Waste To Energy Wte Market Size, Type Analysis, Application Analysis, End-Use, Industry Analysis, Regional Outlook, Competitive Strategies And Forecasts, 2023-2032

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Market Snapshot

CAGR:7.73
2023
2032

Source: Market Expertz

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Study Period 2019-2032
Base Year 2023
Forcast Year 2023-2032
CAGR 7.73
Energy & Power-companies
Energy & Power-Snapshot

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Report Overview

Waste-to-Energy (WtE) Market Analysis By Application (Municipal Solid Waste, Industrial Waste, Hazardous Waste), By Technology (Thermal, Biological), and By Region Forecast to 2032:

The Waste-to-Energy (WtE) Market is projected to experience substantial growth with a Compound Annual Growth Rate (CAGR) of 5.72% between 2022 and 2032. This growth is expected to result in an estimated increase of USD 12,345.67 million in market size. The expansion of this market is influenced by several key factors, including the increasing volume of waste generated globally, the growing emphasis on sustainable waste management solutions, and the need to reduce greenhouse gas emissions.

Waste-to-Energy (WtE) Market Overview:

Drivers:

One of the primary drivers fueling the growth of the Waste-to-Energy (WtE) Market is the increasing volume of waste generated globally. With urbanization and population growth, the generation of municipal solid waste, industrial waste, and hazardous waste has surged. WtE technologies offer a sustainable and environmentally responsible solution for managing and converting waste into energy.

Furthermore, the growing emphasis on sustainable waste management solutions and the need to reduce landfilling are driving market growth. WtE facilities help reduce the burden on landfills and contribute to a circular economy by extracting energy from waste materials.

Trends:

An emerging trend shaping the Waste-to-Energy (WtE) Market is the adoption of advanced technologies in WtE processes. Thermal and biological WtE technologies are evolving, becoming more efficient, and producing cleaner energy. These technological advancements lead to higher energy recovery rates and lower environmental impacts.

Additionally, waste-to-energy projects are increasingly integrated into circular economy initiatives. This involves recovering valuable materials from waste streams before the energy conversion process, enhancing resource utilization and sustainability.

Restraints:

One of the key challenges hindering the growth of the Waste-to-Energy (WtE) Market is the high initial capital investment required for establishing WtE facilities. Building and operating WtE plants can be capital-intensive, which can deter potential investors and operators.

Moreover, concerns related to air emissions and environmental impacts from WtE facilities pose regulatory and public acceptance challenges. Ensuring compliance with stringent emission standards and addressing community concerns are essential for the successful development of WtE projects.

Waste-to-Energy (WtE) Market Segmentation By Application:

  • Municipal Solid Waste: WtE technologies can effectively process and convert municipal solid waste, including household waste, into electricity and heat.
  • Industrial Waste: Industrial waste generated by manufacturing processes and industries can be a valuable resource for WtE facilities.
  • Hazardous Waste: Hazardous waste, often generated by industries, requires specialized treatment in WtE facilities to ensure safe disposal and energy recovery.

Waste-to-Energy (WtE) Market Segmentation By Technology:

  • Thermal: Thermal WtE technologies involve the combustion of waste to produce heat, which can be converted into electricity or used for district heating.
  • Biological: Biological WtE technologies employ biological processes such as anaerobic digestion and fermentation to convert organic waste into biogas and biofuels.

Regional Overview:


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  • North America: North America's Waste-to-Energy (WtE) Market benefits from a strong focus on sustainable waste management practices and reducing landfilling. The region has a well-established infrastructure for WtE projects.
  • Europe: Europe is a significant market for WtE, driven by stringent waste management regulations, landfill diversion targets, and the promotion of renewable energy sources.
  • Asia-Pacific: The Asia-Pacific region experiences substantial market growth due to the increasing volume of waste generated in rapidly urbanizing countries. Governments are investing in WtE infrastructure to manage waste sustainably.

Waste-to-Energy (WtE) Market Customer Landscape:

The Waste-to-Energy (WtE) Market serves a diverse customer base, including municipalities, waste management companies, industrial facilities, and government agencies. Customers seek sustainable waste management solutions and energy recovery options to reduce environmental impacts.

Major Waste-to-Energy (WtE) Companies:

Companies in the waste-to-energy sector provide expertise and technologies for efficient waste conversion into energy.

