expanders (SSE)
15.7.6.3.1.6. Stirling
Engines
15.7.6.3.1.7. Others
15.7.6.3.2. Installation
Support
15.7.6.3.2.1. Construction
Planning
15.7.6.3.2.2. Installation
Adjustments
15.7.6.3.2.3. Test
Operation
15.7.6.3.2.4. Installation
Supports
15.7.6.3.2.5. Others
15.7.6.4. South
Korea Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By
Organization Size
15.7.6.4.1. Small
and Medium Organizations
15.7.6.4.2. Large
Organizations
15.7.6.5. South
Korea Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Application
15.7.6.5.1. Petroleum
and Coal Products
15.7.6.5.2. Glass
Production, Incineration Systems and Cogeneration Systems
15.7.6.5.3. Garbage
Incineration Plant, Woody Biomass Boiler, Industrial Scale Incineration Systems
and Industrial Furnaces
15.7.6.5.4. Chemical
Manufacturing
15.7.6.5.5. Cement
and Ceramic Manufacturing
15.7.6.5.6. Primary
Metal Manufacturing and Nonmetallic Mineral Product Manufacturing
15.7.6.5.7. Heavy
Metal Production
15.7.6.5.8. Pulp
and Paper Industry
15.7.6.5.9. Food
and Beverage
15.7.6.5.10. Others
15.7.7. Southeast
Asia
15.7.7.1. Southeast
Asia Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Source of
Waste Heat Stream
15.7.7.1.1. Medium
to Low Temperature Heat Sources
15.7.7.1.2. High-temperature
Heat Sources
15.7.7.1.3. Steam
15.7.7.2. Southeast
Asia Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Technology
15.7.7.2.1. Steam
Rankine Cycle
15.7.7.2.2. Organic
Rankine Cycle
15.7.7.2.3. Kalina
Cycle
15.7.7.2.4. Supercritical
Carbon Dioxide (CO2) Cycle
15.7.7.2.5. Heat
Recovery Systems
15.7.7.2.6. Others
15.7.7.3. Southeast
Asia Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Product
15.7.7.3.1. Products
15.7.7.3.1.1. Thermoelectric
Generators
15.7.7.3.1.2. Piezoelectric
Generators
15.7.7.3.1.3. Thermionic
Devices
15.7.7.3.1.4. Thermo-photovoltaic
Generators
15.7.7.3.1.5. Small
steam-electric Generator
15.7.7.3.1.5.1. Electric generator using Waste Steam
15.7.7.3.1.5.2. Steam Screw Expanders (SSE)
15.7.7.3.1.6. Stirling
Engines
15.7.7.3.1.7. Others
15.7.7.3.2. Installation
Support
15.7.7.3.2.1. Construction
Planning
15.7.7.3.2.2. Installation
Adjustments
15.7.7.3.2.3. Test
Operation
15.7.7.3.2.4. Installation
Supports
15.7.7.3.2.5. Others
15.7.7.4. Southeast
Asia Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Organization
Size
15.7.7.4.1. Small
and Medium Organizations
15.7.7.4.2. Large
Organizations
15.7.7.5. Southeast
Asia Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Application
15.7.7.5.1. Petroleum
and Coal Products
15.7.7.5.2. Glass
Production, Incineration Systems and Cogeneration Systems
15.7.7.5.3. Garbage
Incineration Plant, Woody Biomass Boiler, Industrial Scale Incineration Systems
and Industrial Furnaces
15.7.7.5.4. Chemical
Manufacturing
15.7.7.5.5. Cement
and Ceramic Manufacturing
15.7.7.5.6. Primary
Metal Manufacturing and Nonmetallic Mineral Product Manufacturing
15.7.7.5.7. Heavy
Metal Production
15.7.7.5.8. Pulp
and Paper Industry
15.7.7.5.9. Food
and Beverage
15.7.7.5.10. Others
15.7.7.6. Southeast
Asia Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Country
15.7.7.6.1. Indonesia
15.7.7.6.2. Thailand
15.7.7.6.3. Malaysia
15.7.7.6.4. Singapore
15.7.7.6.5. Rest
of Southeast Asia
15.7.8. Rest of
Asia Pacific
15.7.8.1. Rest
of Asia Pacific Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By
Source of Waste Heat Stream
15.7.8.1.1. Medium
to Low Temperature Heat Sources
15.7.8.1.2. High-temperature
Heat Sources
15.7.8.1.3. Steam
15.7.8.2. Rest
of Asia Pacific Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By
Technology
15.7.8.2.1. Steam
Rankine Cycle
15.7.8.2.2. Organic
Rankine Cycle
15.7.8.2.3. Kalina
Cycle
15.7.8.2.4. Supercritical
Carbon Dioxide (CO2) Cycle
15.7.8.2.5. Heat
Recovery Systems
15.7.8.2.6. Others
15.7.8.3. Rest
of Asia Pacific Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By
Product
15.7.8.3.1. Products
15.7.8.3.1.1. Thermoelectric
Generators
15.7.8.3.1.2. Piezoelectric
Generators
15.7.8.3.1.3. Thermionic
Devices
