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市場調查報告書

廢棄物能源回收 (WTE:Waste-to-Energy)的全球市場 2017-2027年的預測:發電、區域供熱、熱電聯產、垃圾焚燒發電的一般廢棄物及廢棄物固態燃料的焚燒設備容量、CAPEX的預測

Waste to Energy (WtE) Market Outlook 2017-2027: Capacity & CAPEX Forecasts for Incineration of Municipal Solid Waste & Refuse-Derived Fuel in Electricity Generation, District Heating & Combined Heat and Power, Energy from Waste Plants

出版商 Visiongain Ltd 商品編碼 263416
出版日期 內容資訊 英文 340 Pages
商品交期: 最快1-2個工作天內
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廢棄物能源回收 (WTE:Waste-to-Energy)的全球市場 2017-2027年的預測:發電、區域供熱、熱電聯產、垃圾焚燒發電的一般廢棄物及廢棄物固態燃料的焚燒設備容量、CAPEX的預測 Waste to Energy (WtE) Market Outlook 2017-2027: Capacity & CAPEX Forecasts for Incineration of Municipal Solid Waste & Refuse-Derived Fuel in Electricity Generation, District Heating & Combined Heat and Power, Energy from Waste Plants
出版日期: 2017年08月17日 內容資訊: 英文 340 Pages
簡介

2017年的全球廢棄物能源回收 (WTE:Waste-to-Energy)的市場規模預計CAPEX記錄129億1,400萬美元的規模。

本報告提供全球廢棄物能源回收 (WTE:Waste-to-Energy)的市場調查,WTE定義,技術,發展的過程,全球及各地區、主要國家的主要趨勢,市場規模的變化與預測,市場影響因素,主要計劃,全球市場的市場佔有率與主要企業簡介,建議等彙整資料。

第1章 報告概要

第2章 簡介:WTE市場

  • CO2 EOR產業的簡歷
  • 原油價格的重要性
  • CO2 EOR經營相關主要成本
  • 混合、非混合性EOR法
  • CO2來源
  • 利用CO2 EOR的優點及缺點
  • 跟競爭技術的競爭
  • 海上CO2 EOR的預測
  • CO2 EOR生產相關環境問題

第3章 廢棄物能源回收 (WTE)的全球市場預測

  • 全球市場概要
  • 主要國家市場預測
  • 成長推動因素、阻礙要素

第4章 主要國家市場預測

  • 英國
    • 現狀
    • 成長推動因素、阻礙要素
    • 主要計劃等
  • 波蘭
  • 愛爾蘭
  • 丹麥
  • 芬蘭
  • 義大利
  • 瑞典
  • 捷克
  • 其他歐洲各國
  • 中國
  • 日本
  • 其他的亞太地區各國
  • 美國
  • 加拿大
  • 其他北美各國
  • 其他地區市場
    • WTE計劃
    • 市場分析
    • 中東的潛在性

第5章 PESTL分析

第6章 專家的見解

  • 主要關係處
  • WTE市場展望
  • 成長推動因素、阻礙要素
  • WTE市場優勢地區
  • 全球整體的市場成長率

第7章 廢棄物能源回收 (WTE)的設備容量及企業的市場佔有率分析

第8章 主要企業

  • China Everbright International Limited
  • Covanta Energy Corporation
  • Babcock & Wilcox Volund A/S
  • Viridor
  • Sembcorp
  • Suez Environnement (SITA)
  • Hunan Yonker Environmental Protection Co. Ltd
  • Abu Dahbi National Energy Company PJSC (TAQA)
  • New Energy Corporation
  • CISC
  • 其他

第9章 總論、建議

  • 主要調查結果
  • 建議

第10章 用語

圖表

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目錄
Product Code: ENE0102

Title:
WASTE TO ENERGY (WTE) MARKET OUTLOOK 2017-2027
Capacity (tpa) & CAPEX ($m) Forecasts for Incineration of Municipal Solid Waste (MSW) & Refuse-Derived Fuel (RDF) in Electricity Generation, District Heating & Combined Heat and Power (CHP), Energy from Waste (EfW) Plants; Featuring Technologies: Mass Burn, Gasification, Pyrolysis, Fluidised Bed, Advanced Thermal Treatment (ATT), & Advanced Conversion Technology (ACT).

