Published On : February 2019 Pages : 180 Category: Energy & Mining Report Code : EM022727
Waste Heat To Power Market By Technology (Kalina Cycle, Organic Rankine Cycle (ORC) and Steam Rankine Cycle (SRC)) and End User (Glass Industry, Petroleum Refining, Food & Beverage, Chemical Industry, Cement Industry, Pulp & Paper, Heavy Metal Production and Other End Users) - Global Industry Analysis And Forecast To 2027
Industry Outlook
The Waste Heat To Power (WHP) process is the procedure of catching the warmth disposed of by the current industrial procedure and utilizing that warmth to produce power. The energy intensive procedures of industries, for example, those happening at glass furnaces, cement kilns, steel mills, and refineries all discharge hot fumes gases and the waste streams which may be harnessed with the developed advancements to produce power. Therefore, the Waste Heat To Power Market is anticipated to expand and has tremendous scope during the forecast period. The global Waste Heat To Power Market anticipated to flourish in the future by growing at a significantly higher CAGR.
Market Segmentation
By Technology the market is segmented into Kalina Cycle, Organic Rankine Cycle (ORC) and Steam Rankine Cycle (SRC). The Steam Rankine Cycle (SRC) section is leading the market due to easy to operate, less cost of maintenance and few other factors.
By End User the market is segmented into Glass Industry, Petroleum Refining, Food & Beverage, Chemical Industry, Cement Industry, Pulp & Paper, Heavy Metal Production and Other End Users. The Cement Industry section is leading the market due to more potential for the recovery of heat, rising eminence of the systems based on ORC, etc.
Regional Insights
The North American region is leading the global Waste Heat To Power Market owing to factor like; rising investment for technologies related to clean energy, increasing demand for the power generation onsite, increasing requirement for technical development and other factors.
Waste Heat To Power Market, By Region
Competitive Analysis
The major players in the market are profiled in detail in view of qualities, for example, company portfolio, business strategies, financial overview, recent developments, and market share of the overall industry.
Some of the key questions answered by the report are:
Market Classification
o Waste Heat To Power Market, By Technology, Estimates and Forecast, 2017-2027 ($Million)
o Kalina Cycle
o Organic Rankine Cycle (ORC)
o Steam Rankine Cycle (SRC)
o Waste Heat To Power Market, By End User, Estimates and Forecast, 2017-2027 ($Million)
o Glass Industry
o Petroleum Refining
o Food & Beverage
o Chemical Industry
o Cement Industry
o Pulp & Paper
o Heavy Metal Production
o Other End Users
o Waste Heat To Power Market, By Region, Estimates and Forecast, 2017-2027 ($Million)
o North America
§ North America Waste Heat To Power Market , By Country
o U.S. Waste Heat To Power Market
o Canada Waste Heat To Power Market
o Mexico Waste Heat To Power Market
o Europe
§ Europe Waste Heat To Power Market , By Country
o Germany Waste Heat To Power Market
o UK Waste Heat To Power Market
o France Waste Heat To Power Market
o Russia Waste Heat To Power Market
o Italy Waste Heat To Power Market
o Rest of Europe Waste Heat To Power Market
o Asia-Pacific
§ Asia-Pacific Waste Heat To Power Market , By Country
o China Waste Heat To Power Market
o Japan Waste Heat To Power Market
o South Korea Waste Heat To Power Market
o India Waste Heat To Power Market
o Southeast Asia Waste Heat To Power Market
o Rest of Asia-Pacific Waste Heat To Power Market
o South America
§ South America Waste Heat To Power Market , By Country
o Brazil Waste Heat To Power Market
o Argentina Waste Heat To Power Market
o Columbia Waste Heat To Power Market
o Rest of South America Waste Heat To Power Market
o Middle East and Africa
§ Middle East and Africa Waste Heat To Power Market , By Country
o Saudi Arabia Waste Heat To Power Market
o UAE Waste Heat To Power Market