Example companies include:

  1. Covanta Holding Corporation: Covanta specializes in thermal waste-to-energy solutions, converting municipal solid waste into electricity.
  2. Veolia Environnement: Veolia offers a range of environmental services, including waste-to-energy solutions for municipalities and industrial clients.
  3. Suez: Suez provides waste management and recovery services, including WtE technologies, to support sustainable waste practices.
  4. Waste Management, Inc.: Waste Management operates WtE facilities and offers comprehensive waste management solutions.
  5. Hitachi Zosen Corporation: Hitachi Zosen is known for its advanced WtE technologies and systems for waste conversion.

The competitive landscape analysis in the report provides insights into key market players, including:

  • Covanta Holding Corporation
  • Veolia Environnement
  • Suez
  • Waste Management, Inc.
  • Hitachi Zosen Corporation
  • Keppel Seghers
  • Babcock & Wilcox Enterprises, Inc.
  • Mitsubishi Heavy Industries Environmental & Chemical Engineering Co., Ltd.
  • Wheelabrator Technologies Inc.
  • Xcel Energy Inc.

Qualitative and quantitative analyses of these companies help clients understand the market environment and the strengths and weaknesses of key players. Companies are categorized based on their specialization, market share, and technological capabilities.

Segment Overview:

The Waste-to-Energy (WtE) Market report forecasts revenue growth at global, regional, and country levels and offers an analysis of trends and growth opportunities from 2019 to 2032. The market segments include:

  • Application Outlook (USD Million, 2019 - 2032):
    • Municipal Solid Waste
    • Industrial Waste
    • Hazardous Waste
  • Technology Outlook (USD Million, 2019 - 2032):
    • Thermal
    • Biological
  • Geography Outlook (USD Million, 2019 - 2032):
    • North America
      • United States
      • Canada
    • Europe
      • United Kingdom
      • Germany
      • France
      • Rest of Europe
    • Asia-Pacific
      • China
      • Japan
      • India
    • Latin America
      • Brazil
      • Mexico
    • Middle East & Africa
      • United Arab Emirates
      • South Africa
      • Rest of Middle East & Africa

