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Waste to Energy Market - Global Industry Analysis, Size, Share, Growth, Trends, and Forecast 2018-2026

  • ID: 4851745
  • Report
  • January 2019
  • Region: Global
  • 334 pages
  • Transparency Market Research
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Waste to energy Market - Overview

The world is currently facing challenges arising out of shortage of conventional fossil fuels and degradation of the environment. In order to overcome these issues, renewable energy resources are being used increasingly. The need to produce energy from renewable resources has risen. Waste-to-energy (WtE) is a type of renewable energy. It is a process wherein energy is generated from the treatment of waste, thereby turning waste into a source of power generation.

The energy produced from this process is similar to that produced by using coal, natural gas, or oil. The waste-to-energy process is expected to reduce landfilling of municipal solid wastes (MSWs) by 90%, which can further reduce carbon dioxide (CO2) emissions.

Japan and Germany are major countries in terms of waste treatment for energy recovery. Japan converts approximately 65% of its waste into energy. The share of waste disposed of in landfills is nearly 3%; the rest of it is either recycled or composted. Germany is the world’s first major renewable energy economy, as it extensively uses renewable energy for power, heating, and transport. More than 120 waste-to-energy plants were operating in Germany by the end of 2016.

This report analyzes and forecasts the waste-to-energy market at the global and regional levels. The market has been forecast based on value (US$ Mn) and volume (thousand tons) for the period from 2018 to 2026, considering 2017 as the base year. The study includes drivers and restraints of the global waste-to-energy market. It also covers the expected impact of these drivers and restraints on the demand for waste-to-energy during the forecast period. The report also highlights opportunities for the waste-to-energy market at the global and regional levels.

The report includes detailed value chain analysis, which provides a comprehensive view of the global waste-to-energy market. Porter’s Five Forces model for the waste-to-energy market has also been included to help understand the competition landscape of the market. The study encompasses market attractiveness analysis, wherein waste type, technology, and application segments have been benchmarked based on their market size, growth rate, and general attractiveness.

The study provides a decisive view of the global waste-to-energy market by segmenting it in terms of waste type, technology, application, and region/country. In terms of waste type, the market has been classified into municipal solid waste (MSW), agricultural waste, and others. Based on technology, the waste-to-energy market has been divided into thermochemical and biochemical. In terms of application, the market has been segregated into electricity, heat, and others. These segments have been analyzed based on the present and future trends. Regional segmentation includes the current and forecast demand for waste-to-energy in North America, Europe, Asia Pacific, Latin America, and Middle East & Africa.

The report provides size (in terms of volume and value) of the waste-to-energy market for the base year 2017 and the forecast between 2018 and 2026. Market numbers have been estimated based on waste type, technology, and application segments of the waste-to-energy market. Market value and volume have been provided for the global, regional, and country-level markets.

The report comprises profiles of major companies operating in the global waste-to-energy market. Key players operating in the global market are Veolia, SUEZ, Covanta Holding Corporation, Keppel Corporation Limited, Constructions industrielles de la Méditerranée (CNIM), China Everbright International Limited, Babcock & Wilcox Enterprises, Inc., STEAG GmbH, Future Biogas Limited, and Gazasia Ltd. Market players have been profiled in terms of attributes such as company overview, financial overview, and recent developments.

Key Takeaways

  • Europe is the leading region of the global waste-to-energy market. The region constitutes more than 35% share of the global market. The market in Asia Pacific is expected to expand at a significant pace during the forecast period.
  • Europe had around 520 waste-to-energy plants in 2016, with all EU28 countries active in the WtE production, along with Iceland, Norway, Serbia and Switzerland
  • Recently, concerns related to fossil fuels have increased. This presents opportunities for service providers operating in the waste-to-energy market.
  • Around 75 waste-to-energy facilities operate in 23 states of the U.S. They have capacity to process approximately 94,000 tons of waste per day and a base load electricity generation capacity of approximately 2,534 MWh (megawatt hours).
  • According to Bloomberg New Energy Finance, 114 bioenergy and energy-from-waste plants are currently operating in Australia
Note: Product cover images may vary from those shown
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1. Preface
1.1. Report Scope and Market Segmentation
1.2. Research Highlights