o Egypt Waste Heat To Power Market
o Nigeria Waste Heat To Power Market
o South Africa Waste Heat To Power Market
o Rest of MEA Waste Heat To Power Market
Table of Contents:
1. Introduction
1.1. Report Description
2. Executive Summary
2.1. Key Highlights
3. Market Overview
3.1. Introduction
3.1.1. Market Definition
3.1.2. Market Segmentation
3.2. Market Dynamics
3.2.1. Drivers
3.2.2. Restraints
3.2.3. Opportunities
3.3. SWOT Analysis
4. Market Analysis by Regions
4.1. North America (United States, Canada and Mexico)
4.1.1. United States Market Status and Outlook (2017-2027)
4.1.2. Canada Market Status and Outlook (2017-2027)
4.1.3. Mexico Market Status and Outlook (2017-2027)
4.2. Europe (Germany, France, UK, Russia, Italy and Rest of Europe)
4.2.1. Germany Market Status and Outlook (2017-2027)
4.2.2. France Market Status and Outlook (2017-2027)
4.2.3. UK Market Status and Outlook (2017-2027)
4.2.4. Russia Market Status and Outlook (2017-2027)
4.2.5. Italy Market Status and Outlook (2017-2027)
4.2.6. Rest of Europe Market Status and Outlook (2017-2027)
4.3. Asia-Pacific (China, Japan, Korea, India, Southeast Asia and Rest of Asia-Pacific)
4.3.1. China Market Status and Outlook (2017-2027)
4.3.2. Japan Market Status and Outlook (2017-2027)
4.3.3. Korea Market Status and Outlook (2017-2027)
4.3.4. India Market Status and Outlook (2017-2027)
4.3.5. Southeast Asia Market Status and Outlook (2017-2027)
4.3.6. Rest of Asia-Pacific Market Status and Outlook (2017-2027)
4.4. South America (Brazil, Argentina, Columbia and Rest of South America)
4.4.1. Brazil Market Status and Outlook (2017-2027)
4.4.2. Argentina Market Status and Outlook (2017-2027)
4.4.3. Columbia Market Status and Outlook (2017-2027)
4.4.4. Rest of South America Market Status and Outlook (2017-2027)
4.5. Middle East and Africa (Saudi Arabia, UAE, Egypt, Nigeria, South Africa and Rest of MEA)
4.5.1. Saudi Arabia Market Status and Outlook (2017-2027)
4.5.2. United Arab Emirates Market Status and Outlook (2017-2027)
4.5.3. Egypt Market Status and Outlook (2017-2027)
4.5.4. Nigeria Market Status and Outlook (2017-2027)
4.5.5. South Africa Market Status and Outlook (2017-2027)
4.5.6. Turkey Market Status and Outlook (2017-2027)
4.5.7. Rest of Middle East and Africa Market Status and Outlook (2017-2027)
5. Waste Heat To Power Market, By Technology
5.1. Introduction
5.2. Global Waste Heat To Power Revenue and Market Share by Technology (2017-2027)
5.2.1. Global Waste Heat To Power Revenue and Revenue Share by Technology (2017-2027)
5.3. Kalina Cycle
5.3.1. Global Kalina Cycle Revenue and Growth Rate (2017-2027)
5.4. Organic Rankine Cycle (ORC)
5.4.1. Global Organic Rankine Cycle (ORC) Revenue and Growth Rate (2017-2027)
5.5. Steam Rankine Cycle (SRC)
5.5.1. Global Steam Rankine Cycle (SRC) Revenue and Growth Rate (2017-2027)
6. Waste Heat To Power Market, By End User
6.1. Introduction
6.2. Global Waste Heat To Power Revenue and Market Share by End User (2017-2027)
6.2.1. Global Waste Heat To Power Revenue and Revenue Share by End User (2017-2027)
6.3. Glass Industry
6.3.1. Global Glass Industry Revenue and Growth Rate (2017-2027)
6.4. Petroleum Refining
6.4.1. Global Petroleum Refining Revenue and Growth Rate (2017-2027)
6.5. Food & Beverage
6.5.1. Global Food & Beverage Revenue and Growth Rate (2017-2027)
6.6. Chemical Industry
6.6.1. Global Chemical Industry Revenue and Growth Rate (2017-2027)
6.7. Cement Industry
6.7.1. Global Cement Industry Revenue and Growth Rate (2017-2027)
6.8. Pulp & Paper
6.8.1. Global Pulp & Paper Revenue and Growth Rate (2017-2027)
6.9. Heavy Metal Production
6.9.1. Global Heavy Metal Production Revenue and Growth Rate (2017-2027)
6.10. Other End Users
6.10.1. Global Other End Users Revenue and Growth Rate (2017-2027)
7. Waste Heat To Power Market, By Region
7.1. Introduction
7.2. Global Waste Heat To Power Revenue and Market Share by Regions
7.2.1. Global Waste Heat To Power Revenue by Regions (2017-2027)
7.3. North America Waste Heat To Power by Countries