15.7.8.3.1.4. Thermo-photovoltaic
Generators
15.7.8.3.1.5. Small
steam-electric Generator
15.7.8.3.1.5.1. Electric generator using Waste Steam
15.7.8.3.1.5.2. Steam Screw Expanders (SSE)
15.7.8.3.1.6. Stirling
Engines
15.7.8.3.1.7. Others
15.7.8.3.2. Installation
Support
15.7.8.3.2.1. Construction
Planning
15.7.8.3.2.2. Installation
Adjustments
15.7.8.3.2.3. Test
Operation
15.7.8.3.2.4. Installation
Supports
15.7.8.3.2.5. Others
15.7.8.4. Rest
of Asia Pacific Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By
Organization Size
15.7.8.4.1. Small
and Medium Organizations
15.7.8.4.2. Large
Organizations
15.7.8.5. Rest
of Asia Pacific Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By
Application
15.7.8.5.1. Petroleum
and Coal Products
15.7.8.5.2. Glass
Production, Incineration Systems and Cogeneration Systems
15.7.8.5.3. Garbage
Incineration Plant, Woody Biomass Boiler, Industrial Scale Incineration Systems
and Industrial Furnaces
15.7.8.5.4. Chemical
Manufacturing
15.7.8.5.5. Cement
and Ceramic Manufacturing
15.7.8.5.6. Primary
Metal Manufacturing and Nonmetallic Mineral Product Manufacturing
15.7.8.5.7. Heavy
Metal Production
15.7.8.5.8. Pulp
and Paper Industry
15.7.8.5.9. Food
and Beverage
15.7.8.5.10. Others
15.8. Key
Segment for Channeling Investments
15.8.1. By
Country
15.8.2. By
Source of Waste Heat Stream
15.8.3. By
Technology
15.8.4. By
Product
15.8.5. By
Organization Size
15.8.6. By Application
16. Middle
East and Africa Waste Heat to Power Market Analysis and Forecasts, 2020 - 2028
16.1. Overview
16.1.1. Middle
East and Africa Waste Heat to Power Market Revenue (US$ Mn)
16.2. Middle
East and Africa Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Source
of Waste Heat Stream
16.2.1. Medium
to Low Temperature Heat Sources
16.2.2. High-temperature
Heat Sources
16.2.3. Steam
16.3. Middle
East and Africa Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By
Technology
16.3.1. Steam
Rankine Cycle
16.3.2. Organic
Rankine Cycle
16.3.3. Kalina
Cycle
16.3.4. Supercritical
Carbon Dioxide (CO2) Cycle
16.3.5. Heat
Recovery Systems
16.3.6. Others
16.4. Middle
East and Africa Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By
Product
16.4.1. Products
16.4.1.1. Thermoelectric
Generators
16.4.1.2. Piezoelectric
Generators
16.4.1.3. Thermionic
Devices
16.4.1.4. Thermo-photovoltaic
Generators
16.4.1.5. Small
steam-electric Generator
16.4.1.5.1. Electric
generator using Waste Steam
16.4.1.5.2. Steam
Screw Expanders (SSE)
16.4.1.6. Stirling
Engines
16.4.1.7. Others
16.4.2. Installation
Support
16.4.2.1. Construction
Planning
16.4.2.2. Installation
Adjustments
16.4.2.3. Test
Operation
16.4.2.4. Installation
Supports
16.4.2.5. Others
16.5. Middle
East and Africa Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By
Organization Size
16.5.1. Small
and Medium Organizations
16.5.2. Large
Organizations
16.6. Middle
East and Africa Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By
Application
16.6.1. Petroleum
and Coal Products
16.6.2. Glass
Production, Incineration Systems and Cogeneration Systems
16.6.3. Garbage
Incineration Plant, Woody Biomass Boiler, Industrial Scale Incineration Systems
and Industrial Furnaces
16.6.4. Chemical
Manufacturing
16.6.5. Cement
and Ceramic Manufacturing
16.6.6. Primary
Metal Manufacturing and Nonmetallic Mineral Product Manufacturing
16.6.7. Heavy
Metal Production
16.6.8. Pulp
and Paper Industry
16.6.9. Food
and Beverage
16.6.10. Others
16.7. Middle
East and Africa Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By
Country
16.7.1. Saudi
Arabia
16.7.1.1. Saudi
Arabia Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Source of
Waste Heat Stream
16.7.1.1.1. Medium
to Low Temperature Heat Sources
16.7.1.1.2. High-temperature
Heat Sources
16.7.1.1.3. Steam
16.7.1.2. Saudi
Arabia Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Technology
16.7.1.2.1. Steam
Rankine Cycle
16.7.1.2.2. Organic
Rankine Cycle
16.7.1.2.3. Kalina
Cycle
16.7.1.2.4. Supercritical
Carbon Dioxide (CO2) Cycle
16.7.1.2.5. Heat
