Waste to Energy Market Research Report by Type of Waste (Paper, Wood, Food waste, Plastics, Metals, Others), by Technology (Incineration, Gasification, Pyrolysis), by Application (Electricity Generation, Heat Generation, Transport Fuels, Others), and by R

Published Oct 19, 2025

Length 186 Pages

SKU # RESFT20610945

Description

By 2035, the global waste-to-energy market is expected to hit USD 95,196.8 million, advancing at a 7.2% CAGR by the end of 2035. WTE converts residual waste into valuable energy outputs through methods such as incineration, gasification, and anaerobic digestion. The process helps to minimize the use of landfills while also contributing to the production of cleaner energy and lessening the environmental impact.

Increasing Focus on Climate Goals and Circular Economy
Governments and city authorities are using WTE in order to reduce methane emissions from landfills and contribute to the production of renewable energy. WTE, by the use of waste that is left over, to produce electricity or heat, is in line with circular economy strategies on a larger scale. Therefore, it is a very important market driver in the transition of cities to sustainable, low-carbon living.

Segment-Wise Overview of Key Waste-to-Energy Categories
Type of Waste
• Paper: Consistent feedstock enabling smooth combustion.
• Wood: Natural biomass providing strong heat value.
• Food Waste: Degradable waste optimized for digesters.
• Plastics: High-energy polymers maximizing energy conversion.
• Metals: Inert materials diverted for recycling.
• Others: Additional waste types expanding processing scope.
Technology
• Incineration: High-temperature burning yielding energy.
• Gasification: Partial oxidation creating synthetic gases.
• Pyrolysis: Controlled heating produces oil and gas.
Application
• Electricity Generation: Converts thermal energy to electricity.
• Heat Generation: Generates heat for urban networks.
• Transport Fuels: Produces renewable fuels from waste.
• Others: Enables auxiliary waste-to-energy functions.

Regional Perspectives
The Asia-Pacific region has the biggest share of the global WTE market, which is powered by population growth and strong policy support. Europe is still a major contributor through advanced technologies and less reliance on landfills. At the same time, North America, South America, and MEA are showing potential for growth as they are making a transition to sustainable waste and energy management.

Strategic Edge Through Rising Sustainability Pressures
The global WTE market is picking up speed as cities are dealing with increasing waste volumes and demanding cleaner, non-fossil energy sources. WTE, which is the process of turning waste into energy that can be used, thus offers the double benefit of a tool to achieve clean energy goals and, at the same time, reduce the burden on landfills. Such a strategic positioning makes it increasingly valuable for countries that are prioritizing the sustainable development of cities.

Key Report Attributes
• Market Size 2024: USD 44,535.1 Million
• Market Size 2035: USD 95,196.8 Million
• CAGR (2025-2035): 7.2%
• Base Year: 2024
• Market Forecast Period: 2025-2035

Market Segmentation Growth
• By Type of Waste: Paper - 7.7%, Wood - 5.3%.
• By Technology: Incineration - 7.5%, Gasification - 6.9%.
• By Application: Electricity Generation - 7.3%, Heat Generation - 7.7%.