7.3.1. North America Waste Heat To Power Revenue and Growth Rate (2017-2027)
7.3.2. North America Waste Heat To Power Revenue (Million USD) by Countries (2017-2027)
7.3.3. United States
7.3.3.1. United States Waste Heat To Power Revenue (Millions USD) and Growth Rate (2017-2027)
7.3.4. Canada
7.3.4.1. Canada Waste Heat To Power Revenue (Millions USD) and Growth Rate (2017-2027)
7.3.5. Mexico
7.3.5.1. Mexico Waste Heat To Power Revenue (Millions USD) and Growth Rate (2017-2027)
7.4. Europe Waste Heat To Power by Countries
7.4.1. Europe Waste Heat To Power Revenue and Growth Rate (2017-2027)
7.4.2. Europe Waste Heat To Power Revenue (Million USD) by Countries (2017-2027)
7.4.3. Germany
7.4.3.1. Germany Waste Heat To Power Revenue (Millions USD) and Growth Rate (2017-2027)
7.4.4. France
7.4.4.1. France Waste Heat To Power Revenue (Millions USD) and Growth Rate (2017-2027)
7.4.5. UK
7.4.5.1. UK Waste Heat To Power Revenue (Millions USD) and Growth Rate (2017-2027)
7.4.6. Russia
7.4.6.1. Russia Waste Heat To Power Revenue (Millions USD) and Growth Rate (2017-2027)
7.4.7. Italy
7.4.7.1. Italy Waste Heat To Power Revenue (Millions USD) and Growth Rate (2017-2027)
7.4.8. Rest of Europe
7.4.8.1. Rest of Europe Waste Heat To Power Revenue (Millions USD) and Growth Rate (2017-2027)
7.5. Asia-Pacific Waste Heat To Power by Countries
7.5.1. Asia-Pacific Waste Heat To Power Revenue and Growth Rate (2017-2027)
7.5.2. Asia-Pacific Waste Heat To Power Revenue (Million USD) by Countries (2017-2027)
7.5.3. China
7.5.3.1. China Waste Heat To Power Revenue (Millions USD) and Growth Rate (2017-2027)
7.5.4. Japan
7.5.4.1. Japan Waste Heat To Power Revenue (Millions USD) and Growth Rate (2017-2027)
7.5.5. Korea
7.5.5.1. Korea Waste Heat To Power Revenue (Millions USD) and Growth Rate (2017-2027)
7.5.6. India
7.5.6.1. India Waste Heat To Power Revenue (Millions USD) and Growth Rate (2017-2027)
7.5.7. Southeast Asia
7.5.7.1. Southeast Asia Waste Heat To Power Revenue (Millions USD) and Growth Rate (2017-2027)
7.5.8. Rest of Asia-Pacific
7.5.8.1. Rest of Asia-Pacific Waste Heat To Power Revenue (Millions USD) and Growth Rate (2017-2027)
7.6. South America Waste Heat To Power by Countries
7.6.1. South America Waste Heat To Power Revenue and Growth Rate (2017-2027)
7.6.2. South America Waste Heat To Power Revenue (Million USD) by Countries (2017-2027)
7.6.3. Brazil
7.6.3.1. Brazil Waste Heat To Power Revenue (Millions USD) and Growth Rate (2017-2027)
7.6.4. Argentina
7.6.4.1. Argentina Waste Heat To Power Revenue (Millions USD) and Growth Rate (2017-2027)
7.6.5. Columbia
7.6.5.1. Columbia Waste Heat To Power Revenue (Millions USD) and Growth Rate (2017-2027)
7.6.6. Rest of South America
7.6.6.1. Rest of South America Waste Heat To Power Revenue (Millions USD) and Growth Rate (2017-2027)
7.7. Middle East and Africa Waste Heat To Power by Countries
7.7.1. Middle East and Africa Waste Heat To Power Revenue and Growth Rate (2017-2027)
7.7.2. Middle East and Africa Waste Heat To Power Revenue (Million USD) by Countries (2017-2027)
7.7.3. Saudi Arabia
7.7.3.1. Saudi Arabia Waste Heat To Power Revenue (Millions USD) and Growth Rate (2017-2027)
7.7.4. United Arab Emirates
7.7.4.1. United Arab Emirates Waste Heat To Power Revenue (Millions USD) and Growth Rate (2017-2027)
7.7.5. Egypt
7.7.5.1. Egypt Waste Heat To Power Revenue (Millions USD) and Growth Rate (2017-2027)
7.7.6. Nigeria
7.7.6.1. Nigeria Waste Heat To Power Revenue (Millions USD) and Growth Rate (2017-2027)
7.7.7. South Africa
7.7.7.1. South Africa Waste Heat To Power Revenue (Millions USD) and Growth Rate (2017-2027)
7.7.8. Turkey
7.7.8.1. Turkey Waste Heat To Power Revenue (Millions USD) and Growth Rate (2017-2027)
7.7.9. Rest of Middle East and Africa
7.7.9.1. Rest of Middle East and Africa Waste Heat To Power Revenue (Millions USD) and Growth Rate (2017-2027)
8. Company Profiles
8.1. General Electric
8.1.1. Business Overview
8.1.2. Service Portfolio
8.1.3. Strategic Developments
8.1.4. Financial Overview
8.2. IHI Corporation