Visiongain assesses that the global waste-to-energy market will experience Capex of $12,914m in 2017. Read on to discover the potential business opportunities available.

The interest in WtE is growing as an option for sustainable waste management practices. Population and waste growth will be major drivers for the development of WtE technology, especially in developing countries. During the last several years, increased waste generation and narrowed prospects for landfill have brought strong growth prospects for the WtE industry. Not only is the world population growing, but it is also becoming increasingly urbanised. This leads to greater levels of waste being generated globally, in more concentrated levels and in close proximity to large urban areas. These issues are focusing more attention on waste management frameworks, with increased interest in alternatives to landfill. As a result, municipalities worldwide are considering the functionality of WtE plants to help deal with mounting waste being generated. Today, waste-to-energy projects based on combustion technologies are highly efficient power plants that utilise solid waste as their fuel as opposed to oil, coal or natural gas. Far better than burning up energy to search, recover, process and convey the fuel from some distant source, waste-to-energy technology finds worth in what others consider garbage.

With reference to this report, waste-to-energy (WtE) facilities are considered as plants using municipal solid waste (MSW) as a primary fuel source for energy production. This includes direct combustion and advanced thermal, but not biological processes. The report covers the CAPEX spending of new and upgraded WtE plants globally. The report also forecasts MSW-processing capacity for global, regional and national markets from 2017-2027.

The report will answer questions such as:

  • What are the prospects for the overall waste-to-energy industry?
  • Where are the major investments occurring?
  • Who are the key players in the waste-to-energy industry?
  • What are the market dynamics underpinning the sector?
  • How consolidated is the sector amongst the large industry players?

Five Reasons Why You Must Order and Read This Report Today:

1) The report provides market share and detailed profiles of the leading companies operating within the waste-to-energy market:

  • Babcock & Wilcox Vφlund A/S
  • China Everbright International Limited
  • CISC
  • Covanta Energy Corporation
  • Hitachi Zosen Inova AG
  • Hunan Yonker Environmental Protection Co. Ltd
  • Keppel Seghers
  • Mitsubishi Heavy Industries Environmental & Chemical Engineering Co. Ltd. (MHIEC)
  • New Energy Corporation
  • Sembcorp
  • Suez Environnement (SITA)
  • Viridor

2) The study reveals where companies are investing in waste-to-energy and how much waste-processing capacity from WtE is expected. Analysis of three regional markets, 12 national markets plus analysis of 20 other countries:

  • The UK Waste-to-Energy Market Forecast 2017-2027
  • The Polish Waste-to-Energy Market Forecast 2017-2027
  • The Irish Waste-to-Energy Market Forecast 2017-2027
  • The Danish Waste-to-Energy Market Forecast 2017-2027
  • The Finnish Waste-to-Energy Market Forecast 2017-2027
  • The Italian Waste-to-Energy Market Forecast 2017-2027
  • The Swedish Waste-to-Energy Market Forecast 2017-2027
  • The Czech Waste-to-Energy Market Forecast 2017-2027
  • The Chinese Waste-to-Energy Market Forecast 2017-2027
  • The Japanese Waste-to-Energy Market Forecast 2017-2027
  • The US Waste-to-Energy Market Forecast 2017-2027
  • The Canadian Waste-to-Energy Market Forecast 2017-2027

3) The analysis is underpinned by an exclusive interview with leading waste-to-energy experts:

  • Keppel Corporation

4) Discover details of more than 700 waste-to-energy projects revealing the following information in most cases:

  • Company
  • Project title
  • TPA capacity
  • MW capacity
  • $m investment
  • Completion year
  • Status

5) Learn about the following business-critical issues:

  • Legislation and landfill targets
  • Costs
  • Energy security
  • Pollution and public opposition
  • New technologies such as mass burn and advanced conversion

This independent 340-page report guarantees you will remain better informed than your competition. With 196 tables and figures examining the waste-to-energy market space, the report gives you a visual, one-stop breakdown of your market including capital expenditure forecasts from 2017-2027, as well as analysis PLUS municipal waste processing capacity forecasts from 2017-2027, keeping your knowledge that one step ahead helping you to succeed.

This report is essential reading for you or anyone in the energy or waste sectors with an interest in waste-to-energy. Purchasing this report today will help you to recognise those important market opportunities and understand the possibilities there. I look forward to receiving your order.

Visiongain is a trading partner with the US Federal Government.