Recovery Systems
16.7.1.2.6. Others
16.7.1.3. Saudi
Arabia Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Product
16.7.1.3.1. Products
16.7.1.3.1.1. Thermoelectric
Generators
16.7.1.3.1.2. Piezoelectric
Generators
16.7.1.3.1.3. Thermionic
Devices
16.7.1.3.1.4. Thermo-photovoltaic
Generators
16.7.1.3.1.5. Small
steam-electric Generator
16.7.1.3.1.5.1. Electric generator using Waste Steam
16.7.1.3.1.5.2. Steam Screw Expanders (SSE)
16.7.1.3.1.6. Stirling
Engines
16.7.1.3.1.7. Others
16.7.1.3.2. Installation
Support
16.7.1.3.2.1. Construction
Planning
16.7.1.3.2.2. Installation
Adjustments
16.7.1.3.2.3. Test
Operation
16.7.1.3.2.4. Installation
Supports
16.7.1.3.2.5. Others
16.7.1.4. Saudi
Arabia Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By
Organization Size
16.7.1.4.1. Small
and Medium Organizations
16.7.1.4.2. Large
Organizations
16.7.1.5. Saudi
Arabia Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By
Application
16.7.1.5.1. Petroleum
and Coal Products
16.7.1.5.2. Glass
Production, Incineration Systems and Cogeneration Systems
16.7.1.5.3. Garbage
Incineration Plant, Woody Biomass Boiler, Industrial Scale Incineration Systems
and Industrial Furnaces
16.7.1.5.4. Chemical
Manufacturing
16.7.1.5.5. Cement
and Ceramic Manufacturing
16.7.1.5.6. Primary
Metal Manufacturing and Nonmetallic Mineral Product Manufacturing
16.7.1.5.7. Heavy
Metal Production
16.7.1.5.8. Pulp
and Paper Industry
16.7.1.5.9. Food
and Beverage
16.7.1.5.10. Others
16.7.2. UAE
16.7.2.1. UAE
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Source of Waste
Heat Stream
16.7.2.1.1. Medium
to Low Temperature Heat Sources
16.7.2.1.2. High-temperature
Heat Sources
16.7.2.1.3. Steam
16.7.2.2. UAE
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Technology
16.7.2.2.1. Steam
Rankine Cycle
16.7.2.2.2. Organic
Rankine Cycle
16.7.2.2.3. Kalina
Cycle
16.7.2.2.4. Supercritical
Carbon Dioxide (CO2) Cycle
16.7.2.2.5. Heat
Recovery Systems
16.7.2.2.6. Others
16.7.2.3. UAE
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Product
16.7.2.3.1. Products
16.7.2.3.1.1. Thermoelectric
Generators
16.7.2.3.1.2. Piezoelectric
Generators
16.7.2.3.1.3. Thermionic
Devices
16.7.2.3.1.4. Thermo-photovoltaic
Generators
16.7.2.3.1.5. Small
steam-electric Generator
16.7.2.3.1.5.1. Electric generator using Waste Steam
16.7.2.3.1.5.2. Steam Screw Expanders (SSE)
16.7.2.3.1.6. Stirling
Engines
16.7.2.3.1.7. Others
16.7.2.3.2. Installation
Support
16.7.2.3.2.1. Construction
Planning
16.7.2.3.2.2. Installation
Adjustments
16.7.2.3.2.3. Test
Operation
16.7.2.3.2.4. Installation
Supports
16.7.2.3.2.5. Others
16.7.2.4. UAE
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Organization Size
16.7.2.4.1. Small
and Medium Organizations
16.7.2.4.2. Large
Organizations
16.7.2.5. UAE
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Application
16.7.2.5.1. Petroleum
and Coal Products
16.7.2.5.2. Glass
Production, Incineration Systems and Cogeneration Systems
16.7.2.5.3. Garbage
Incineration Plant, Woody Biomass Boiler, Industrial Scale Incineration Systems
and Industrial Furnaces
16.7.2.5.4. Chemical
Manufacturing
16.7.2.5.5. Cement
and Ceramic Manufacturing
16.7.2.5.6. Primary
Metal Manufacturing and Nonmetallic Mineral Product Manufacturing
16.7.2.5.7. Heavy
Metal Production
16.7.2.5.8. Pulp
and Paper Industry
16.7.2.5.9. Food
and Beverage
16.7.2.5.10. Others
16.7.3. Egypt
16.7.3.1. Egypt
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Source of Waste
Heat Stream
16.7.3.1.1. Medium
to Low Temperature Heat Sources
16.7.3.1.2. High-temperature
Heat Sources
16.7.3.1.3. Steam
16.7.3.2. Egypt
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Technology
16.7.3.2.1. Steam
Rankine Cycle
16.7.3.2.2. Organic
Rankine Cycle
16.7.3.2.3. Kalina
Cycle
16.7.3.2.4. Supercritical
Carbon Dioxide (CO2) Cycle
16.7.3.2.5. Heat
Recovery Systems
16.7.3.2.6. Others
16.7.3.3. Egypt
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Product
16.7.3.3.1. Products
16.7.3.3.1.1. Thermoelectric
Generators