1 Executive Summary
2 Market Introduction: 2.1 Definition; 2.2 Scope Of The Study; 2.3 Research Objective; 2.4 Market Structure
3 Research Methodology: 3.1 Overview; 3.2 Data Flow; 3.2.1 Data Mining Process; 3.3 Purchased Database:; 3.4 Secondary Sources:; 3.4.1 Secondary Research Data Flow:; 3.5 Primary Research:; 3.5.1 Primary Research Data Flow:; 3.5.2 Primary Research: Number Of Interviews Conducted; 3.5.3 Primary Research: Regional Coverage; 3.6 Approaches For Market Size Estimation:; 3.6.1 Trade Analysis Approach; 3.7 Data Forecasting; 3.7.1 Data Forecasting Technique; 3.8 Data Modeling; 3.8.1 Microeconomic Factor Analysis:; 3.8.2 Data Modeling:; 3.9 Teams And Analyst Contribution
4 Market Dynamics: 4.1 Introduction; 4.2 Drivers; 4.2.1 Increasing Waste Pileup; 4.2.2 Growing Concern For Waste Management To Meet The Needs For Sustainable Urban Living; 4.2.3 Increasing Focus On Non-fossil Fuel Sources Of Energy; 4.2.4 Increase In Production Of Clean Energy From Waste Drives Market Growth; 4.3 Restraint; 4.3.1 Varying Composition Of Waste Streams; 4.3.2 High Cost Associated With Waste To Energy; 4.4 Opportunity; 4.4.1 Digitalization In Waste Management Techniques To Spur Market; 4.4.2 Rising Energy Demand; 4.5 Impact Analysis Of Covid-19; 4.5.1 Impact On Supply Chain Of Waste-to-energy; 4.5.2 Impact On Market Demand For Waste-to-energy
5 Market Factor Analysis: 5.1 Supply/Value Chain Analysis; 5.1.1 Waste Collection & Sorting; 5.1.2 Waste Processing And Pre-treatment; 5.1.3 Energy Conversion; 5.1.4 Energy Distribution & Storage; 5.1.5 End-users; 5.2 Porter’s Five Forces Model; 5.2.1 Threat Of New Entrants; 5.2.2 Bargaining Power Of Suppliers; 5.2.3 Threat Of Substitutes; 5.2.4 Bargaining Power Of Buyers; 5.2.5 Intensity Of Rivalry; 5.3 Technological Advancements; 5.3.1 Emerging Technologies For Waste To Energy; 5.3.2 Current Utility Scale Plants; 5.3.3 Government Initiatives For Renewable Energy From Waste; 5.3.4 New Developments In Sustainable Waste-to-energy Systems; 5.4 R&D Update; 5.4.1 Current Scenario; 5.4.2 Future Roadmap; 5.4.3 Novel Applications; 5.4.4 Key Developments; 5.5 Regulatory Framework; 5.5.1 Government Policies; 5.5.1.1 Local Regulations; 5.5.1.2 State Regulations; 5.5.1.3 Federal Regulations; 5.5.2 Environmental Regulations; 5.5.3 Regulations And Compliance In Waste Management; 5.5.4 Patent Analysis
6 Global Waste To Energy Market, By Type Of Waste: 6.1 Overview; 6.2 Paper; 6.3 Wood; 6.4 Food Waste; 6.5 Plastics; 6.6 Metals; 6.7 Others
7 Global Waste To Energy Market, By Technology: 7.1 Overview; 7.2 Incineration; 7.3 Gasification; 7.4 Pyrolysis
8 Global Waste To Energy Market, By Application: 8.1 Overview; 8.2 Electricity Generation; 8.3 Heat Generation; 8.4 Transport Fuels; 8.5 Others
9 Global Waste To Energy Market, By Region: 9.1 Introduction; 9.2 Regional Analysis By Country; 9.2.1 North America; 9.2.1.1 Us; 9.2.1.2 Canada; 9.2.1.3 Mexico; 9.2.2 Europe; 9.2.2.1 Germany; 9.2.2.2 Italy; 9.2.2.3 France; 9.2.2.4 Uk; 9.2.2.5 Spain; 9.2.2.6 Russia; 9.2.2.7 Rest Of Europe; 9.2.3 Asia Pacific; 9.2.3.1 China; 9.2.3.2 India; 9.2.3.3 Japan; 9.2.3.4 South Korea; 9.2.3.5 Rest Of Apac; 9.2.4 South America; 9.2.4.1 Brazil; 9.2.4.2 Argentina; 9.2.4.3 Rest Of South America; 9.2.5 Middle East & Africa; 9.2.5.1 Gcc Countries; 9.2.5.2 South Africa; 9.2.5.3 Rest Of Middle East & Africa
10 Competitive Landscape: 10.1 Introduction; 10.2 Competition Dashboard; 10.3 Competitive Benchmarking; 10.4 Market Share Analysis, 2024; 10.5 Leading Player In Terms Of Number Of Developments In The Global Waste-to-energy Market; 10.6 Comparative Analysis: Key Players Financial; 10.7 Key Developments & Growth Strategies; 10.7.1 Business Investment, Agreement, Partnership & Expansion; 10.7.2 Acquisition