Table of Contents

1. Report Overview

  • 1.1. Waste-to-Energy Market Overview
  • 1.2. Market Structure Overview and Market Definition
  • 1.3. Why You Should Read This Report
  • 1.4. How This Report Delivers
  • 1.5. Key Questions Answered by This Analytical Report Include:
  • 1.6. Who is This Report For?
  • 1.7. Methodology
    • 1.7.1. Primary Research
    • 1.7.2. Secondary Research
    • 1.7.3. Market Evaluation & Forecasting Methodology
  • 1.8. Frequently Asked Questions (FAQ)
  • 1.9. Associated Visiongain Reports
  • 1.10. About Visiongain

2. Introduction to the Waste-to-Energy Market

  • 2.1. A Brief History of the CO2 EOR Industry
  • 2.2. The Importance of Oil Prices
  • 2.3. The Main Costs Involved in CO2 EOR Operations
  • 2.4. Miscible and Immiscible EOR Methods
  • 2.5. Where is CO2 Sourced From?
  • 2.6. Advantages and Disadvantages of Using CO2 for EOR
  • 2.7. Competition from Rival Technologies
  • 2.8. Prospects for Offshore CO2 EOR
  • 2.9. Environmental Issues Related to CO2 EOR Production

3. Global Overview of Waste-to-Energy Market 2017-2027

  • 3.1. Global Overview of Waste-to-Energy Market
  • 3.2. Leading National and Regional Waste-to-Energy Markets 2017-2027
  • 3.3. Global Waste-to-Energy Market Drivers & Restraints
    • 3.3.1. The Issues with Increased Population Growth and Urbanisation
    • 3.3.2. Can Waste-to-Energy Provide Added Energy Security?
    • 3.3.3. Will Landfill Continue?
    • 3.3.4. Do the Economics of Waste-to-Energy Stack Up?
    • 3.3.5. High Costs and Limited Funding: Restraints for the Waste-to-Energy Market
    • 3.3.6. Are Government Policies Driving the Waste-to-Energy Market?
    • 3.3.7. Pollution, NIMBYism, Recycling: Public Opposition to Waste-to-Energy
    • 3.3.8. A Balanced Argument: An Outlook for Waste-to-Energy