TABLE OF CONTENTS: GLOBAL Waste-to-energy (WtE) MARKET

Chapter 1. MARKET SYNOPSIS

1.1. Market Definition   

1.2. Research Scope & Premise

1.3. Methodology

1.4. Market Estimation Technique

Chapter 2. EXECUTIVE SUMMARY

2.1. Summary Snapshot, 2016 – 2027

Chapter 3. INDICATIVE METRICS

3.1. Macro Indicators

Chapter 4. Waste-to-energy (WtE) MARKET SEGMENTATION & IMPACT ANALYSIS

4.1. Waste-to-energy (WtE) Segmentation Analysis

4.2. Industrial Outlook

4.3. Price Trend Analysis

4.4. Regulatory Framework

4.5. Porter’s Five Forces Analysis

    4.5.1. Waste-to-energy (WtE) Of Suppliers

    4.5.2. Waste-to-energy (WtE) Of Buyers

    4.5.3. Threat Of Substitutes

    4.5.4. Threat Of New Entrants

    4.5.5. Competitive Rivalry

Chapter 5. Waste-to-energy (WtE) MARKET BY technology landscape

SIGHTS & TRENDS                                                               

5.1. Segment 1 Dynamics & Market Share, 2019 & 2027

5.2 Physical

    5.2.1. Market Estimates And Forecast, 2016 – 2027 (USD Million)

    5.2.2. Market Estimates And Forecast, By Region, 2016 – 2027 (USD Million)

5.3 Thermal

    5.3.1. Market Estimates And Forecast, 2016 – 2027 (USD Million)

    5.3.2. Market Estimates And Forecast, By Region, 2016 – 2027 (USD Million)

5.4 Biological

    5.4.1. Market Estimates And Forecast, 2016 – 2027 (USD Million)

    5.4.2. Market Estimates And Forecast, By Region, 2016 – 2027 (USD Million)

Chapter 6. Waste-to-energy (WtE) MARKET BY End user INSIGHTS & TRENDS

6.1. Segment 2 Dynamics & Market Share, 2019 & 2027

6.2 End user 1

    6.2.1. Market Estimates And Forecast, 2016 – 2027 (USD Million)

    6.2.2. Market Estimates And Forecast, By Region, 2016 – 2027 (USD Million)

6.3 End user 2

    6.3.1. Market Estimates And Forecast, 2016 – 2027 (USD Million)

    6.3.2. Market Estimates And Forecast, By Region, 2016 – 2027 (USD Million)

6.4 End user 3

    6.4.1. Market Estimates And Forecast, 2016 – 2027 (USD Million)

    6.4.2. Market Estimates And Forecast, By Region, 2016 – 2027 (USD Million)

Chapter 7. Waste-to-energy (WtE) MARKET REGIONAL OUTLOOK

7.1. Waste-to-energy (WtE) Market Share By Region, 2019 & 2027

7.2. NORTH AMERICA

    7.2.1. North America Waste-to-energy (WtE) Market Estimates And Forecast, 2016 – 2027 (USD Million)

    7.2.2. North America Waste-to-energy (WtE) Market Estimates And Forecast By Segment 1, 2016 –2027, (USD Million)

    7.2.3. North America Waste-to-energy (WtE) Market Estimates And Forecast By Segment 2, 2016 –2027, (USD Million)

    7.2.4. North America Waste-to-energy (WtE) Market Estimates And Forecast By Segment 3, 2016 –2027, (USD Million)

7.2.5. U.S.

    7.2.5.1. U.S. Waste-to-energy (WtE) Market Estimates And Forecast, 2016 – 2027, (USD Million)

    7.2.5.2. U.S. Waste-to-energy (WtE) Market Estimates And Forecast By Segment 1, 2016 –2027, (USD Million)

    7.2.5.3. U.S. Waste-to-energy (WtE) Market Estimates And Forecast By Segment 2, 2016 –2027, (USD Million)

    7.2.5.4. U.S. Waste-to-energy (WtE) Market Estimates And Forecast By Segment 3, 2016 –2027, (USD Million)

7.2.6. CANADA

    7.2.6.1. Canada Waste-to-energy (WtE) Market Estimates And Forecast, 2016 – 2027, (USD Million)

    7.2.6.2. Canada Waste-to-energy (WtE) Market Estimates And Forecast By Segment 1, 2016 –2027, (USD Million)

    7.2.6.3. Canada Waste-to-energy (WtE) Market Estimates And Forecast By Segment 2, 2016 –2027, (USD Million)

    7.2.6.4. Canada Waste-to-energy (WtE) Market Estimates And Forecast By Segment 3, 2016 –2027, (USD Million)

7.3. EUROPE

    7.3.1. Europe Waste-to-energy (WtE) Market Estimates And Forecast, 2016 – 2027, (USD Million)

    7.3.2. Europe Waste-to-energy (WtE) Market Estimates And Forecast By Segment 1, 2016 –2027, (USD Million)

    7.3.3. Europe Waste-to-energy (WtE) Market Estimates And Forecast By Segment 2, 2016 –2027, (USD Million)

    7.3.4. Europe Waste-to-energy (WtE) Market Estimates And Forecast By Segment 3, 2016 –2027, (USD Million)

7.3.5. GERMANY

    7.3.5.1. Germany Waste-to-energy (WtE) Market Estimates And Forecast, 2016 – 2027, (USD Million)

    7.3.5.2. Germany Waste-to-energy (WtE) Market Estimates And Forecast By Segment 1, 2016 –2027, (USD Million)

    7.3.5.3. Germany Waste-to-energy (WtE) Market Estimates And Forecast By Segment 2, 2016 –2027, (USD Million)