8.2.1. Business Overview
8.2.2. Service Portfolio
8.2.3. Strategic Developments
8.2.4. Financial Overview
8.3. Walchandnagar
8.3.1. Business Overview
8.3.2. Service Portfolio
8.3.3. Strategic Developments
8.3.4. Financial Overview
8.4. AMEC Foster Wheeler
8.4.1. Business Overview
8.4.2. Service Portfolio
8.4.3. Strategic Developments
8.4.4. Financial Overview
8.5. Bosch Thermotechnology
8.5.1. Business Overview
8.5.2. Service Portfolio
8.5.3. Strategic Developments
8.5.4. Financial Overview
8.6. Cochran
8.6.1. Business Overview
8.6.2. Service Portfolio
8.6.3. Strategic Developments
8.6.4. Financial Overview
8.7. Thermax
8.7.1. Business Overview
8.7.2. Service Portfolio
8.7.3. Strategic Developments
8.7.4. Financial Overview
8.8. Siemens
8.8.1. Business Overview
8.8.2. Service Portfolio
8.8.3. Strategic Developments
8.8.4. Financial Overview
8.9. Forbes Marshall Private
8.9.1. Business Overview
8.9.2. Service Portfolio
8.9.3. Strategic Developments
8.9.4. Financial Overview
8.10. Rentech Boiler Systems
8.10.1. Business Overview
8.10.2. Service Portfolio
8.10.3. Strategic Developments
8.10.4. Financial Overview
8.11. Mitsubishi Hitachi Power Systems
8.11.1. Business Overview
8.11.2. Service Portfolio
8.11.3. Strategic Developments
8.11.4. Financial Overview
9. Global Waste Heat To Power Market Competition, by Manufacturer
9.1. Global Waste Heat To Power Revenue and Market Share by Manufacturer (2017-2017)
9.2. Global Waste Heat To Power Price By Region (2017-2017)
9.3. Top 5 Waste Heat To Power Manufacturer Market Share
9.4. Market Competition Trend
10. Waste Heat To Power Market Forecast (2017-2027)
10.1. Global Waste Heat To Power Revenue (Millions USD) and Growth Rate (2017-2027)
10.2. Waste Heat To Power Market Forecast by Regions (2017-2027)
10.2.1. North America Waste Heat To Power Market Forecast (2017-2027)
10.2.1.1. United States Waste Heat To Power Market Forecast (2017-2027)
10.2.1.2. Canada Waste Heat To Power Market Forecast (2017-2027)
10.2.1.3. Mexico Waste Heat To Power Market Forecast (2017-2027)
10.2.2. Europe Waste Heat To Power Market Forecast (2017-2027)
10.2.2.1. Germany Waste Heat To Power Market Forecast (2017-2027)
10.2.2.2. France Waste Heat To Power Market Forecast (2017-2027)
10.2.2.3. UK Waste Heat To Power Market Forecast (2017-2027)
10.2.2.4. Russia Waste Heat To Power Market Forecast (2017-2027)
10.2.2.5. Italy Waste Heat To Power Market Forecast (2017-2027)
10.2.2.6. Rest of Europe Waste Heat To Power Market Forecast (2017-2027)
10.2.3. Asia-Pacific Waste Heat To Power Market Forecast (2017-2027)
10.2.3.1. China Waste Heat To Power Market Forecast (2017-2027)
10.2.3.2. Japan Waste Heat To Power Market Forecast (2017-2027)
10.2.3.3. Korea Waste Heat To Power Market Forecast (2017-2027)
10.2.3.4. India Waste Heat To Power Market Forecast (2017-2027)
10.2.3.5. Southeast Asia Waste Heat To Power Market Forecast (2017-2027)
10.2.3.6. Rest of Asia-Pacific Waste Heat To Power Market Forecast (2017-2027)
10.2.4. South America Waste Heat To Power Market Forecast (2017-2027)
10.2.4.1. Brazil Waste Heat To Power Market Forecast (2017-2027)
10.2.4.2. Argentina Waste Heat To Power Market Forecast (2017-2027)
10.2.4.3. Columbia Waste Heat To Power Market Forecast (2017-2027)
10.2.4.4. Rest of South America Waste Heat To Power Market Forecast (2017-2027)
10.2.5. Middle East and Africa Waste Heat To Power Market Forecast (2017-2027)
10.2.5.1. Saudi Arabia Waste Heat To Power Market Forecast (2017-2027)
10.2.5.2. United Arab Emirates Waste Heat To Power Market Forecast (2017-2027)
10.2.5.3. Egypt Waste Heat To Power Market Forecast (2017-2027)
10.2.5.4. Nigeria Waste Heat To Power Market Forecast (2017-2027)
10.2.5.5. South Africa Waste Heat To Power Market Forecast (2017-2027)
10.2.5.6. Turkey Waste Heat To Power Market Forecast (2017-2027)
10.2.5.7. Rest of Middle East and Africa Waste Heat To Power Market Forecast (2017-2027)
10.3. Waste Heat To Power Market Forecast by Technology (2017-2027)
10.3.1. Waste Heat To Power Forecast by Technology (2017-2027)