4. Leading Countries in the Waste-to-Energy Market 2017-2027

  • 4.1. The UK Waste-to-Energy Market Forecast 2017-2027
    • 4.1.1. Current Status of Waste-to-Energy in the UK
    • 4.1.2. Drivers and Restraints in the UK Waste-to-Energy Market
    • 4.1.3. High Landfill Costs Continue to Drive the UK WtE Market
    • 4.1.4. Is Environmental Legislation Pressuring the WtE Market?
    • 4.1.5. LATS and Waste Infrastructure Grants are Shelved
    • 4.1.6. Fears of Overcapacity and European Competition
    • 4.1.7. Government Policy Focusing on Reduction and Recycling
    • 4.1.8. The Impact of Public Opposition
    • 4.1.9. Major UK Waste-to-Energy Projects
  • 4.2. The Polish Waste-to-Energy Market Forecast 2017-2027
    • 4.2.1. Current Status of Waste-to-Energy in Poland
    • 4.2.2. Drivers and Restraints in the Polish Waste-to-Energy Market
    • 4.2.3. The Effect of New Legislation and National Targets on Poland's Waste-to-Energy Market
    • 4.2.4. Will Funding Support and PPPs Aid Waste-to-Energy?
    • 4.2.5. New Processes and Legal Uncertainties: Can Poland Still Attract Investment?
    • 4.2.6. Major Polish Waste-to-Energy Projects
  • 4.3. The Irish Waste-to-Energy Market Forecast 2017-2027
    • 4.3.1. Current Status of Waste-to-Energy in Ireland
    • 4.3.2. The Irish Waste-to-Energy Market's Growth Potential
    • 4.3.3. Major Irish Waste-to-Energy Projects
  • 4.4. The Danish Waste-to-Energy Market Forecast 2017-2027
    • 4.4.1. Current Status of Waste-to-Energy in Denmark
    • 4.4.2. Drivers and Restraints in the Danish Waste-to-Energy Market
    • 4.4.3. A History of Incineration: Denmark's Energy Recovery Past
    • 4.4.4. Is Denmark Going to Focus More on Recycling?
    • 4.4.5. Inefficiencies in the Danish WtE Market
    • 4.4.6. Major Danish Waste-to-Energy Projects
  • 4.5. The Finnish Waste-to-Energy Market Forecast 2017-2027
    • 4.5.1. Current Status of Waste-to-Energy in Finland
    • 4.5.2. Drivers and Restraints in the Finnish Waste-to-Energy Market
    • 4.5.3. Is a Tough Waste Plan Prompting Improvement in Finland?
    • 4.5.4. Finland's Waste-to-Energy Market is Restricted
    • 4.5.5. Major Finnish Waste-to-Energy Projects
  • 4.6. The Italian Waste-to-Energy Market Forecast 2017-2027
    • 4.6.1. Current Status of Waste-to-Energy in Italy
    • 4.6.2. Drivers and Restraints in the Italian Waste-to-Energy Market
    • 4.6.3. Will Italian Targets Force the Waste-to-Energy Market to Grow?
    • 4.6.4. Are Restraining Factors Going to Inhibit the Italian Market?
    • 4.6.5. Major Italian Waste-to-Energy Projects
  • 4.7. The Swedish Waste-to-Energy Market Forecast 2017-2027
    • 4.7.1. Current Status of Waste-to-Energy in Sweden
    • 4.7.2. Drivers and Restraints in the Swedish Waste-to-Energy Market
    • 4.7.3. Major Swedish Waste-to-Energy Projects
  • 4.8. The Czech Republic Waste-to-Energy Market Forecast 2017-2027
    • 4.8.1. Current Status of Waste-to-Energy in Czech Republic Market
    • 4.8.2. Prospects for the Czech Waste-to-Energy Market
    • 4.8.3. Major Czech Waste-to-Energy Projects
  • 4.9. Rest of Europe Waste-to-Energy Market Forecast 2017-2027
    • 4.9.1. The Rest of Europe Waste-to-Energy Projects
    • 4.9.2. The Emerging Markets of Eastern Europe
      • 4.9.2.1. The Bulgarian Waste-to-Energy Market
      • 4.9.2.2. The Croatian Waste-to-Energy Market
      • 4.9.2.3. The Estonian Waste-to-Energy Market
      • 4.9.2.4. The Lithuanian Waste-to-Energy Market
      • 4.9.2.5. The Romanian Waste-to-Energy Market
      • 4.9.2.6. The Slovakian Waste-to-Energy Market
      • 4.9.2.7. The Slovenian Waste-to-Energy Market
      • 4.9.2.8. The Netherlands Waste-to-Energy Market
      • 4.9.2.9. The French Waste-to-Energy Market
      • 4.9.2.10. The German Waste-to-Energy Market
      • 4.9.2.11. The Norwegian Waste-to-Energy Market
  • 4.10. The Chinese Waste-to-Energy Market Forecast 2017-2027
    • 4.10.1. Current Status of the Chinese Waste-to-Energy Market
    • 4.10.2. Drivers and Restraints in the Chinese Waste-to-Energy Market
    • 4.10.3. Rising Levels of Waste and Pollution Causing Issues in China
    • 4.10.4. Rising Energy Demand Could Lead to an Increase in Waste-to-Energy
    • 4.10.5. The 12th Five Year Plan and the CDM as Drivers
    • 4.10.6. What are the Issues with the Waste-to-Energy Plants in China?
    • 4.10.7. Public Opposition: The Fight Against Incineration in China
    • 4.10.8. Major Chinese Waste-to-Energy Projects
  • 4.11. The Japanese Waste-to-Energy Market Forecast 2017-2027
    • 4.11.1. Current Status of Waste-to-Energy in Japan
    • 4.11.2. Drivers and Restraints in the Japanese Waste-to-Energy Market
    • 4.11.3. What Potential is there for Japanese Waste-to-Energy Growth?
    • 4.11.4. Can the Japanese Waste-to-Energy Market Keep Growing?
    • 4.11.5. Major Japanese Waste-to-Energy Projects
  • 4.12. Rest of Asia Pacific Waste-to-Energy Market Forecast 2017-2027
    • 4.12.1. Rest of Asia-Pacific Waste-to-Energy Facilities and Upcoming Projects
    • 4.12.2. Rest of Asia-Pacific Waste-to-Energy Market
    • 4.12.3. Analysis of the Current Australian Waste-to-Energy Market
    • 4.12.4. Drivers and Restraints in the Australian Waste-to-Energy Market
    • 4.12.5. What Potential is there for Australian Waste-to-Energy Growth?
    • 4.12.6. Will High Costs and Lack of Experience Inhibit Australian WtE Growth?
    • 4.12.7. The Opportunity for Foreign Investment in India
    • 4.12.8. What About the Indonesian Market Outlook?
    • 4.12.9. The Waste-to-Energy Potential in Malaysia
    • 4.12.10. Waste-to-Energy Growth Potential in the Philippines
    • 4.12.11. The Waste-to-Energy Market in Singapore
    • 4.12.12. Will Recycling Dominate over Waste-to-Energy in South Korea?
    • 4.12.13. Will the Taiwanese Market Grow?
    • 4.12.14. Can Thailand's Waste-to-Energy Market Grow?
    • 4.12.15. Vietnam's Waste-to-Energy Market
  • 4.13. The US Waste-to-Energy Market Forecast 2017-2027
    • 4.13.1. Current Status of Waste-to-Energy in the US Market
    • 4.13.2. Drivers and Restraints in the US Waste-to-Energy Market
    • 4.13.3. The Problems with Municipal Waste in the US
    • 4.13.4. US Waste Legislation and Renewable Energy Potential
    • 4.13.5. Waste Management at State Level
    • 4.13.6. High Costs and Strong Public Opposition
    • 4.13.7. Major US Waste-to-Energy Projects
  • 4.14. The Canadian Waste-to-Energy Market Forecast 2017-2027
    • 4.14.1. Current Status of Waste-to-Energy in Canada
    • 4.14.2. Drivers and Restraints in the Canadian Waste-to-Energy Market
    • 4.14.3. Why is Waste-to-Energy Set to Grow in Canada?
    • 4.14.4. What is Holding the Canadian Market Back?
    • 4.14.5. Major Canadian Waste-to-Energy Projects
  • 4. 15. The Rest of the World Waste-to-Energy Market 2017-2027
    • 4.15.1. Waste-to-Energy Projects in the Rest of the World
    • 4.15.2. Analysis of the Rest of the World Waste-to-Energy Market
    • 4.15.3. WTE Potential in the Middle East

