Product Code: A01865
According to a new report published by Allied Market Research, titled, "Waste to Energy Market," The waste to energy market size was valued at $35.6 billion in 2022, and is estimated to reach $56.0 billion by 2032, growing at a CAGR of 4.7% from 2023 to 2032.
Waste to energy (WtE) is the process of converting non-recyclable waste materials into usable forms of energy like electricity, heat, or biofuels. It involves techniques such as
1) incineration, gasification, or pyrolysis to transform waste into energy sources. This approach addresses waste management challenges by reducing landfill reliance and contributes to renewable energy generation. WtE plays an important role in sustainable resource utilization, minimizing environmental impact while harnessing the energy potential of discarded materials.
Waste to energy processes such as
1) incineration, gasification, and pyrolysis play an important role in waste diversion from landfills. By harnessing the energy potential of waste materials, these methods significantly reduce the volume of waste destined for traditional disposal sites. This diversion minimizes the environmental impact of landfills and mitigates methane emissions which is a potent greenhouse gas produced during waste decomposition.
The increase in demand for renewable energy needs to diversify energy sources and reduce reliance on finite fossil fuels. Waste to energy technologies offer a valuable solution by converting various waste materials into usable energy forms like electricity, heat, or biofuels. This conversion contributes to the renewable energy mix, providing an alternative and sustainable source of power. All these factors increase the demand for WtE solutions. However, the high cost of investment in waste to energy facilities remains a significant challenge in their widespread adoption and implementation.
The waste to energy market is segmented on the basis of technology and region. By technology, the market is divided into thermal, biochemical, and others. On the basis of region, the market is classified into North America, Europe, Asia-Pacific, and LAMEA.
Thermal technology accounted for more than four-fifths waste to energy market growth in 2022 and is expected to maintain its dominance during the forecast period. Thermal technology plays a critical role in converting solid waste into usable energy forms through high-temperature processes. These methods harness the energy content of waste materials, contributing significantly to waste management and renewable energy generation. It involves processes such as
1) incineration, gasification, and pyrolysis. Incineration is a commonly used thermal method. It involves controlled combustion of waste at high temperatures that produces heat which is used to generate steam that powers turbines, producing electricity.
On the basis of region, Europe accounted for more than two-fifths waste to energy market share in 2022 and is expected to maintain its dominance during the forecast period. The European Union's stringent waste management policies and directives such as
1) targets to reduce landfilling and promote recycling, have propelled the adoption of waste to energy technologies. These regulations encourage member states to invest in alternative waste treatment methods. As a result, Europe has seen a significant increase in waste to energy infrastructure and capacity.
Key players in the waste to energy market include Babcock & Wilcox Enterprises, Inc., China Everbright Environment Group Limited, Covanta Holding Corporation, Hitachi Zosen Inova AG, Keppel Infrastructure Group, MVV Energie AG, Suez, Veolia, Viridor Limited, and Wheelabrator Technologies Inc.
Apart from these major players, there are other key players in the waste to energy market. These include EEW Energy from Waste GmbH, Fortum Corporation, Waste Management, Inc., Ramboll Group, Acciona S.A., Advanced Plasma Power, BioHiTech Global, Inc., GFL Environmental Inc., Herz GmbH, KEPPEL SEGHERS, CNIM Group, and Plasco Energy Group Inc.
Key findings of the study
- On the basis of technology, the other segments including mechanical biological treatment (MBT), plasma gasification, and hydrothermal processing are expected to grow at a CAGR of 5.3%, in terms of revenue, during the forecast period.
- By region, Europe was the highest revenue contributor accounting for more than two-fifths waste to energy market share in 2022 representing the CAGR of 4.6% of CAGR.
- Asia-Pacific is the fastest growing region representing for 5.1% of CAGR to the market.
Key Benefits For Stakeholders
- This report provides a quantitative analysis of the market segments, current trends, estimations, and dynamics of the waste to energy market analysis from 2022 to 2032 to identify the prevailing waste to energy market opportunities.
- The market research is offered along with information related to key drivers, restraints, and opportunities.
- Porter's five forces analysis highlights the potency of buyers and suppliers to enable stakeholders make profit-oriented business decisions and strengthen their supplier-buyer network.
- In-depth analysis of the waste to energy market forecast to determine the prevailing market opportunities.