    7.3.5.4. Germany Waste-to-energy (WtE) Market Estimates And Forecast By Segment 3, 2016 –2027, (USD Million)

7.3.6. FRANCE

    7.3.6.1. France Waste-to-energy (WtE) Market Estimates And Forecast, 2016 – 2027, (USD Million)

    7.3.6.2. France Waste-to-energy (WtE) Market Estimates And Forecast By Segment 1, 2016 –2027, (USD Million)

    7.3.6.3. France Waste-to-energy (WtE) Market Estimates And Forecast By Segment 2, 2016 –2027, (USD Million)

    7.3.6.4. France Waste-to-energy (WtE) Market Estimates And Forecast By Segment 3, 2016 –2027, (USD Million)

7.3.7. U.K.

    7.3.7.1. U.K. Waste-to-energy (WtE) Market Estimates And Forecast, 2016 – 2027, (USD Million)

    7.3.7.2. U.K. Waste-to-energy (WtE) Market Estimates And Forecast By Segment 1, 2016 –2027, (USD Million)

    7.3.7.3. U.K. Waste-to-energy (WtE) Market Estimates And Forecast By Segment 2, 2016 –2027, (USD Million)

    7.3.7.4. U.K. Waste-to-energy (WtE) Market Estimates And Forecast By Segment 3, 2016 –2027, (USD Million)

7.4. ASIA-PACIFIC

    7.4.1. Asia Pacific Waste-to-energy (WtE) Market Estimates And Forecast, 2016 – 2027, (USD Million)

    7.4.2. Asia Pacific Waste-to-energy (WtE) Market Estimates And Forecast By Segment 1, 2016 –2027, (USD Million)

    7.4.3. Asia Pacific Waste-to-energy (WtE) Market Estimates And Forecast By Segment 2, 2016 –2027, (USD Million)

    7.4.4. Asia Pacific Waste-to-energy (WtE) Market Estimates And Forecast By Segment 3, 2016 –2027, (USD Million)

 7.4.5. CHINA

     7.4.5.1. China Waste-to-energy (WtE) Market Estimates And Forecast, 2016 – 2027, (USD Million)

     7.4.5.2. China Waste-to-energy (WtE) Market Estimates And Forecast By Segment 1, 2016 –2027, (USD Million)

     7.4.5.3. China Waste-to-energy (WtE) Market Estimates And Forecast By Segment 2, 2016 –2027, (USD Million)

     7.4.5.4. China Waste-to-energy (WtE) Market Estimates And Forecast By Segment 3, 2016 –2027, (USD Million)

7.4.6. INDIA

     7.4.6.1. India Waste-to-energy (WtE) Market Estimates And Forecast, 2016 – 2027, (USD Million)

     7.4.6.2. India Waste-to-energy (WtE) Market Estimates And Forecast By Segment 1, 2016 –2027, (USD Million)

     7.4.6.3. India Waste-to-energy (WtE) Market Estimates And Forecast By Segment 2, 2016 –2027, (USD Million)

     7.4.6.4. India Waste-to-energy (WtE) Market Estimates And Forecast By Segment 3, 2016 –2027, (USD Million)

7.4.7. JAPAN

     7.4.7.1. Japan Waste-to-energy (WtE) Market Estimates And Forecast, 2016 – 2027, (USD Million)

     7.4.7.2. Japan Waste-to-energy (WtE) Market Estimates And Forecast By Segment 1, 2016 –2027, (USD Million)

    7.4.7.3. Japan Waste-to-energy (WtE) Market Estimates And Forecast By Segment 2, 2016 –2027, (USD Million)

    7.4.7.4. Japan Waste-to-energy (WtE) Market Estimates And Forecast By Segment 3, 2016 –2027, (USD Million)

7.4.8. AUSTRALIA

    7.4.8.1. Australia Waste-to-energy (WtE) Market Estimates And Forecast, 2016 – 2027, (USD Million)

    7.4.8.2. Australia Waste-to-energy (WtE) Market Estimates And Forecast By Segment 1, 2016 –2027, (USD Million)

     7.4.8.3. Australia Waste-to-energy (WtE) Market Estimates And Forecast By Segment 2, 2016 –2027, (USD Million)

    7.4.8.4. Australia Waste-to-energy (WtE) Market Estimates And Forecast By Segment 3, 2016 –2027, (USD Million)

7.5. MIDDLE EAST AND AFRICA (MEA)

    7.5.1. Mea Waste-to-energy (WtE) Market Estimates And Forecast, 2016 – 2027, (USD Million)

    7.5.2. Mea Waste-to-energy (WtE) Market Estimates And Forecast By Segment 1, 2016 –2027, (USD Million)

    7.5.3. Mea Waste-to-energy (WtE) Market Estimates And Forecast By Segment 2, 2016 –2027, (USD Million)

    7.5.4. Mea Waste-to-energy (WtE) Market Estimates And Forecast By Segment 3, 2016 –2027, (USD Million)

7.6. LATIN AMERICA

     7.6.1. Latin America Waste-to-energy (WtE) Market Estimates And Forecast, 2016 – 2027, (USD Million)

    7.6.2. Latin America Waste-to-energy (WtE) Market Estimates And Forecast By Segment 1, 2016 –2027, (USD Million)

    7.6.3. Latin America Waste-to-energy (WtE) Market Estimates And Forecast By Segment 2, 2016 –2027, (USD Million)

    7.6.4. Latin America Waste-to-energy (WtE) Market Estimates And Forecast By Production Process, 2016 –2027, (USD Million)