10.3.2. Waste Heat To Power Market Share Forecast by Technology (2017-2027)
10.4. Waste Heat To Power Market Forecast by End User (2017-2027)
10.4.1. Waste Heat To Power Forecast by End User (2017-2027)
10.4.2. Waste Heat To Power Market Share Forecast by End User (2017-2027)
List of Tables
List of Tables and Figures:
Figure United States Waste Heat To Power Revenue (Million USD) and Growth Rate (2017-2025)
Figure Canada Waste Heat To Power Revenue (Million USD) and Growth Rate (2017-2025)
Figure Mexico Waste Heat To Power Revenue (Million USD) and Growth Rate (2017-2025)
Figure Germany Waste Heat To Power Revenue (Million USD) and Growth Rate (2017-2025)
Figure France Waste Heat To Power Revenue (Million USD) and Growth Rate (2017-2025)
Figure UK Waste Heat To Power Revenue (Million USD) and Growth Rate (2017-2025)
Figure Russia Waste Heat To Power Revenue (Million USD) and Growth Rate (2017-2025)
Figure Italy Waste Heat To Power Revenue (Million USD) and Growth Rate (2017-2025)
Figure Rest of Europe Waste Heat To Power Revenue (Million USD) and Growth Rate (2017-2025)
Figure China Waste Heat To Power Revenue (Million USD) and Growth Rate (2017-2025)
Figure Japan Waste Heat To Power Revenue (Million USD) and Growth Rate (2017-2025)
Figure Korea Waste Heat To Power Revenue (Million USD) and Growth Rate (2017-2025)
Figure India Waste Heat To Power Revenue (Million USD) and Growth Rate (2017-2025)
Figure Southeast Asia Waste Heat To Power Revenue (Million USD) and Growth Rate (2017-2025)
Figure Rest of Asia-Pacific Waste Heat To Power Revenue (Million USD) and Growth Rate (2017-2025)
Figure Brazil Waste Heat To Power Revenue (Million USD) and Growth Rate (2017-2025)
Figure Argentina Waste Heat To Power Revenue (Million USD) and Growth Rate (2017-2025)
Figure Columbia Waste Heat To Power Revenue (Million USD) and Growth Rate (2017-2025)
Figure Rest of South America Waste Heat To Power Revenue (Million USD) and Growth Rate (2017-2025)
Figure Saudi Arabia Waste Heat To Power Revenue (Million USD) and Growth Rate (2017-2025)
Figure United Arab Emirates Waste Heat To Power Revenue (Million USD) and Growth Rate (2017-2025)
Figure Egypt Waste Heat To Power Revenue (Million USD) and Growth Rate (2017-2025)
Figure Nigeria Waste Heat To Power Revenue (Million USD) and Growth Rate (2017-2025)
Figure South Africa Waste Heat To Power Revenue (Million USD) and Growth Rate (2017-2025)
Figure Turkey Waste Heat To Power Revenue (Million USD) and Growth Rate (2017-2025)
Figure Rest of Middle East and Africa Waste Heat To Power Revenue (Million USD) and Growth Rate (2017-2025)
Table Global Waste Heat To Power Revenue and Revenue Share by Technology (2017-2018)
Figure Global Kalina Cycle Revenue and Growth Rate (2017-2018)
Figure Global Organic Rankine Cycle (ORC) Revenue and Growth Rate (2017-2018)
Figure Global Steam Rankine Cycle (SRC) Revenue and Growth Rate (2017-2018)
Table Global Waste Heat To Power Revenue and Revenue Share by End User (2017-2018)
Figure Global Glass Industry Revenue and Growth Rate (2017-2018)
Figure Global Petroleum Refining Revenue and Growth Rate (2017-2018)
Figure Global Food & Beverage Revenue and Growth Rate (2017-2018)
Figure Global Chemical Industry Revenue and Growth Rate (2017-2018)
Figure Global Cement Industry Revenue and Growth Rate (2017-2018)
Figure Global Pulp & Paper Revenue and Growth Rate (2017-2018)
Figure Global Heavy Metal Production Revenue and Growth Rate (2017-2018)
Figure Global Other End Users Revenue and Growth Rate (2017-2018)
Table Global Waste Heat To Power Revenue by Regions (2017-2018)
Figure North America Waste Heat To Power Growth Rate (2017-2018)
Figure North America Waste Heat To Power Revenue and Growth Rate (2017-2018)
Figure North America Waste Heat To Power by Countries (2017-2018)
Figure North America Waste Heat To Power Revenue (Million USD) by Countries (2017-2018)
Figure United States Waste Heat To Power Growth Rate (2017-2018)