16.7.3.3.1.2. Piezoelectric
Generators
16.7.3.3.1.3. Thermionic
Devices
16.7.3.3.1.4. Thermo-photovoltaic
Generators
16.7.3.3.1.5. Small
steam-electric Generator
16.7.3.3.1.5.1. Electric generator using Waste Steam
16.7.3.3.1.5.2. Steam Screw Expanders (SSE)
16.7.3.3.1.6. Stirling
Engines
16.7.3.3.1.7. Others
16.7.3.3.2. Installation
Support
16.7.3.3.2.1. Construction
Planning
16.7.3.3.2.2. Installation
Adjustments
16.7.3.3.2.3. Test
Operation
16.7.3.3.2.4. Installation
Supports
16.7.3.3.2.5. Others
16.7.3.4. Egypt
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Organization Size
16.7.3.4.1. Small
and Medium Organizations
16.7.3.4.2. Large
Organizations
16.7.3.5. Egypt
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Application
16.7.3.5.1. Petroleum
and Coal Products
16.7.3.5.2. Glass
Production, Incineration Systems and Cogeneration Systems
16.7.3.5.3. Garbage
Incineration Plant, Woody Biomass Boiler, Industrial Scale Incineration Systems
and Industrial Furnaces
16.7.3.5.4. Chemical
Manufacturing
16.7.3.5.5. Cement
and Ceramic Manufacturing
16.7.3.5.6. Primary
Metal Manufacturing and Nonmetallic Mineral Product Manufacturing
16.7.3.5.7. Heavy
Metal Production
16.7.3.5.8. Pulp
and Paper Industry
16.7.3.5.9. Food
and Beverage
16.7.3.5.10. Others
16.7.4. Kuwait
16.7.4.1. Kuwait
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Source of Waste
Heat Stream
16.7.4.1.1. Medium
to Low Temperature Heat Sources
16.7.4.1.2. High-temperature
Heat Sources
16.7.4.1.3. Steam
16.7.4.2. Kuwait
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Technology
16.7.4.2.1. Steam
Rankine Cycle
16.7.4.2.2. Organic
Rankine Cycle
16.7.4.2.3. Kalina
Cycle
16.7.4.2.4. Supercritical
Carbon Dioxide (CO2) Cycle
16.7.4.2.5. Heat
Recovery Systems
16.7.4.2.6. Others
16.7.4.3. Kuwait
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Product
16.7.4.3.1. Products
16.7.4.3.1.1. Thermoelectric
Generators
16.7.4.3.1.2. Piezoelectric
Generators
16.7.4.3.1.3. Thermionic
Devices
16.7.4.3.1.4. Thermo-photovoltaic
Generators
16.7.4.3.1.5. Small
steam-electric Generator
16.7.4.3.1.5.1. Electric generator using Waste Steam
16.7.4.3.1.5.2. Steam Screw Expanders (SSE)
16.7.4.3.1.6. Stirling
Engines
16.7.4.3.1.7. Others
16.7.4.3.2. Installation
Support
16.7.4.3.2.1. Construction
Planning
16.7.4.3.2.2. Installation
Adjustments
16.7.4.3.2.3. Test
Operation
16.7.4.3.2.4. Installation
Supports
16.7.4.3.2.5. Others
16.7.4.4. Kuwait
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Organization Size
16.7.4.4.1. Small
and Medium Organizations
16.7.4.4.2. Large
Organizations
16.7.4.5. Kuwait
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Application
16.7.4.5.1. Petroleum
and Coal Products
16.7.4.5.2. Glass
Production, Incineration Systems and Cogeneration Systems
16.7.4.5.3. Garbage
Incineration Plant, Woody Biomass Boiler, Industrial Scale Incineration Systems
and Industrial Furnaces
16.7.4.5.4. Chemical
Manufacturing
16.7.4.5.5. Cement
and Ceramic Manufacturing
16.7.4.5.6. Primary
Metal Manufacturing and Nonmetallic Mineral Product Manufacturing
16.7.4.5.7. Heavy
Metal Production
16.7.4.5.8. Pulp
and Paper Industry
16.7.4.5.9. Food
and Beverage
16.7.4.5.10. Others
16.7.5. South
Africa
16.7.5.1. South
Africa Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Source of
Waste Heat Stream
16.7.5.1.1. Medium
to Low Temperature Heat Sources
16.7.5.1.2. High-temperature
Heat Sources
16.7.5.1.3. Steam
16.7.5.2. South
Africa Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Technology
16.7.5.2.1. Steam
Rankine Cycle
16.7.5.2.2. Organic
Rankine Cycle
16.7.5.2.3. Kalina
Cycle
16.7.5.2.4. Supercritical
Carbon Dioxide (CO2) Cycle
16.7.5.2.5. Heat
Recovery Systems
16.7.5.2.6. Others
16.7.5.3. South
Africa Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Product
16.7.5.3.1. Products
16.7.5.3.1.1. Thermoelectric
Generators
16.7.5.3.1.2. Piezoelectric
Generators
16.7.5.3.1.3. Thermionic
Devices
16.7.5.3.1.4. Thermo-photovoltaic
Generators
16.7.5.3.1.5. Small