2. Assumptions and Research Methodology
2.1. Report Assumptions
2.2. Secondary Sources and Acronyms Used
2.3. Research Methodology

3. Executive Summary
3.1. Market Snapshot
3.2. Top Trends

4. Market Overview
4.1. Introduction
4.2. Market Indicators

5. Market Dynamics
5.1. Drivers and Restraints Snapshot Analysis
5.1.1. Drivers
5.1.2. Restraint
5.1.3. Opportunity
5.2. Porter’s Five Forces Analysis
5.2.1. Threat of Substitutes
5.2.2. Bargaining Power of Buyers
5.2.3. Bargaining Power of Suppliers
5.2.4. Threat of New Entrants
5.2.5. Degree of Competition
5.3. Regulatory Scenario
5.4. Value Chain Analysis

6. Global Waste-to-energy Market Analysis and Forecast, by Waste Type, 2017-2026
6.1. Key Findings
6.2. Introduction
6.3. Global Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Analysis & Forecast, by Waste Type, 2017-2026
6.3.1. Municipal Solid Waste (MSW)
6.3.2. Agricultural Waste
6.3.3. Others
6.4. Global Waste-to-energy Market Attractiveness Analysis, by Waste Type

7. Global Waste-to-energy Market Analysis, by Technology
7.1. Key Findings
7.2. Introduction
7.3. Global Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Analysis & Forecast, by Technology, 2017-2026
7.3.1. Thermochemical
7.3.1.1. Incineration
7.3.1.2. Others
7.3.2. Biochemical
7.3.2.1. Anaerobic Digestion
7.3.2.2. Others
7.4. Global Waste-to-energy Market Attractiveness Analysis, by Technology

8. Global Waste-to-energy Market Analysis and Forecast, by Application, 2017-2026
8.1. Key Findings
8.2. Introduction
8.3. Global Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Analysis & Forecast, by Application, 2017-2026
8.3.1. Electricity
8.3.2. Heat
8.3.3. Others
8.4. Global Waste-to-energy Market Attractiveness Analysis, by Application

9. Global Waste-to-energy Market Analysis, by Region, 2017-2026
9.1. Key Findings
9.2. Global Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Analysis & Forecast, by Region, 2017-2026
9.2.1. North America
9.2.2. Europe
9.2.3. Asia Pacific
9.2.4. Latin America
9.2.5. Middle East & Africa
9.3. Global Waste-to-energy Market Attractiveness Analysis, by Region

10. North America Waste-to-energy Market Analysis, 2017-2026
10.1. Key Findings
10.2. North America Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Analysis & Forecast, by Waste Type
10.2.1. Municipal Solid Waste (MSW)
10.2.2. Agricultural Waste
10.2.3. Others
10.3. North America Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Analysis & Forecast, by Technology
10.3.1. Thermochemical
10.3.1.1. Incineration
10.3.1.2. Others
10.3.2. Biochemical
10.3.2.1. Anaerobic Digestion
10.3.2.2. Others
10.4. North America Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Analysis & Forecast, by Application
10.4.1. Electricity
10.4.2. Heat
10.4.3. Others
10.5. U.S. Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Waste Type
10.5.1. Municipal Solid Waste (MSW)
10.5.2. Agricultural Waste
10.5.3. Others
10.6. U.S. Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Technology
10.6.1. Thermochemical
10.6.1.1. Incineration
10.6.1.2. Others
10.6.2. Biochemical
10.6.2.1. Anaerobic Digestion
10.6.2.2. Others
10.7. U.S. Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Application
10.7.1. Electricity
10.7.2. Heat
10.7.3. Others
10.8. Canada Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Waste Type
10.8.1. Municipal Solid Waste (MSW)
10.8.2. Agricultural Waste
10.8.3. Others
10.9. Canada Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Technology
10.9.1. Thermochemical
10.9.1.1. Incineration
10.9.1.2. Others
10.9.2. Biochemical
10.9.2.1. Anaerobic Digestion
10.9.2.2. Others
10.10. Canada Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Application
10.10.1. Electricity
10.10.2. Heat
10.10.3. Others
10.11. North America Waste-to-energy Market Attractiveness Analysis
10.11.1. by Waste Type
10.11.2. by Technology
10.11.3. by Application