- Major countries in each region are mapped according to their revenue contribution to the global market.
- Market player positioning facilitates benchmarking and provides a clear understanding of the present position of the market players.
- The report includes the analysis of the regional as well as global waste to energy market trends, key players, market segments, application areas, and market growth strategies.
Additional benefits you will get with this purchase are:
- Quarterly Update and* (only available with a corporate license, on listed price)
- 5 additional Company Profile of client Choice pre- or Post-purchase, as a free update.
- Free Upcoming Version on the Purchase of Five and Enterprise User License.
- 16 analyst hours of support* (post-purchase, if you find additional data requirements upon review of the report, you may receive support amounting to 16 analyst hours to solve questions, and post-sale queries)
- 15% Free Customization* (in case the scope or segment of the report does not match your requirements, 15% is equivalent to 3 working days of free work, applicable once)
- Free data Pack on the Five and Enterprise User License. (Excel version of the report)
- Free Updated report if the report is 6-12 months old or older.
- 24-hour priority response*
- Free Industry updates and white papers.
Possible Customization with this report (with additional cost and timeline, please talk to the sales executive to know more)
- Manufacturing Capacity
- Capital Investment breakdown
- Investment Opportunities
- Product Benchmarking / Product specification and applications
- Upcoming/New Entrant by Regions
- Technology Trend Analysis
- Market share analysis of players by products/segments
- New Product Development/ Product Matrix of Key Players
- Patient/epidemiology data at country, region, global level
- Regulatory Guidelines
- Additional company profiles with specific to client's interest
- Additional country or region analysis- market size and forecast
- Expanded list for Company Profiles
- Historic market data
- Key player details (including location, contact details, supplier/vendor network etc. in excel format)
- SWOT Analysis
- Volume Market Size and Forecast
Key Market Segments
By Technology
- Thermal
- Type
- Incineration
- Pyrolysis
- Gasification
- Biochemical
- Others
By Region
- North America
- Europe
- Germany
- France
- UK
- Spain
- Italy
- Rest of Europe
- Asia-Pacific
- China
- India
- Japan
- South Korea
- Australia
- Rest of Asia-Pacific
- LAMEA
- Brazil
- South Africa
- Saudi Arabia
- Rest of LAMEA
Key Market Players:
- Babcock & Wilcox Enterprises, Inc.
- Covanta Holding Corporation
- Hitachi Zosen Inova AG
- Veolia
- Suez
- Keppel Infrastructure Group
- China Everbright Environment Group Limited.
- Wheelabrator Technologies Inc.
- MVV Energie AG
- Viridor Limited
TABLE OF CONTENTS
CHAPTER 1: INTRODUCTION
- 1.1. Report description
- 1.2. Key market segments
- 1.3. Key benefits to the stakeholders
- 1.4. Research methodology
- 1.4.1. Primary research
- 1.4.2. Secondary research
- 1.4.3. Analyst tools and models
CHAPTER 2: EXECUTIVE SUMMARY
CHAPTER 3: MARKET OVERVIEW
- 3.1. Market definition and scope
- 3.2. Key findings
- 3.2.1. Top impacting factors
- 3.2.2. Top investment pockets
- 3.3. Porter's five forces analysis
- 3.3.1. High bargaining power of suppliers
- 3.3.2. High threat of new entrants
- 3.3.3. Moderate threat of substitutes
- 3.3.4. Moderate intensity of rivalry
- 3.3.5. Moderate bargaining power of buyers
- 3.4. Market dynamics
- 3.4.1. Drivers
- 3.4.1.1. Surge in demand for renewable energy
- 3.4.1.2. Rise in environmental concerns and regulations
- 3.4.2. Restraints
- 3.4.2.1. High cost of investment
- 3.4.3. Opportunities
- 3.4.3.1. Rising energy demand and sustainable solutions
- 3.5. Value Chain Analysis
- 3.6. Key Regulation Analysis
- 3.7. Patent Landscape
CHAPTER 4: WASTE TO ENERGY MARKET, BY TECHNOLOGY
- 4.1. Overview
- 4.1.1. Market size and forecast
- 4.2. Thermal
- 4.2.1. Key market trends, growth factors and opportunities
- 4.2.2. Market size and forecast, by region
- 4.2.3. Market share analysis by country
- 4.2.4. Thermal Waste to Energy Market by Type
- 4.2.4.1. Incineration Market size and forecast, by region
- 4.2.4.2. Incineration Market size and forecast, by country
- 4.2.4.3. Pyrolysis Market size and forecast, by region
- 4.2.4.4. Pyrolysis Market size and forecast, by country
- 4.2.4.5. Gasification Market size and forecast, by region
- 4.2.4.6. Gasification Market size and forecast, by country
- 4.3. Biochemical
- 4.3.1. Key market trends, growth factors and opportunities
- 4.3.2. Market size and forecast, by region
- 4.3.3. Market share analysis by country
- 4.4. Others
- 4.4.1. Key market trends, growth factors and opportunities
- 4.4.2. Market size and forecast, by region
- 4.4.3. Market share analysis by country
CHAPTER 5: WASTE TO ENERGY MARKET, BY REGION
- 5.1. Overview
- 5.1.1. Market size and forecast By Region
- 5.2. North America
- 5.2.1. Key market trends, growth factors and opportunities
- 5.2.2. Market size and forecast, by Technology
- 5.2.2.1. North America Thermal Waste to Energy Market by Type
- 5.2.3. Market size and forecast, by country
- 5.2.3.1. U.S.