steam-electric Generator
16.7.5.3.1.5.1. Electric generator using Waste Steam
16.7.5.3.1.5.2. Steam Screw Expanders (SSE)
16.7.5.3.1.6. Stirling
Engines
16.7.5.3.1.7. Others
16.7.5.3.2. Installation
Support
16.7.5.3.2.1. Construction
Planning
16.7.5.3.2.2. Installation
Adjustments
16.7.5.3.2.3. Test
Operation
16.7.5.3.2.4. Installation
Supports
16.7.5.3.2.5. Others
16.7.5.4. South
Africa Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By
Organization Size
16.7.5.4.1. Small
and Medium Organizations
16.7.5.4.2. Large
Organizations
16.7.5.5. South
Africa Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By
Application
16.7.5.5.1. Petroleum
and Coal Products
16.7.5.5.2. Glass
Production, Incineration Systems and Cogeneration Systems
16.7.5.5.3. Garbage
Incineration Plant, Woody Biomass Boiler, Industrial Scale Incineration Systems
and Industrial Furnaces
16.7.5.5.4. Chemical
Manufacturing
16.7.5.5.5. Cement
and Ceramic Manufacturing
16.7.5.5.6. Primary
Metal Manufacturing and Nonmetallic Mineral Product Manufacturing
16.7.5.5.7. Heavy
Metal Production
16.7.5.5.8. Pulp
and Paper Industry
16.7.5.5.9. Food
and Beverage
16.7.5.5.10. Others
16.7.6. Rest of
Middle East & Africa
16.7.6.1. Rest
of Middle East & Africa Waste Heat to Power Market Revenue (US$ Mn) and
Forecasts, By Source of Waste Heat Stream
16.7.6.1.1. Medium
to Low Temperature Heat Sources
16.7.6.1.2. High-temperature
Heat Sources
16.7.6.1.3. Steam
16.7.6.2. Rest
of Middle East & Africa Waste Heat to Power Market Revenue (US$ Mn) and
Forecasts, By Technology
16.7.6.2.1. Steam
Rankine Cycle
16.7.6.2.2. Organic
Rankine Cycle
16.7.6.2.3. Kalina
Cycle
16.7.6.2.4. Supercritical
Carbon Dioxide (CO2) Cycle
16.7.6.2.5. Heat
Recovery Systems
16.7.6.2.6. Others
16.7.6.3. Rest
of Middle East & Africa Waste Heat to Power Market Revenue (US$ Mn) and
Forecasts, By Product
16.7.6.3.1. Products
16.7.6.3.1.1. Thermoelectric
Generators
16.7.6.3.1.2. Piezoelectric
Generators
16.7.6.3.1.3. Thermionic
Devices
16.7.6.3.1.4. Thermo-photovoltaic
Generators
16.7.6.3.1.5. Small
steam-electric Generator
16.7.6.3.1.5.1. Electric generator using Waste Steam
16.7.6.3.1.5.2. Steam Screw Expanders (SSE)
16.7.6.3.1.6. Stirling
Engines
16.7.6.3.1.7. Others
16.7.6.3.2. Installation
Support
16.7.6.3.2.1. Construction
Planning
16.7.6.3.2.2. Installation
Adjustments
16.7.6.3.2.3. Test
Operation
16.7.6.3.2.4. Installation
Supports
16.7.6.3.2.5. Others
16.7.6.4. Rest
of Middle East & Africa Waste Heat to Power Market Revenue (US$ Mn) and
Forecasts, By Organization Size
16.7.6.4.1. Small
and Medium Organizations
16.7.6.4.2. Large
Organizations
16.7.6.5. Rest
of Middle East & Africa Waste Heat to Power Market Revenue (US$ Mn) and
Forecasts, By Application
16.7.6.5.1. Petroleum
and Coal Products
16.7.6.5.2. Glass
Production, Incineration Systems and Cogeneration Systems
16.7.6.5.3. Garbage
Incineration Plant, Woody Biomass Boiler, Industrial Scale Incineration Systems
and Industrial Furnaces
16.7.6.5.4. Chemical
Manufacturing
16.7.6.5.5. Cement
and Ceramic Manufacturing
16.7.6.5.6. Primary
Metal Manufacturing and Nonmetallic Mineral Product Manufacturing
16.7.6.5.7. Heavy
Metal Production
16.7.6.5.8. Pulp
and Paper Industry
16.7.6.5.9. Food
and Beverage
16.7.6.5.10. Others
16.8. Key
Segment for Channeling Investments
16.8.1. By
Country
16.8.2. By
Source of Waste Heat Stream
16.8.3. By
Technology
16.8.4. By
Product
16.8.5. By
Organization Size
16.8.6. By
Application
17. Latin
America Waste Heat to Power Market Analysis and Forecasts, 2020 - 2028
17.1. Overview
17.1.1. Latin
America Waste Heat to Power Market Revenue (US$ Mn)
17.2. Latin
America Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Source of
Waste Heat Stream
17.2.1. Medium
to Low Temperature Heat Sources
17.2.2. High-temperature
Heat Sources
17.2.3. Steam
17.3. Latin
America Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By
Technology
17.3.1. Steam
Rankine Cycle
17.3.2. Organic
Rankine Cycle
17.3.3. Kalina
Cycle
17.3.4. Supercritical