Figure United States Waste Heat To Power Revenue (Millions USD) and Growth Rate (2017-2018)
Figure Canada Waste Heat To Power Growth Rate (2017-2018)
Figure Canada Waste Heat To Power Revenue (Millions USD) and Growth Rate (2017-2018)
Figure Mexico Waste Heat To Power Growth Rate (2017-2018)
Figure Mexico Waste Heat To Power Revenue (Millions USD) and Growth Rate (2017-2018)
Figure Europe Waste Heat To Power Growth Rate (2017-2018)
Figure Europe Waste Heat To Power Revenue and Growth Rate (2017-2018)
Figure Europe Waste Heat To Power by Countries (2017-2018)
Figure Europe Waste Heat To Power Revenue (Million USD) by Countries (2017-2018)
Figure Germany Waste Heat To Power Growth Rate (2017-2018)
Figure Germany Waste Heat To Power Revenue (Millions USD) and Growth Rate (2017-2018)
Figure France Waste Heat To Power Growth Rate (2017-2018)
Figure France Waste Heat To Power Revenue (Millions USD) and Growth Rate (2017-2018)
Figure UK Waste Heat To Power Growth Rate (2017-2018)
Figure UK Waste Heat To Power Revenue (Millions USD) and Growth Rate (2017-2018)
Figure Russia Waste Heat To Power Growth Rate (2017-2018)
Figure Russia Waste Heat To Power Revenue (Millions USD) and Growth Rate (2017-2018)
Figure Italy Waste Heat To Power Growth Rate (2017-2018)
Figure Italy Waste Heat To Power Revenue (Millions USD) and Growth Rate (2017-2018)
Figure Rest of Europe Waste Heat To Power Growth Rate (2017-2018)
Figure Rest of Europe Waste Heat To Power Revenue (Millions USD) and Growth Rate (2017-2018)
Figure Asia-Pacific Waste Heat To Power Growth Rate (2017-2018)
Figure Asia-Pacific Waste Heat To Power Revenue and Growth Rate (2017-2018)
Figure Asia-Pacific Waste Heat To Power by Countries (2017-2018)
Figure Asia-Pacific Waste Heat To Power Revenue (Million USD) by Countries (2017-2018)
Figure China Waste Heat To Power Growth Rate (2017-2018)
Figure China Waste Heat To Power Revenue (Millions USD) and Growth Rate (2017-2018)
Figure Japan Waste Heat To Power Growth Rate (2017-2018)
Figure Japan Waste Heat To Power Revenue (Millions USD) and Growth Rate (2017-2018)
Figure Korea Waste Heat To Power Growth Rate (2017-2018)
Figure Korea Waste Heat To Power Revenue (Millions USD) and Growth Rate (2017-2018)
Figure India Waste Heat To Power Growth Rate (2017-2018)
Figure India Waste Heat To Power Revenue (Millions USD) and Growth Rate (2017-2018)
Figure Southeast Asia Waste Heat To Power Growth Rate (2017-2018)
Figure Southeast Asia Waste Heat To Power Revenue (Millions USD) and Growth Rate (2017-2018)
Figure Rest of Asia-Pacific Waste Heat To Power Growth Rate (2017-2018)
Figure Rest of Asia-Pacific Waste Heat To Power Revenue (Millions USD) and Growth Rate (2017-2018)
Figure South America Waste Heat To Power Growth Rate (2017-2018)
Figure South America Waste Heat To Power Revenue and Growth Rate (2017-2018)
Figure South America Waste Heat To Power by Countries (2017-2018)
Figure South America Waste Heat To Power Revenue (Million USD) by Countries (2017-2018)
Figure Brazil Waste Heat To Power Growth Rate (2017-2018)
Figure Brazil Waste Heat To Power Revenue (Millions USD) and Growth Rate (2017-2018)
Figure Argentina Waste Heat To Power Growth Rate (2017-2018)
Figure Argentina Waste Heat To Power Revenue (Millions USD) and Growth Rate (2017-2018)
Figure Columbia Waste Heat To Power Growth Rate (2017-2018)
Figure Columbia Waste Heat To Power Revenue (Millions USD) and Growth Rate (2017-2018)
Figure Rest of South America Waste Heat To Power Growth Rate (2017-2018)
Figure Rest of South America Waste Heat To Power Revenue (Millions USD) and Growth Rate (2017-2018)
Figure Middle East and Africa Waste Heat To Power Growth Rate (2017-2018)
Figure Middle East and Africa Waste Heat To Power Revenue and Growth Rate (2017-2018)
Figure Middle East and Africa Waste Heat To Power by Countries (2017-2018)
Figure Middle East and Africa Waste Heat To Power Revenue (Million USD) by Countries (2017-2018)
Figure Saudi Arabia Waste Heat To Power Growth Rate (2017-2018)
Figure Saudi Arabia Waste Heat To Power Revenue (Millions USD) and Growth Rate (2017-2018)