11. Europe Waste-to-energy Market Analysis, 2017-2026
11.1. Key Findings
11.2. Europe Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Analysis & Forecast, by Waste Type
11.2.1. Municipal Solid Waste (MSW)
11.2.2. Agricultural Waste
11.2.3. Others
11.3. Europe Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Analysis & Forecast, by Technology
11.3.1. Thermochemical
11.3.1.1. Incineration
11.3.1.2. Others
11.3.2. Biochemical
11.3.2.1. Anaerobic Digestion
11.3.2.2. Others
11.4. Europe Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Analysis & Forecast, by Application
11.4.1. Electricity
11.4.2. Heat
11.4.3. Others
11.5. Germany Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Waste Type
11.5.1. Municipal Solid Waste (MSW)
11.5.2. Agricultural Waste
11.5.3. Others
11.6. Germany Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Technology
11.6.1. Thermochemical
11.6.1.1. Incineration
11.6.1.2. Others
11.6.2. Biochemical
11.6.2.1. Anaerobic Digestion
11.6.2.2. Others
11.7. Germany Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Application
11.7.1. Electricity
11.7.2. Heat
11.7.3. Others
11.8. U.K. Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Waste Type
11.8.1. Municipal Solid Waste (MSW)
11.8.2. Agricultural Waste
11.8.3. Others
11.9. U.K. Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Technology
11.9.1. Thermochemical
11.9.1.1. Incineration
11.9.1.2. Others
11.9.2. Biochemical
11.9.2.1. Anaerobic Digestion
11.9.2.2. Others
11.10. U.K. Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Application
11.10.1. Electricity
11.10.2. Heat
11.10.3. Others
11.11. France Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Waste Type
11.11.1. Municipal Solid Waste (MSW)
11.11.2. Agricultural Waste
11.11.3. Others
11.12. France Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Technology
11.12.1. Thermochemical
11.12.1.1. Incineration
11.12.1.2. Others
11.12.2. Biochemical
11.12.2.1. Anaerobic Digestion
11.12.2.2. Others
11.13. France Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Application
11.13.1. Electricity
11.13.2. Heat
11.13.3. Others
11.14. Italy Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Waste Type
11.14.1. Municipal Solid Waste (MSW)
11.14.2. Agricultural Waste
11.14.3. Others
11.15. Italy Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Technology
11.15.1. Thermochemical
11.15.1.1. Incineration
11.15.1.2. Others
11.15.2. Biochemical
11.15.2.1. Anaerobic Digestion
11.15.2.2. Others
11.16. Italy Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Application
11.16.1. Electricity
11.16.2. Heat
11.16.3. Others
11.17. Sweden Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Waste Type
11.17.1. Municipal Solid Waste (MSW)
11.17.2. Agricultural Waste
11.17.3. Others
11.18. Sweden Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Technology
11.18.1. Thermochemical
11.18.1.1. Incineration
11.18.1.2. Others
11.18.2. Biochemical
11.18.2.1. Anaerobic Digestion
11.18.2.2. Others
11.19. Sweden Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Application
11.19.1. Electricity
11.19.2. Heat
11.19.3. Others
11.20. Switzerland Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Waste Type
11.20.1. Municipal Solid Waste (MSW)
11.20.2. Agricultural Waste
11.20.3. Others
11.21. Switzerland Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Technology
11.21.1. Thermochemical
11.21.1.1. Incineration
11.21.1.2. Others
11.21.2. Biochemical
11.21.2.1. Anaerobic Digestion
11.21.2.2. Others
11.22. Switzerland Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Application
11.22.1. Electricity
11.22.2. Heat
11.22.3. Others
11.23. Netherlands Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Waste Type
11.23.1. Municipal Solid Waste (MSW)
11.23.2. Agricultural Waste
11.23.3. Others
11.24. Netherlands Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Technology
11.24.1. Thermochemical
11.24.1.1. Incineration
11.24.1.2. Others
11.24.2. Biochemical
11.24.2.1. Anaerobic Digestion
11.24.2.2. Others
11.25. Netherlands Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Application
11.25.1. Electricity
11.25.2. Heat
11.25.3. Others
11.26. Belgium Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Waste Type
11.26.1. Municipal Solid Waste (MSW)
11.26.2. Agricultural Waste
11.26.3. Others
11.27. Belgium Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Technology
11.27.1. Thermochemical
11.27.1.1. Incineration
11.27.1.2. Others
11.27.2. Biochemical
11.27.2.1. Anaerobic Digestion
11.27.2.2. Others
11.28. Belgium Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Application
11.28.1. Electricity
11.28.2. Heat
11.28.3. Others
11.29. Spain Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Waste Type
11.29.1. Municipal Solid Waste (MSW)
11.29.2. Agricultural Waste
11.29.3. Others
11.30. Spain Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Technology
11.30.1. Thermochemical
11.30.1.1. Incineration
11.30.1.2. Others
11.30.2. Biochemical
11.30.2.1. Anaerobic Digestion
11.30.2.2. Others
11.31. Spain Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Application
11.31.1. Electricity
11.31.2. Heat
11.31.3. Others
11.32. Rest of Europe Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Waste Type
11.32.1. Municipal Solid Waste (MSW)
11.32.2. Agricultural Waste
11.32.3. Others
11.33. Rest of Europe Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Technology
11.33.1. Thermochemical
11.33.1.1. Incineration
11.33.1.2. Others
11.33.2. Biochemical
11.33.2.1. Anaerobic Digestion
11.33.2.2. Others
11.34. Rest of Europe Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Application
11.34.1. Electricity
11.34.2. Heat
11.34.3. Others
11.35. Europe Waste-to-energy Market Attractiveness Analysis
11.35.1. by Waste Type
11.35.2. by Technology
11.35.3. by Application