11 Company Profiles: 11.1 Arrow Ecology; 11.1.1 Company Overview; 11.1.2 Financial Overview; 11.1.3 Products Offered; 11.1.4 Key Developments; 11.1.5 Swot Analysis; 11.1.6 Key Strategy; 11.2 Axpo Holding Ag; 11.2.1 Company Overview; 11.2.2 Financial Overview; 11.2.3 Products Offered; 11.2.4 Key Developments; 11.2.5 Swot Analysis; 11.2.6 Key Strategy; 11.3 Biogen; 11.3.1 Company Overview; 11.3.2 Financial Overview; 11.3.3 Products Offered; 11.3.4 Key Developments; 11.3.5 Swot Analysis; 11.3.6 Key Strategy; 11.4 Bluefire Renewables; 11.4.1 Company Overview; 11.4.2 Financial Overview; 11.4.3 Products Offered; 11.4.4 Key Developments; 11.4.5 Swot Analysis; 11.4.6 Key Strategy; 11.5 Bta International Gmbh; 11.5.1 Company Overview; 11.5.2 Financial Overview; 11.5.3 Products Offered; 11.5.4 Key Developments; 11.5.5 Swot Analysis; 11.5.6 Key Strategy; 11.6 Ramboll; 11.6.1 Company Overview; 11.6.2 Financial Overview; 11.6.3 Products Offered; 11.6.4 Key Developments; 11.6.5 Swot Analysis; 11.6.6 Key Strategy; 11.7 Emery Energy Company; 11.7.1 Company Overview; 11.7.2 Financial Overview; 11.7.3 Products Offered; 11.7.4 Key Developments; 11.7.5 Swot Analysis; 11.7.6 Key Strategy; 11.8 Geocycle; 11.8.1 Company Overview; 11.8.2 Financial Overview; 11.8.3 Products Offered; 11.8.4 Key Developments; 11.8.5 Swot Analysis; 11.8.6 Key Strategy; 11.9 Viridor; 11.9.1 Company Overview; 11.9.2 Financial Overview; 11.9.3 Products Offered; 11.9.4 Key Developments; 11.9.5 Swot Analysis; 11.9.6 Key Strategy; 11.10 Vls Environmental Solutions; 11.10.1 Company Overview; 11.10.2 Financial Overview; 11.10.3 Products Offered; 11.10.4 Key Developments; 11.10.5 Swot Analysis; 11.10.6 Key Strategy; 11.11 Kanadevia Inova; 11.11.1 Company Overview; 11.11.2 Financial Overview; 11.11.3 Products Offered; 11.11.4 Key Developments; 11.11.5 Swot Analysis; 11.11.6 Key Strategy; 11.12 Reworld; 11.12.1 Company Overview; 11.12.2 Financial Overview; 11.12.3 Products Offered; 11.12.4 Key Developments; 11.12.5 Swot Analysis; 11.12.6 Key Strategy; 11.13 Enercon; 11.13.1 Company Overview; 11.13.2 Financial Overview; 11.13.3 Products Offered; 11.13.4 Key Developments; 11.13.5 Swot Analysis; 11.13.6 Key Strategy; 11.14 Babcock & Wilcox; 11.14.1 Company Overview; 11.14.2 Financial Overview; 11.14.3 Products Offered; 11.14.4 Key Developments; 11.14.5 Swot Analysis; 11.14.6 Key Strategy; 11.15 Veolia; 11.15.1 Company Overview; 11.15.2 Financial Overview; 11.15.3 Products Offered; 11.15.4 Key Developments; 11.15.5 Swot Analysis; 11.15.6 Key Strategy; 11.16 Data Citations
List Of Tables: Table 1 Qfd Modeling For Market Share Assessment; Table 2 Global Waste To Energy Market, Estimates & Forecast By Type Of Waste, 2019–2035 (Usd Million); Table 3 Global Waste To Energy Market Estimates & Forecast, By Application, 2019–2035 (Usd Million); Table 4 Waste To Energy Market Estimates & Forecast, By Application, 2019–2035 (Usd Million); Table 5 Waste To Energy Market Estimates & Forecast, By Region, 2019–2035 (Usd Million); Table 6 North America Waste To Energy Estimates & Forecast, By Country, 2019–2035 (Usd Million); Table 7 North America Waste To Energy Estimates & Forecast, By Type Of Waste, 2019–2035 (Usd Million); Table 8 North America Waste To Energy Estimates & Forecast, By Technology, 2019–2035 (Usd Million); Table 9 North America Waste To Energy Estimates & Forecast, By Application, 2019–2035 (Usd Million); Table 10 Us Waste To Energy Estimates & Forecast, By Type Of Waste, 2019–2035 (Usd Million); Table 11 Us Waste To Energy Estimates & Forecast, By Technology, 2019–2035 (Usd Million); Table 