- 5.2.3.1.1. Market size and forecast, by Technology
- 5.2.3.1.1.1. U.S. Thermal Waste to Energy Market by Type
- 5.2.3.2. Canada
- 5.2.3.2.1. Market size and forecast, by Technology
- 5.2.3.2.1.1. Canada Thermal Waste to Energy Market by Type
- 5.2.3.3. Mexico
- 5.2.3.3.1. Market size and forecast, by Technology
- 5.2.3.3.1.1. Mexico Thermal Waste to Energy Market by Type
- 5.3. Europe
- 5.3.1. Key market trends, growth factors and opportunities
- 5.3.2. Market size and forecast, by Technology
- 5.3.2.1. Europe Thermal Waste to Energy Market by Type
- 5.3.3. Market size and forecast, by country
- 5.3.3.1. Germany
- 5.3.3.1.1. Market size and forecast, by Technology
- 5.3.3.1.1.1. Germany Thermal Waste to Energy Market by Type
- 5.3.3.2. France
- 5.3.3.2.1. Market size and forecast, by Technology
- 5.3.3.2.1.1. France Thermal Waste to Energy Market by Type
- 5.3.3.3. UK
- 5.3.3.3.1. Market size and forecast, by Technology
- 5.3.3.3.1.1. UK Thermal Waste to Energy Market by Type
- 5.3.3.4. Spain
- 5.3.3.4.1. Market size and forecast, by Technology
- 5.3.3.4.1.1. Spain Thermal Waste to Energy Market by Type
- 5.3.3.5. Italy
- 5.3.3.5.1. Market size and forecast, by Technology
- 5.3.3.5.1.1. Italy Thermal Waste to Energy Market by Type
- 5.3.3.6. Rest of Europe
- 5.3.3.6.1. Market size and forecast, by Technology
- 5.3.3.6.1.1. Rest of Europe Thermal Waste to Energy Market by Type
- 5.4. Asia-Pacific
- 5.4.1. Key market trends, growth factors and opportunities
- 5.4.2. Market size and forecast, by Technology
- 5.4.2.1. Asia-Pacific Thermal Waste to Energy Market by Type
- 5.4.3. Market size and forecast, by country
- 5.4.3.1. China
- 5.4.3.1.1. Market size and forecast, by Technology
- 5.4.3.1.1.1. China Thermal Waste to Energy Market by Type
- 5.4.3.2. India
- 5.4.3.2.1. Market size and forecast, by Technology
- 5.4.3.2.1.1. India Thermal Waste to Energy Market by Type
- 5.4.3.3. Japan
- 5.4.3.3.1. Market size and forecast, by Technology
- 5.4.3.3.1.1. Japan Thermal Waste to Energy Market by Type
- 5.4.3.4. South Korea
- 5.4.3.4.1. Market size and forecast, by Technology
- 5.4.3.4.1.1. South Korea Thermal Waste to Energy Market by Type
- 5.4.3.5. Australia
- 5.4.3.5.1. Market size and forecast, by Technology
- 5.4.3.5.1.1. Australia Thermal Waste to Energy Market by Type
- 5.4.3.6. Rest of Asia-Pacific
- 5.4.3.6.1. Market size and forecast, by Technology
- 5.4.3.6.1.1. Rest of Asia-Pacific Thermal Waste to Energy Market by Type
- 5.5. LAMEA
- 5.5.1. Key market trends, growth factors and opportunities
- 5.5.2. Market size and forecast, by Technology
- 5.5.2.1. LAMEA Thermal Waste to Energy Market by Type
- 5.5.3. Market size and forecast, by country
- 5.5.3.1. Brazil
- 5.5.3.1.1. Market size and forecast, by Technology
- 5.5.3.1.1.1. Brazil Thermal Waste to Energy Market by Type
- 5.5.3.2. South Africa