Carbon Dioxide (CO2) Cycle
17.3.5. Heat
Recovery Systems
17.3.6. Others
17.4. Latin
America Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Product
17.4.1. Products
17.4.1.1. Thermoelectric
Generators
17.4.1.2. Piezoelectric
Generators
17.4.1.3. Thermionic
Devices
17.4.1.4. Thermo-photovoltaic
Generators
17.4.1.5. Small
steam-electric Generator
17.4.1.5.1. Electric
generator using Waste Steam
17.4.1.5.2. Steam
Screw Expanders (SSE)
17.4.1.6. Stirling
Engines
17.4.1.7. Others
17.4.2. Installation
Support
17.4.2.1. Construction
Planning
17.4.2.2. Installation
Adjustments
17.4.2.3. Test
Operation
17.4.2.4. Installation
Supports
17.4.2.5. Others
17.5. Latin
America Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By
Organization Size
17.5.1. Small
and Medium Organizations
17.5.2. Large
Organizations
17.6. Latin
America Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By
Application
17.6.1. Petroleum
and Coal Products
17.6.2. Glass
Production, Incineration Systems and Cogeneration Systems
17.6.3. Garbage
Incineration Plant, Woody Biomass Boiler, Industrial Scale Incineration Systems
and Industrial Furnaces
17.6.4. Chemical
Manufacturing
17.6.5. Cement
and Ceramic Manufacturing
17.6.6. Primary
Metal Manufacturing and Nonmetallic Mineral Product Manufacturing
17.6.7. Heavy
Metal Production
17.6.8. Pulp
and Paper Industry
17.6.9. Food
and Beverage
17.6.10. Others
17.7. Latin
America Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Country
17.7.1. Brazil
17.7.1.1. Brazil
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Source of Waste
Heat Stream
17.7.1.1.1. Medium
to Low Temperature Heat Sources
17.7.1.1.2. High-temperature
Heat Sources
17.7.1.1.3. Steam
17.7.1.2. Brazil
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Technology
17.7.1.2.1. Steam
Rankine Cycle
17.7.1.2.2. Organic
Rankine Cycle
17.7.1.2.3. Kalina
Cycle
17.7.1.2.4. Supercritical
Carbon Dioxide (CO2) Cycle
17.7.1.2.5. Heat
Recovery Systems
17.7.1.2.6. Others
17.7.1.3. Brazil
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Product
17.7.1.3.1. Products
17.7.1.3.1.1. Thermoelectric
Generators
17.7.1.3.1.2. Piezoelectric
Generators
17.7.1.3.1.3. Thermionic
Devices
17.7.1.3.1.4. Thermo-photovoltaic
Generators
17.7.1.3.1.5. Small
steam-electric Generator
17.7.1.3.1.5.1. Electric generator using Waste Steam
17.7.1.3.1.5.2. Steam Screw Expanders (SSE)
17.7.1.3.1.6. Stirling
Engines
17.7.1.3.1.7. Others
17.7.1.3.2. Installation
Support
17.7.1.3.2.1. Construction
Planning
17.7.1.3.2.2. Installation
Adjustments
17.7.1.3.2.3. Test
Operation
17.7.1.3.2.4. Installation
Supports
17.7.1.3.2.5. Others
17.7.1.4. Brazil
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Organization Size
17.7.1.4.1. Small
and Medium Organizations
17.7.1.4.2. Large
Organizations
17.7.1.5. Brazil
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Application
17.7.1.5.1. Petroleum
and Coal Products
17.7.1.5.2. Glass
Production, Incineration Systems and Cogeneration Systems
17.7.1.5.3. Garbage
Incineration Plant, Woody Biomass Boiler, Industrial Scale Incineration Systems
and Industrial Furnaces
17.7.1.5.4. Chemical
Manufacturing
17.7.1.5.5. Cement
and Ceramic Manufacturing
17.7.1.5.6. Primary
Metal Manufacturing and Nonmetallic Mineral Product Manufacturing
17.7.1.5.7. Heavy
Metal Production
17.7.1.5.8. Pulp
and Paper Industry
17.7.1.5.9. Food
and Beverage
17.7.1.5.10. Others
17.7.2. Argentina
17.7.2.1. Argentina
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Source of Waste
Heat Stream
17.7.2.1.1. Medium
to Low Temperature Heat Sources
17.7.2.1.2. High-temperature
Heat Sources
17.7.2.1.3. Steam
17.7.2.2. Argentina
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Technology
17.7.2.2.1. Steam
Rankine Cycle
17.7.2.2.2. Organic
Rankine Cycle
17.7.2.2.3. Kalina
Cycle
17.7.2.2.4. Supercritical
Carbon Dioxide (CO2) Cycle
17.7.2.2.5. Heat
Recovery Systems
17.7.2.2.6. Others
17.7.2.3. Argentina
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Product
17.7.2.3.1. Products
17.7.2.3.1.1. Thermoelectric