12 Us Waste To Energy Estimates & Forecast, By Application, 2019–2035 (Usd Million); Table 13 Canada Waste To Energy Estimates & Forecast, By Type Of Waste, 2019–2035 (Usd Million); Table 14 Canada Waste To Energy Estimates & Forecast, By Technology, 2019–2035 (Usd Million); Table 15 Canada Waste To Energy Estimates & Forecast, By Application, 2019–2035 (Usd Million); Table 16 Mexico Waste To Energy Estimates & Forecast, By Type Of Waste, 2019–2035 (Usd Million); Table 17 Mexico Waste To Energy Estimates & Forecast, By Technology, 2019–2035 (Usd Million); Table 18 Mexico Waste To Energy Estimates & Forecast, By Application, 2019–2035 (Usd Million); Table 19 Europe Waste To Energy Estimates & Forecast, By Country, 2019–2035 (Usd Million); Table 20 Europe Waste To Energy Estimates & Forecast, By Type Of Waste, 2019–2035 (Usd Million); Table 21 Europe Waste To Energy Estimates & Forecast, By Technology, 2019–2035 (Usd Million); Table 22 Europe Waste To Energy Estimates & Forecast, By Application, 2019–2035 (Usd Million); Table 23 Germany Waste To Energy Estimates & Forecast, By Type Of Waste, 2019–2035 (Usd Million); Table 24 Germany Waste To Energy Estimates & Forecast, By Technology, 2019–2035 (Usd Million); Table 25 Germany Waste To Energy Estimates & Forecast, By Application, 2019–2035 (Usd Million); Table 26 Italy Waste To Energy Estimates & Forecast, By Type Of Waste, 2019–2035 (Usd Million); Table 27 Italy Waste To Energy Estimates & Forecast, By Technology, 2019–2035 (Usd Million); Table 28 Italy Waste To Energy Estimates & Forecast, By Application, 2019–2035 (Usd Million); Table 29 France Waste To Energy Estimates & Forecast, By Type Of Waste, 2019–2035 (Usd Million); Table 30 France Waste To Energy Estimates & Forecast, By Technology, 2019–2035 (Usd Million); Table 31 France Waste To Energy Estimates & Forecast, By Application, 2019–2035 (Usd Million); Table 32 Uk Waste To Energy Estimates & Forecast, By Type Of Waste, 2019–2035 (Usd Million); Table 33 Uk Waste To Energy Estimates & Forecast, By Technology, 2019–2035 (Usd Million); Table 34 Uk Waste To Energy Estimates & Forecast, By Application, 2019–2035 (Usd Million); Table 35 Spain Waste To Energy Estimates & Forecast, By Type Of Waste, 2019–2035 (Usd Million); Table 36 Spain Waste To Energy Estimates & Forecast, By Technology, 2019–2035 (Usd Million); Table 37 Spain Waste To Energy Estimates & Forecast, By Application, 2019–2035 (Usd Million); Table 38 Russia Waste To Energy Estimates & Forecast, By Type Of Waste, 2019–2035 (Usd Million); Table 39 Russia Waste To Energy Estimates & Forecast, By Technology, 2019–2035 (Usd Million); Table 40 Russia Waste To Energy Estimates & Forecast, By Application, 2019–2035 (Usd Million); Table 41 Rest Of Europe Waste To Energy Estimates & Forecast, By Type Of Waste, 2019–2035 (Usd Million); Table 42 Rest Of Europe Waste To Energy Estimates & Forecast, By Technology, 2019–2035 (Usd Million); Table 43 Rest Of Europe Waste To Energy Estimates & Forecast, By Application, 2019–2035 (Usd Million); Table 44 Asia Pacific Waste To Energy Estimates & Forecast, By Country, 2019–2035 (Usd Million); Table 45 Asia Pacific Waste To Energy Estimates & Forecast, By Type Of Waste, 2019–2035 (Usd Million); Table 46 Asia Pacific Waste To Energy Estimates & Forecast, By Technology, 2019–2035 (Usd Million); Table 47 Asia Pacific Waste To Energy Estimates & Forecast, By Application, 2019–2035 (Usd Million); Table 48 China Waste To Energy Estimates & Forecast, By Type Of Waste, 2019–2035 (Usd Million); Table 49 China Waste To Energy Estimates & Forecast, By Technology, 2019–2035 (Usd Million); Table 50 China Waste To Energy Estimates & Forecast, By Application, 2019–2035 (Usd Million); Table 51 India Waste To Energy Estimates & Forecast, By Type Of Waste, 2019–2035 (Usd Million); Table 52 India Waste To Energy Estimates & Forecast, By Technology, 2019–2035 (Usd Million); Table 53 India Waste To Energy Estimates & Forecast, By Application, 2019–2035 (Usd Million); Table 54 Japan Waste To Energy Estimates & Forecast, By Type Of Waste, 2019–2035 (Usd Million); Table 55 Japan Waste To Energy Estimates & Forecast, By Technology, 2019–2035 (Usd Million); Table 56 Japan Waste To Energy Estimates & Forecast, By Application, 2019–2035 (Usd Million); Table 57 South Korea Waste To Energy Estimates & Forecast, By Type Of Waste, 2019–2035 (Usd Million); Table 58 South Korea Waste To Energy Estimates & Forecast, By Technology, 2019–2035 (Usd Million); Table 59 South Korea Waste To Energy Estimates & Forecast, By Application, 2019–2035 (Usd Million); Table 60 Rest Of Apac Waste To Energy Estimates & Forecast, By Type Of Waste, 2019–2035 (Usd Million); Table 61 Rest Of Apac Waste To Energy Estimates & Forecast, By Technology, 2019–2035 (Usd Million); Table 62 Rest Of Apac Waste To Energy Estimates & Forecast, By Application, 2019–2035 (Usd Million); Table 63 South America Waste To Energy Estimates & Forecast, By Country, 2019–2035 (Usd Million); Table 64 South America Waste To Energy Estimates & Forecast, By Type Of Waste, 2019–2035 (Usd Million); Table 65 South America Waste To Energy Estimates & Forecast, By Technology, 2019–2035 (Usd Million); Table 66 South America Waste To Energy Estimates & Forecast, By Application, 2019–2035 (Usd Million); Table 67 Brazil Waste To Energy Estimates & Forecast, By Type Of Waste, 2019–2035 (Usd Million); Table 68 Brazil Waste To Energy Estimates & Forecast, By Technology, 2019–2035 (Usd Million); Table 69 Brazil Waste To Energy Estimates & Forecast, By Application, 2019–2035 (Usd Million); Table 70 Argentina Waste To Energy Estimates & Forecast, By Type Of Waste, 2019–2035 (Usd Million); Table 71 Argentina Waste To Energy Estimates & Forecast, By Technology, 2019–2035 (Usd Million); Table 72 Argentina Waste To Energy Estimates & Forecast, By Application, 2019–2035 (Usd Million); Table 73 Rest Of South America Waste To Energy Estimates & Forecast, By Type Of Waste, 2019–2035 (Usd Million); Table 74 Rest Of South America Waste To Energy Estimates & Forecast, By Technology, 2019–2035 (Usd Million); Table 75 Rest Of South America Waste To Energy Estimates & Forecast, By Application, 2019–2035 (Usd Million); Table 76 Middle East & Africa Waste To Energy Estimates & Forecast, By Country, 2019–2035 (Usd Million); Table 77 Middle East & Africa Waste To Energy Estimates & Forecast, By Type Of Waste, 2019–2035 (Usd Million); Table 78 Middle East & Africa Waste To Energy Estimates & Forecast, By Technology, 2019–2035 (Usd Million); Table 79 Middle East & Africa Waste To Energy Estimates & Forecast, By Application, 2019–2035 (Usd Million); Table 80 Gcc Countries Waste To Energy Estimates & Forecast, By Type Of Waste, 2019–2035 (Usd Million); Table 81 Gcc Countries Waste To Energy Estimates & Forecast, By Technology, 2019–2035 (Usd Million); Table 82 Gcc Countries Waste To Energy Estimates & Forecast, By Application, 2019–2035 (Usd Million); Table 83 South Africa Waste To Energy Estimates & Forecast, By Type Of Waste, 2019–2035 (Usd Million); Table 84 South Africa Waste To Energy Estimates & Forecast, By Technology, 2019–2035 (Usd Million); Table 85 South Africa Waste To Energy Estimates & Forecast, By Application, 2019–2035 (Usd Million); Table 86 Rest Of Middle East & Africa Waste To Energy Estimates & Forecast, By Type Of Waste, 