5. PESTEL Analysis of the Waste-to-Energy Market

  • 5.1. Political Impact
  • 5.2. Economic Impact
  • 5.3. Social Impact
  • 5.4. Technological Impact

6. Expert Opinion

  • 6.1. Primary Correspondents
  • 6.2. Waste-to-energy Market Outlook
  • 6.3. Driver & Restraints
  • 6.5. Dominant Region in the Waste-to-energy Market
  • 6.5. Overall Growth Rate, Globally

7. WtE Installed Capacity & Company Market Share Analysis

  • 7.1. Waste-to-Energy Company-wise Installed Capacity & Market Share

8. Leading Companies in Waste-to-Energy Market

  • 8.1. Covanta Energy Corporation
    • 8.1.1. Company Analysis
    • 8.1.2. Future Outlook & Business Strategy
  • 8.2. China Everbright International Limited
    • 8.2.1. Company Analysis
    • 8.2.2. Future Outlook & Business Strategy
  • 8.3. Sembcorp Industries
    • 8.3.1. Company Analysis
    • 8.3.2. Future Outlook & Business Strategy
  • 8.4. Suez Environment (SITA)
    • 8.4.1. Company Analysis
    • 8.4.2. Future Outlook & Business Strategy
  • 8.5. Hunan Yonker Environmental Protection Co., Ltd.
    • 8.5.1. Company Analysis
    • 8.5.2. Future Outlook & Business Strategy
  • 8.6. New Energy Corporation
    • 8.6.1. Company Analysis
    • 8.6.2. Future Outlook & Business Strategy
  • 8.7. Chongqing Iron & Steel Company (CISC)
    • 8.7.1. Company Analysis
    • 8.7.2. Future Outlook & Business Strategy
  • 8.8. Keppel Seghers Belgium N.V.
    • 8.8.1. Company Analysis
    • 8.8.2. Future Outlook & Business Strategy
  • 8.9. Hitachi Zosen Inova AG
    • 8.9.1. Company Analysis
    • 8.9.2. Future Outlook & Business Strategy
  • 8.10. Babcock & Wilcox Vφlund A/S
    • 8.10.1. Company Analysis
    • 8.10.2. Future Outlook & Business Strategy
  • 8.11. Mitsubishi Heavy Industries Environmental & Chemical Engineering Co. Ltd. (MHIEC)
    • 8.11.1. Company Analysis
    • 8.11.2. Future Outlook & Business Strategy
  • 8.12. Viridor
    • 8.12.1. Company Analysis
    • 8.12.2. Future Outlook & Business Strategy