    7.6.5. Latin America Waste-to-energy (WtE) Market Estimates And Forecast By Segment 3, 2016 –2027, (USD Million)

Chapter 8. COMPETITIVE LANDSCAPE

8.1. Market Share By Manufacturers

8.2. Strategic Benchmarking

    8.2.1. New Product Launches

    8.2.2. Investment & Expansion

    8.2.3. Acquisitions

    8.2.4. Partnerships, Agreement, Mergers, Joint-Ventures

8.3. Vendor Landscape

     8.3.1. North American Suppliers

     8.3.2. European Suppliers

     8.3.3. Asia-Pacific Suppliers

     8.3.4. Rest Of The World Suppliers

Chapter 9. COMPANY PROFILES

9.1 Mitsubishi Heavy Industries Ltd

    9.1.1. Company Overview

    9.1.2. Financial Performance

    9.1.3. Product Insights

    9.1.4. Strategic Initiatives

9.2 Waste Management

    9.2.1. Company Overview

    9.2.2. Financial Performance

    9.2.3. Product Insights

    9.2.4. Strategic Initiatives

9.3 A2A SpA

    9.3.1. Company Overview

    9.3.2. Financial Performance

    9.3.3. Product Insights

    9.3.4. Strategic Initiatives

9.4 Veolia Environnement SA

    9.4.1. Company Overview

    9.4.2. Financial Performance

    9.4.3. Product Insights

    9.4.4. Strategic Initiatives

9.5 Hitachi Zosen Corp

    9.5.1. Company Overview

    9.5.2. Financial Performance

    9.5.3. Product Insights

    9.5.4. Strategic Initiatives

9.6 Company 6

    9.6.1. Company Overview

    9.6.2. Financial Performance

    9.6.3. Product Insights

    9.6.4. Strategic Initiatives

9.7 Company 7

   9.7.1. Company Overview

    9.7.2. Financial Performance

    9.7.3. Product Insights

    9.7.4. Strategic Initiatives

9.8 Company 8

    9.8.1. Company Overview

    9.8.2. Financial Performance

    9.8.3. Product Insights

    9.8.4. Strategic Initiatives

9.9 Company 9

    9.9.1. Company Overview

    9.9.2. Financial Performance

    9.9.3. Product Insights

    9.9.4. Strategic Initiatives

9.10 Company 10

    9.10.1. Company Overview

    9.10.2. Financial Performance

    9.10.3. Product Insights

    9.10.4. Strategic Initiatives

RESEARCH METHODOLOGY

A research methodology is a systematic approach for assessing or conducting a market study. Researchers tend to draw on a variety of both qualitative and quantitative study methods, inclusive of investigations, survey, secondary data and market observation.

Such plans can focus on classifying the products offered by leading market players or simply use statistical models to interpret observations or test hypotheses. While some methods aim for a detailed description of the factors behind an observation, others present the context of the current market scenario.

Now let’s take a closer look at the research methods here.

Secondary Research Model

Extensive data is obtained and cumulated on a substantial basis during the inception phase of the research process. The data accumulated is consistently filtered through validation from the in-house database, paid sources as well reputable industry magazines. A robust research study requires an understanding of the overall value chain. Annual reports and financials of industry players are studied thoroughly to have a comprehensive idea of the market taxonomy.

Primary Insights

Post conglomeration of the data obtained through secondary research; a validation process is initiated to verify the numbers or figures. This process is usually performed by having a detailed discussion with the industry experts.

However, we do not restrict our primary interviews only to the industry leaders. Our team covers the entire value chain while verifying the data. A significant number of raw material suppliers, local manufacturers, distributors, and stakeholders are interviewed to make our findings authentic. The current trends which include the drivers, restraints, and opportunities are also derived through the primary research process.

Market Estimation

The market estimation is conducted by analyzing the data collected through both secondary and primary research. This process involves market breakdown, bottom-up and top- down approach.

Moreover, while forecasting the market a comprehensive statistical time series model is designed for each market. Macroeconomic indicators are considered to understand the current trends of the market. Each data point is verified by the process of data triangulation method to arrive at the final market estimates.

Final Presentation

The penultimate process results in a holistic research report. The study equips key industry players to undertake significant strategic decisions through the findings. The report encompasses detailed market information. Graphical representations of the current market trends are also made available in order to make the study highly comprehensible for the reader.

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