12. Asia Pacific Waste-to-energy Market Analysis, 2017-2026
12.1. Key Findings
12.2. Asia Pacific Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Analysis & Forecast, by Waste Type
12.2.1. Municipal Solid Waste (MSW)
12.2.2. Agricultural Waste
12.2.3. Others
12.3. Asia Pacific Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Analysis & Forecast, by Technology
12.3.1. Thermochemical
12.3.1.1. Incineration
12.3.1.2. Others
12.3.2. Biochemical
12.3.2.1. Anaerobic Digestion
12.3.2.2. Others
12.4. Asia Pacific Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Analysis & Forecast, by Application
12.4.1. Electricity
12.4.2. Heat
12.4.3. Others
12.5. China Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Waste Type
12.5.1. Municipal Solid Waste (MSW)
12.5.2. Agricultural Waste
12.5.3. Others
12.6. China Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Technology
12.6.1. Thermochemical
12.6.1.1. Incineration
12.6.1.2. Others
12.6.2. Biochemical
12.6.2.1. Anaerobic Digestion
12.6.2.2. Others
12.7. China Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Application
12.7.1. Electricity
12.7.2. Heat
12.7.3. Others
12.8. Japan Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Waste Type
12.8.1. Municipal Solid Waste (MSW)
12.8.2. Agricultural Waste
12.8.3. Others
12.9. Japan Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Technology
12.9.1. Thermochemical
12.9.1.1. Incineration
12.9.1.2. Others
12.9.2. Biochemical
12.9.2.1. Anaerobic Digestion
12.9.2.2. Others
12.10. Japan Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Application
12.10.1. Electricity
12.10.2. Heat
12.10.3. Others
12.11. South Korea Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Waste Type
12.11.1. Municipal Solid Waste (MSW)
12.11.2. Agricultural Waste
12.11.3. Others
12.12. South Korea Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Technology
12.12.1. Thermochemical
12.12.1.1. Incineration
12.12.1.2. Others
12.12.2. Biochemical
12.12.2.1. Anaerobic Digestion
12.12.2.2. Others
12.13. South Korea Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Application
12.13.1. Electricity
12.13.2. Heat
12.13.3. Others
12.14. Australia Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Waste Type
12.14.1. Municipal Solid Waste (MSW)
12.14.2. Agricultural Waste
12.14.3. Others
12.15. Australia Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Technology
12.15.1. Thermochemical
12.15.1.1. Incineration
12.15.1.2. Others
12.15.2. Biochemical
12.15.2.1. Anaerobic Digestion
12.15.2.2. Others
12.16. Australia Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Application
12.16.1. Electricity
12.16.2. Heat
12.16.3. Others
12.17. ASEAN Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Waste Type
12.17.1. Municipal Solid Waste (MSW)
12.17.2. Agricultural Waste
12.17.3. Others
12.18. ASEAN Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Technology
12.18.1. Thermochemical
12.18.1.1. Incineration
12.18.1.2. Others
12.18.2. Biochemical
12.18.2.1. Anaerobic Digestion
12.18.2.2. Others
12.19. ASEAN Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Application
12.19.1. Electricity
12.19.2. Heat
12.19.3. Others
12.20. Rest of Asia Pacific Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Waste Type
12.20.1. Municipal Solid Waste (MSW)
12.20.2. Agricultural Waste
12.20.3. Others
12.21. Rest of Asia Pacific Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Technology
12.21.1. Thermochemical
12.21.1.1. Incineration
12.21.1.2. Others
12.21.2. Biochemical
12.21.2.1. Anaerobic Digestion
12.21.2.2. Others
12.22. Rest of Asia Pacific Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Application
12.22.1. Electricity
12.22.2. Heat
12.22.3. Others
12.23. Asia Pacific Waste-to-energy Market Attractiveness Analysis
12.23.1. by Waste Type
12.23.2. by Technology
12.23.3. by Application