2019–2035 (Usd Million); Table 87 Rest Of Middle East & Africa Waste To Energy Estimates & Forecast, By Technology, 2019–2035 (Usd Million); Table 88 Rest Of Middle East & Africa Waste To Energy Estimates & Forecast, By Application, 2019–2035 (Usd Million); Table 89 Competition Dashboard: Global Waste-to-energy Market; Table 90 Comparative Analysis: Key Players Financial; Table 91 Business Investment, Agreement, Partnership & Expansion; Table 92 Acquisition; Table 93 Arrow Ecology: Products Offered; Table 94 Axpo Holding Ag: Products Offered; Table 95 Axpo Holding Ag: Key Developments; Table 96 Biogen: Products Offered; Table 97 Bluefire Renewables: Products Offered; Table 98 Bta International Gmbh: Products Offered; Table 99 Ramboll: Products Offered; Table 100 Ramboll: Key Developments; Table 101 Emery Energy Company: Products Offered; Table 102 Geocycle (Parent: Holcim Group): Financial Overview; Table 103 Geocycle: Products Offered; Table 104 Geocycle: Key Developments; Table 105 Viridor: Products Offered; Table 106 Viridor: Key Developments; Table 107 Vls Environmental Solutions: Products Offered; Table 108 Vls Environmental Solutions: Key Developments; Table 109 Kanadevia Inova: Products Offered; Table 110 Kanadevia Inova: Key Developments; Table 111 Reworld: Products Offered; Table 112 Reworld: Key Developments; Table 113 Enercon: Products Offered; Table 114 Babcock & Wilcox: Products Offered; Table 115 Babcock & Wilcox: Key Developments; Table 116 Veolia: Products Offered; Table 117 Veolia: Key Developments
List Of Figures: Figure 1 Global Waste To Energy Market (By Region), 2024; Figure 2 Global Waste To Energy Market Snapshot, 2024; Figure 3 Global Waste To Energy Market: Structure; Figure 4 Global Waste To Energy Market: Market Growth Factor Analysis (2019-2035); Figure 5 United States: Population Growth From 2018 To 2023 (Compared To The Previous Year); Figure 6 Driver Impact Analysis (2025-2035); Figure 7 Challenge Impact Analysis (2025-2035); Figure 8 Degree Of Urbanization In China In Selected Years From 2018 To 2024; Figure 9 Supply Chain: Global Waste To Energy Market; Figure 10 Porter's Five Forces Analysis Of The Waste To Energy Market; Figure 11 Granted Patent Analysis Of Global Waste To Energy Market; Figure 12 Global Waste To Energy Market Estimates & Forecast, By Type Of Waste, 2024 (% Share); Figure 13 Global Waste To Energy Market, By Technology, 2024 (% Share); Figure 14 Waste To Energy Market Estimates & Forecast, By Application, 2024 (% Share); Figure 15 Competitive Benchmarking: Global Waste-to-energy Market; Figure 16 Major Players Market Share Analysis, 2024 (%); Figure 17 Leading Player In Terms Of Number Of Developments In The Global Waste-to-energy Market; Figure 18 Arrow Ecology: Swot Analysis; Figure 19 Axpo Holding Ag: Financial Overview Snapshot; Figure 20 Axpo Holding Ag: Swot Analysis; Figure 21 Biogen: Swot Analysis; Figure 22 Bluefire Renewables: Swot Analysis; Figure 23 Bta International Gmbh: Swot Analysis; Figure 24 Ramboll: Financial Overview Snapshot; Figure 25 Ramboll: Swot Analysis; Figure 26 Emery Energy Company: Swot Analysis; Figure 27 Geocycle: Swot Analysis; Figure 28 Viridor: Analysis; Figure 29 Vls Environmental Solutions: Swot Analysis; Figure 30 Kanadevia Inova (Parent Company: Kanadevia): Financial Overview Snapshot; Figure 31 Kanadevia Inova: Swot Analysis; Figure 32 Reworld: Swot Analysis; Figure 33 Enercon: Swot Analysis; Figure 34 Babcock & Wilcox: Financial Overview Snapshot; Figure 35 Babcock & Wilcox: Swot Analysis; Figure 36 Veolia: Financial Overview Snapshot; Figure 37 Veolia: Swot Analysis

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