- 5.5.3.2.1. Market size and forecast, by Technology
- 5.5.3.2.1.1. South Africa Thermal Waste to Energy Market by Type
- 5.5.3.3. Saudi Arabia
- 5.5.3.3.1. Market size and forecast, by Technology
- 5.5.3.3.1.1. Saudi Arabia Thermal Waste to Energy Market by Type
- 5.5.3.4. Rest of LAMEA
- 5.5.3.4.1. Market size and forecast, by Technology
- 5.5.3.4.1.1. Rest of LAMEA Thermal Waste to Energy Market by Type
CHAPTER 6: COMPETITIVE LANDSCAPE
- 6.1. Introduction
- 6.2. Top winning strategies
- 6.3. Product mapping of top 10 player
- 6.4. Competitive dashboard
- 6.5. Competitive heatmap
- 6.6. Top player positioning, 2022
CHAPTER 7: COMPANY PROFILES
- 7.1. Babcock & Wilcox Enterprises, Inc.
- 7.1.1. Company overview
- 7.1.2. Key executives
- 7.1.3. Company snapshot
- 7.1.4. Operating business segments
- 7.1.5. Product portfolio
- 7.1.6. Business performance
- 7.1.7. Key strategic moves and developments
- 7.2. China Everbright Environment Group Limited.
- 7.2.1. Company overview
- 7.2.2. Key executives
- 7.2.3. Company snapshot
- 7.2.4. Operating business segments
- 7.2.5. Product portfolio
- 7.2.6. Business performance
- 7.3. Covanta Holding Corporation
- 7.3.1. Company overview
- 7.3.2. Key executives
- 7.3.3. Company snapshot
- 7.3.4. Operating business segments
- 7.3.5. Product portfolio
- 7.3.6. Business performance
- 7.4. Hitachi Zosen Inova AG
- 7.4.1. Company overview
- 7.4.2. Key executives
- 7.4.3. Company snapshot
- 7.4.4. Operating business segments
- 7.4.5. Product portfolio
- 7.5. Keppel Infrastructure Group
- 7.5.1. Company overview
- 7.5.2. Key executives
- 7.5.3. Company snapshot
- 7.5.4. Operating business segments
- 7.5.5. Product portfolio
- 7.5.6. Business performance
- 7.5.7. Key strategic moves and developments
- 7.6. MVV Energie AG
- 7.6.1. Company overview
- 7.6.2. Key executives
- 7.6.3. Company snapshot
- 7.6.4. Operating business segments
- 7.6.5. Product portfolio
- 7.6.6. Business performance
- 7.7. Suez
- 7.7.1. Company overview
- 7.7.2. Key executives
- 7.7.3. Company snapshot
- 7.7.4. Operating business segments
- 7.7.5. Product portfolio
- 7.7.6. Business performance
- 7.7.7. Key strategic moves and developments
- 7.8. Veolia
- 7.8.1. Company overview
- 7.8.2. Key executives
- 7.8.3. Company snapshot
- 7.8.4. Operating business segments
- 7.8.5. Product portfolio
- 7.8.6. Business performance
- 7.8.7. Key strategic moves and developments
- 7.9. Viridor Limited
- 7.9.1. Company overview
- 7.9.2. Key executives
- 7.9.3. Company snapshot
- 7.9.4. Operating business segments
- 7.9.5. Product portfolio
- 7.9.6. Key strategic moves and developments
- 7.10. Wheelabrator Technologies Inc.
- 7.10.1. Company overview
- 7.10.2. Key executives
- 7.10.3. Company snapshot
- 7.10.4. Operating business segments
- 7.10.5. Product portfolio
- 7.10.6. Key strategic moves and developments