13. Latin America Waste-to-energy Market Analysis, 2017-2026
13.1. Key Findings
13.2. Latin America Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Analysis & Forecast, by Waste Type
13.2.1. Municipal Solid Waste (MSW)
13.2.2. Agricultural Waste
13.2.3. Others
13.3. Latin America Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Analysis & Forecast, by Technology
13.3.1. Thermochemical
13.3.1.1. Incineration
13.3.1.2. Others
13.3.2. Biochemical
13.3.2.1. Anaerobic Digestion
13.3.2.2. Others
13.4. Latin America Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Analysis & Forecast, by Application
13.4.1. Electricity
13.4.2. Heat
13.4.3. Others
13.5. Brazil Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Waste Type
13.5.1. Municipal Solid Waste (MSW)
13.5.2. Agricultural Waste
13.5.3. Others
13.6. Brazil Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Technology
13.6.1. Thermochemical
13.6.1.1. Incineration
13.6.1.2. Others
13.6.2. Biochemical
13.6.2.1. Anaerobic Digestion
13.6.2.2. Others
13.7. Brazil Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Application
13.7.1. Electricity
13.7.2. Heat
13.7.3. Others
13.8. Mexico Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Waste Type
13.8.1. Municipal Solid Waste (MSW)
13.8.2. Agricultural Waste
13.8.3. Others
13.9. Mexico Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Technology
13.9.1. Thermochemical
13.9.1.1. Incineration
13.9.1.2. Others
13.9.2. Biochemical
13.9.2.1. Anaerobic Digestion
13.9.2.2. Others
13.10. Mexico Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Application
13.10.1. Electricity
13.10.2. Heat
13.10.3. Others
13.11. Rest of Latin America Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Waste Type
13.11.1. Municipal Solid Waste (MSW)
13.11.2. Agricultural Waste
13.11.3. Others
13.12. Rest of Latin America Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Technology
13.12.1. Thermochemical
13.12.1.1. Incineration
13.12.1.2. Others
13.12.2. Biochemical
13.12.2.1. Anaerobic Digestion
13.12.2.2. Others
13.13. Rest of Latin America Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Application
13.13.1. Electricity
13.13.2. Heat
13.13.3. Other
13.14. Latin America Waste-to-energy Market Attractiveness Analysis
13.14.1. by Waste Type
13.14.2. by Technology
13.14.3. by Application