Figure United Arab Emirates Waste Heat To Power Growth Rate (2017-2018)
Figure United Arab Emirates Waste Heat To Power Revenue (Millions USD) and Growth Rate (2017-2018)
Figure Egypt Waste Heat To Power Growth Rate (2017-2018)
Figure Egypt Waste Heat To Power Revenue (Millions USD) and Growth Rate (2017-2018)
Figure Nigeria Waste Heat To Power Growth Rate (2017-2018)
Figure Nigeria Waste Heat To Power Revenue (Millions USD) and Growth Rate (2017-2018)
Figure South Africa Waste Heat To Power Growth Rate (2017-2018)
Figure South Africa Waste Heat To Power Revenue (Millions USD) and Growth Rate (2017-2018)
Figure Turkey Waste Heat To Power Growth Rate (2017-2018)
Figure Turkey Waste Heat To Power Revenue (Millions USD) and Growth Rate (2017-2018)
Figure Rest of Middle East and Africa Waste Heat To Power Growth Rate (2017-2018)
Figure Rest of Middle East and Africa Waste Heat To Power Revenue (Millions USD) and Growth Rate (2017-2018)
Table General Electric Waste Heat To Power Price, Revenue, Gross Margin and Market Share (2017-2017)
Table IHI Corporation Waste Heat To Power Price, Revenue, Gross Margin and Market Share (2017-2017)
Table Walchandnagar Waste Heat To Power Price, Revenue, Gross Margin and Market Share (2017-2017)
Table AMEC Foster Wheeler Waste Heat To Power Price, Revenue, Gross Margin and Market Share (2017-2017)
Table Bosch Thermotechnology Waste Heat To Power Price, Revenue, Gross Margin and Market Share (2017-2017)
Table Cochran Waste Heat To Power Price, Revenue, Gross Margin and Market Share (2017-2017)
Table Thermax Waste Heat To Power Price, Revenue, Gross Margin and Market Share (2017-2017)
Table Siemens Waste Heat To Power Price, Revenue, Gross Margin and Market Share (2017-2017)
Table Forbes Marshall Private Waste Heat To Power Price, Revenue, Gross Margin and Market Share (2017-2017)
Table Rentech Boiler Systems Waste Heat To Power Price, Revenue, Gross Margin and Market Share (2017-2017)
Table Mitsubishi Hitachi Power Systems Waste Heat To Power Price, Revenue, Gross Margin and Market Share (2017-2017)
Figure Global Waste Heat To Power Market Share by Manufacturer
Figure Global Waste Heat To Power Revenue and Market Share by Manufacturer
Table Global Waste Heat To Power Price by Region (2017-2017)
Figure Top 5 Waste Heat To Power Manufacturer (Revenue) Market Share
Figure Market Competition Trend
Figure Global Waste Heat To Power Revenue (Millions USD) and Growth Rate (2018-2025)
Table Waste Heat To Power Market Forecast by Regions (2018-2025)
Figure North America Waste Heat To Power Market Forecast (2018-2025)
Figure United States Waste Heat To Power Market Forecast (2018-2025)
Figure Canada Waste Heat To Power Market Forecast (2018-2025)
Figure Mexico Waste Heat To Power Market Forecast (2018-2025)
Figure Europe Waste Heat To Power Market Forecast (2018-2025)
Figure Germany Waste Heat To Power Market Forecast (2018-2025)
Figure France Waste Heat To Power Market Forecast (2018-2025)
Figure UK Waste Heat To Power Market Forecast (2018-2025)
Figure Russia Waste Heat To Power Market Forecast (2018-2025)
Figure Italy Waste Heat To Power Market Forecast (2018-2025)
Figure Rest of Europe Waste Heat To Power Market Forecast (2018-2025)
Figure Asia-Pacific Waste Heat To Power Market Forecast (2018-2025)
Figure China Waste Heat To Power Market Forecast (2018-2025)
Figure Japan Waste Heat To Power Market Forecast (2018-2025)
Figure Korea Waste Heat To Power Market Forecast (2018-2025)
Figure India Waste Heat To Power Market Forecast (2018-2025)
Figure Southeast Asia Waste Heat To Power Market Forecast (2018-2025)
Figure Rest of Asia-Pacific Waste Heat To Power Market Forecast (2018-2025)
Figure South America Waste Heat To Power Market Forecast (2018-2025)
Figure Brazil Waste Heat To Power Market Forecast (2018-2025)
Figure Argentina Waste Heat To Power Market Forecast (2018-2025)
Figure Columbia Waste Heat To Power Market Forecast (2018-2025)
Figure Rest of South America Waste Heat To Power Market Forecast (2018-2025)