Generators
17.7.2.3.1.2. Piezoelectric
Generators
17.7.2.3.1.3. Thermionic
Devices
17.7.2.3.1.4. Thermo-photovoltaic
Generators
17.7.2.3.1.5. Small
steam-electric Generator
17.7.2.3.1.5.1. Electric generator using Waste Steam
17.7.2.3.1.5.2. Steam Screw Expanders (SSE)
17.7.2.3.1.6. Stirling
Engines
17.7.2.3.1.7. Others
17.7.2.3.2. Installation
Support
17.7.2.3.2.1. Construction
Planning
17.7.2.3.2.2. Installation
Adjustments
17.7.2.3.2.3. Test
Operation
17.7.2.3.2.4. Installation
Supports
17.7.2.3.2.5. Others
17.7.2.4. Argentina
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Organization Size
17.7.2.4.1. Small
and Medium Organizations
17.7.2.4.2. Large
Organizations
17.7.2.5. Argentina
Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By Application
17.7.2.5.1. Petroleum
and Coal Products
17.7.2.5.2. Glass
Production, Incineration Systems and Cogeneration Systems
17.7.2.5.3. Garbage
Incineration Plant, Woody Biomass Boiler, Industrial Scale Incineration Systems
and Industrial Furnaces
17.7.2.5.4. Chemical
Manufacturing
17.7.2.5.5. Cement
and Ceramic Manufacturing
17.7.2.5.6. Primary
Metal Manufacturing and Nonmetallic Mineral Product Manufacturing
17.7.2.5.7. Heavy
Metal Production
17.7.2.5.8. Pulp
and Paper Industry
17.7.2.5.9. Food
and Beverage
17.7.2.5.10. Others
17.7.3. Rest of
Latin America
17.7.3.1. Rest
of Latin America Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By
Source of Waste Heat Stream
17.7.3.1.1. Medium
to Low Temperature Heat Sources
17.7.3.1.2. High-temperature
Heat Sources
17.7.3.1.3. Steam
17.7.3.2. Rest
of Latin America Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By
Technology
17.7.3.2.1. Steam
Rankine Cycle
17.7.3.2.2. Organic
Rankine Cycle
17.7.3.2.3. Kalina
Cycle
17.7.3.2.4. Supercritical
Carbon Dioxide (CO2) Cycle
17.7.3.2.5. Heat
Recovery Systems
17.7.3.2.6. Others
17.7.3.3. Rest
of Latin America Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By
Product
17.7.3.3.1. Products
17.7.3.3.1.1. Thermoelectric
Generators
17.7.3.3.1.2. Piezoelectric
Generators
17.7.3.3.1.3. Thermionic
Devices
17.7.3.3.1.4. Thermo-photovoltaic
Generators
17.7.3.3.1.5. Small
steam-electric Generator
17.7.3.3.1.5.1. Electric generator using Waste Steam
17.7.3.3.1.5.2. Steam Screw Expanders (SSE)
17.7.3.3.1.6. Stirling
Engines
17.7.3.3.1.7. Others
17.7.3.3.2. Installation
Support
17.7.3.3.2.1. Construction
Planning
17.7.3.3.2.2. Installation
Adjustments
17.7.3.3.2.3. Test
Operation
17.7.3.3.2.4. Installation
Supports
17.7.3.3.2.5. Others
17.7.3.4. Rest
of Latin America Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By
Organization Size
17.7.3.4.1. Small
and Medium Organizations
17.7.3.4.2. Large
Organizations
17.7.3.5. Rest
of Latin America Waste Heat to Power Market Revenue (US$ Mn) and Forecasts, By
Application
17.7.3.5.1. Petroleum
and Coal Products
17.7.3.5.2. Glass
Production, Incineration Systems and Cogeneration Systems
17.7.3.5.3. Garbage
Incineration Plant, Woody Biomass Boiler, Industrial Scale Incineration Systems
and Industrial Furnaces
17.7.3.5.4. Chemical
Manufacturing
17.7.3.5.5. Cement
and Ceramic Manufacturing
17.7.3.5.6. Primary
Metal Manufacturing and Nonmetallic Mineral Product Manufacturing
17.7.3.5.7. Heavy
Metal Production
17.7.3.5.8. Pulp
and Paper Industry
17.7.3.5.9. Food
and Beverage
17.7.3.5.10. Others
17.8. Key
Segment for Channeling Investments
17.8.1. By
Country
17.8.2. By
Source of Waste Heat Stream
17.8.3. By
Technology
17.8.4. By
Product
17.8.5. By
Organization Size
17.8.6. By
Application
18. Competitive
Benchmarking
18.1. Market
Share Analysis, 2019
18.2. Global
Presence and Growth Strategies
18.2.1. Mergers
and Acquisitions
18.2.2. Product
Launches
18.2.3. Investments
Trends
18.2.4. R&D
Initiatives
19. Player
Profiles
19.1. Bosch Industriekessel GmbH
19.1.1. Company
Details
19.1.2. Company
Overview
19.1.3. Product
Offerings
19.1.4. Key
Developments
19.1.5. Financial
Analysis
19.1.6. SWOT
Analysis
19.1.7. Business
Strategies
19.2. Forbes
Marshall.