14. Middle East & Africa Waste-to-energy Market Analysis, 2017-2026
14.1. Key Findings
14.2. Middle East & Africa Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Analysis & Forecast, by Waste Type
14.2.1. Municipal Solid Waste (MSW)
14.2.2. Agricultural Waste
14.2.3. Others
14.3. Middle East & Africa Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Analysis & Forecast, by Technology
14.3.1. Thermochemical
14.3.1.1. Incineration
14.3.1.2. Others
14.3.2. Biochemical
14.3.2.1. Anaerobic Digestion
14.3.2.2. Others
14.4. Middle East & Africa Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Analysis & Forecast, by Application
14.4.1. Electricity
14.4.2. Heat
14.4.3. Others
14.5. GCC Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Waste Type
14.5.1. Municipal Solid Waste (MSW)
14.5.2. Agricultural Waste
14.5.3. Others
14.6. GCC Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Technology
14.6.1. Thermochemical
14.6.1.1. Incineration
14.6.1.2. Others
14.6.2. Biochemical
14.6.2.1. Anaerobic Digestion
14.6.2.2. Others
14.7. GCC Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Application
14.7.1. Electricity
14.7.2. Heat
14.7.3. Others
14.8. Rest of Middle East & Africa Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Waste Type
14.8.1. Municipal Solid Waste (MSW)
14.8.2. Agricultural Waste
14.8.3. Others
14.9. Rest of Middle East & Africa Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Technology
14.9.1. Thermochemical
14.9.1.1. Incineration
14.9.1.2. Others
14.9.2. Biochemical
14.9.2.1. Anaerobic Digestion
14.9.2.2. Others
14.10. Rest of Middle East & Africa Waste-to-energy Market Value (US$ Mn) & Volume (Thousand Tons) Forecast, by Application
14.10.1. Electricity
14.10.2. Heat
14.10.3. Others
14.11. Middle East & Africa Waste-to-energy Market Attractiveness Analysis
14.11.1. by Waste Type
14.11.2. by Technology
14.11.3. by Application

15. Competition Landscape
15.1. Competition Matrix
15.2. Global Waste-to-energy Market Share Analysis, by Company (2017)
15.3. Company Profiles
15.3.1. SUEZ
15.3.1.1. Company Details
15.3.1.2. Company Description
15.3.1.3. Business Overview
15.3.1.4. Financial Details
15.3.1.5. Key Developments
15.3.2. Veolia
15.3.2.1. Company Details
15.3.2.2. Company Description
15.3.2.3. Business Overview
15.3.2.4. Financial Details
15.3.2.5. Key Developments
15.3.3. Keppel Corporation Limited
15.3.3.1. Company Details
15.3.3.2. Company Description
15.3.3.3. Business Overview
15.3.3.4. Financial Details
15.3.3.5. Key Developments
15.3.4. Covanta Holding Corporation
15.3.4.1. Company Details
15.3.4.2. Company Description
15.3.4.3. Business Overview
15.3.4.4. Financial Details
15.3.4.5. Key Developments
15.3.5. Constructions industrielles de la Méditerranée (CNIM)
15.3.5.1. Company Details
15.3.5.2. Company Description
15.3.5.3. Business Overview
15.3.5.4. Financial Details
15.3.5.5. Key Developments
15.3.6. China Everbright International Limited
15.3.6.1. Company Details
15.3.6.2. Company Description
15.3.6.3. Business Overview
15.3.6.4. Financial Details
15.3.6.5. Key Developments
15.3.7. Babcock & Wilcox Enterprises, Inc.
15.3.7.1. Company Details
15.3.7.2. Company Description
15.3.7.3. Business Overview
15.3.7.4. Financial Details
15.3.7.5. Key Developments
15.3.8. STEAG GmbH
15.3.8.1. Company Details
15.3.8.2. Company Description
15.3.8.3. Business Overview
15.3.8.4. Key Developments
15.3.9. Future Biogas Limited
15.3.9.1. Company Details
15.3.9.2. Company Description
15.3.9.3. Business Overview
15.3.10. Gazasia Ltd
15.3.10.1. Company Details
15.3.10.2. Company Description
15.3.10.3. Business Overview

16. Primary Research - Key Insights
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