Figure Middle East and Africa Waste Heat To Power Market Forecast (2018-2025)
Figure Saudi Arabia Waste Heat To Power Market Forecast (2018-2025)
Figure United Arab Emirates Waste Heat To Power Market Forecast (2018-2025)
Figure Egypt Waste Heat To Power Market Forecast (2018-2025)
Figure Nigeria Waste Heat To Power Market Forecast (2018-2025)
Figure South Africa Waste Heat To Power Market Forecast (2018-2025)
Figure Turkey Waste Heat To Power Market Forecast (2018-2025)
Figure Rest of Middle East and Africa Waste Heat To Power Market Forecast (2018-2025)
Figure Global Waste Heat To Power Forecast by Technology (2018-2025)
Figure Global Waste Heat To Power Market Share Forecast by Technology (2018-2025)
Figure Global Waste Heat To Power Forecast by Technology (2018-2025)
Figure Global Waste Heat To Power Forecast by End User (2018-2025)
Figure Global Waste Heat To Power Market Share Forecast by End User (2018-2025)
Figure Global Waste Heat To Power Forecast by End User (2018-2025)
Please Note: Data related to the Companies are subject to Availability.
Research Methodology
We use both primary as well as secondary research for our market surveys, estimates and for developing forecast. Our research process commence by analyzing the problem which enable us to design the scope for our research study. Our research process is uniquely designed with enough flexibility to adjust according to changing nature of products and markets, while retaining core element to ensure reliability and accuracy in research findings. We understand both macro and micro-economic factors to evaluate and forecast different market segments.
Data Mining
Data is extensively collected through various secondary sources such as annual reports, investor presentations, SEC filings, and other corporate publications. We also refer trade magazines, technical journals, paid databases such as Factiva and Bloomberg, industry trade journals, scientific journals, and social media data to understand market dynamics and industry trends. Further, we also conduct primary research to understand market drivers, restraints, opportunities, challenges, and competitive scenario to build our analysis.
Data Collection Matrix
Data Collection Matrix |
Supply Side |
Demand Side |
Primary Data Sources |
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Secondary Data Sources |
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Market Modeling and Forecasting
We use epidemiology and capital equipment-based models to forecast market size of different segments at country and regional level.
We do forecast on basis of several parameters such as market drivers, market opportunities, industry trends government regulations, raw materials supply and trade dynamics to ensure relevance of forecast with market scenario. With increasing need to granulized information, we used bottom-up methodology for forecasting where we evaluate each regional segment differently and combined all forecast to develop final market forecast.
Data Validation
We believe primary research is a very important tool in analyzing and forecasting different markets. In order to make sure accuracy of our findings, our team conducts primary interviews at every stage of research to gain deep insights into current business environment and future trends and key developments in market. This includes use of various methods such as telephonic interviews, focus groups, face to face interviews and questionnaires to validate our research from all aspects. We validate our data through primary research from key industry leaders such as CEO, product managers, marketing managers, suppliers, distributors, and consumers are frequently interviewed. These interviews provide valuable insights which help us to have better market understanding besides validating our estimates and forecast.
Data Triangulation
Industry Analysis
Qualitative Data |
Quantitative Data (2017-2025) |
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