19.2.1. Company
Details
19.2.2. Company
Overview
19.2.3. Product
Offerings
19.2.4. Key
Developments
19.2.5. Financial
Analysis
19.2.6. SWOT
Analysis
19.2.7. Business
Strategies
19.3. IHI
Corporationq
19.3.1. Company
Details
19.3.2. Company
Overview
19.3.3. Product
Offerings
19.3.4. Key
Developments
19.3.5. Financial
Analysis
19.3.6. SWOT
Analysis
19.3.7. Business
Strategies
19.4. John Wood
Group PLC (Amec Foster Wheeler)
19.4.1. Company
Details
19.4.2. Company
Overview
19.4.3. Product
Offerings
19.4.4. Key
Developments
19.4.5. Financial
Analysis
19.4.6. SWOT
Analysis
19.4.7. Business
Strategies
19.5. Kalina
Power Limited
19.5.1. Company
Details
19.5.2. Company
Overview
19.5.3. Product
Offerings
19.5.4. Key
Developments
19.5.5. Financial
Analysis
19.5.6. SWOT
Analysis
19.5.7. Business
Strategies
19.6. Mitsubishi
Hitachi Power Systems, Ltd.
19.6.1. Company
Details
19.6.2. Company
Overview
19.6.3. Product
Offerings
19.6.4. Key
Developments
19.6.5. Financial
Analysis
19.6.6. SWOT
Analysis
19.6.7. Business
Strategies
19.7. Ormat
19.7.1. Company
Details
19.7.2. Company
Overview
19.7.3. Product
Offerings
19.7.4. Key
Developments
19.7.5. Financial
Analysis
19.7.6. SWOT
Analysis
19.7.7. Business
Strategies
19.8. Shinoda
Co. ,Ltd.
19.8.1. Company
Details
19.8.2. Company
Overview
19.8.3. Product
Offerings
19.8.4. Key
Developments
19.8.5. Financial
Analysis
19.8.6. SWOT
Analysis
19.8.7. Business
Strategies
19.9. Siemens
AG
19.9.1. Company
Details
19.9.2. Company
Overview
19.9.3. Product
Offerings
19.9.4. Key
Developments
19.9.5. Financial
Analysis
19.9.6. SWOT
Analysis
19.9.7. Business
Strategies
19.10. Thermax
19.10.1. Company
Details
19.10.2. Company
Overview
19.10.3. Product
Offerings
19.10.4. Key
Developments
19.10.5. Financial
Analysis
19.10.6. SWOT
Analysis
19.10.7. Business
Strategies
19.11. Other Market
Participants
20. Key
Findings
Note: This ToC is tentative and can
be changed according to th research study conducted during the course of report
completion.
At Absolute Markets Insights, we are engaged in building both global as well as country specific reports. As a result, the approach taken for deriving the estimation and forecast for a specific country is a bit unique and different in comparison to the global research studies. In this case, we not only study the concerned market factors & trends prevailing in a particular country (from secondary research) but we also tend to calculate the actual market size & forecast from the revenue generated from the market participants involved in manufacturing or distributing the any concerned product. These companies can also be service providers. For analyzing any country specifically, we do consider the growth factors prevailing under the states/cities/county for the same. For instance, if we are analyzing an industry specific to United States, we primarily need to study about the states present under the same(where the product/service has the highest growth). Similar analysis will be followed by other countries. Our scope of the report changes with different markets.
Our research study is mainly implement through a mix of both secondary and primary research. Various sources such as industry magazines, trade journals, and government websites and trade associations are reviewed for gathering precise data. Primary interviews are conducted to validate the market size derived from secondary research. Industry experts, major manufacturers and distributors are contacted for further validation purpose on the current market penetration and growth trends.
Prominent participants in our primary research process include:
- Key Opinion Leaders namely the CEOs, CSOs, VPs, purchasing managers, amongst others
- Research and development participants, distributors/suppliers and subject matter experts
Secondary Research includes data extracted from paid data sources:
- Reuters
- Factiva
- Bloomberg
- One Source
- Hoovers
Research Methodology
Key Inclusions