9. Conclusions and Recommendations

  • 9.1. Key Findings
  • 9.2. Recommendations

10. Glossary

  • Appendix
  • Associated Visiongain Reports
  • Visiongain Report Sales Order Form
  • Appendix A
  • Appendix B
  • Visiongain Report Evaluation Form

List of Tables

  • Table 1.1: Global Waste-to-Energy Market, by Region Forecast 2017-2027 (US $Mn & Mtpa, AGR %, CAGR %, Cumulative)
  • Table 2.1: Income Streams Available for the Waste-to-Energy Market
  • Table 2.2: Sources of Municipal Solid Waste
  • Table 3.1: Global Waste-to-Energy Market Forecast 2017-2027 ($ mn, Mtpa, AGR %, CAGR %, Cumulative)
  • Table 3.2: Global Waste-to-Energy Market, by Region Forecast 2017-2027 ($mn, AGR %, CAGR %, Cumulative)
  • Table 3.3: Global Waste-to-Energy Market, by Region Forecast 2017-2027 (Mtpa, AGR %, CAGR %, Cumulative)
  • Table 3.4: Leading National Waste-to-Energy Market Cumulative spending, $ Mn (2017-2027)
  • Table 3.5: Drivers & Restraints
  • Table 4.1: U.K. Waste-to-Energy Market Forecast 2017-2027 ($ mn, Mtpa, AGR %, CAGR %, Cumulative)
  • Table 4.2: Key UK WtE Statistics (Population, Annual MSW Production, Annual MSW Production per Capita, Incineration Rate, Landfill Rate, Recycling/Compost Rate, WtE Facilities, WtE Capacity, New Plants Under Planning / Construction)
  • Table 4.3: Driver and Restraints in the U.K. Waste-to-Energy Market
  • Table 4.4: Projects Awarded Contracts for Difference under Allocation Round One (Project Name, Developer, Technology, MW, £ / $ Strike Price, Delivery Year)
  • Table 4.5: Major UK WtE Projects (Company, Project Title, TPA Capacity, MW Capacity, $m Investment, Completion Year, Status)
  • Table 4.6: Polish Waste-to-Energy Market Forecast 2017-2027 ($ mn, Mtpa, AGR %, CAGR %, Cumulative)
  • Table 4.7: Key Polish WtE Statistics (Population, Annual MSW Production, Annual MSW Production per Capita, Incineration Rate, Landfill Rate, Recycling/Compost Rate, WtE Facilities, WtE Capacity, New Plants Under Planning / Construction)
  • Table 4.8: Drivers and Restraints in the Polish Waste-to-Energy Market
  • Table 4.9: Major Polish WtE Projects (Company, Project Title, TPA Capacity, MW Capacity, $m Investment, Completion Year, Status)
  • Table 4.10: Irish Waste-to-Energy Market Forecast 2017-2027 ($ mn, Mtpa, AGR %, CAGR %, Cumulative)
  • Table 4.11: Key Irish WtE Statistics (Population, Annual MSW Production, Incineration Rate, Landfill Rate, Recycling/Compost Rate, WtE Facilities, WtE Capacity, New Plants Under Planning / Construction)
  • Table 4.12: Major Irish WtE Projects (Company, Project Title, TPA Capacity, MW Capacity, $m Investment, Completion Year, Status)
  • Table 4.13: Danish Waste-to-Energy Market Forecast 2017-2027 ($ mn, Mtpa, AGR %, CAGR %, Cumulative)
  • Table 4.14: Key Danish WtE Statistics (Population, Annual MSW Production, Incineration Rate, Landfill Rate, Recycling/Compost Rate, WtE Facilities, WtE Capacity, New Plants Under Planning / Construction)
  • Table 4.15: Drivers and Restraints in the Danish Waste-to-Energy Market
  • Table 4.16: Major Danish WtE Projects (Company, Project Title, TPA Capacity, MW Capacity, $m Investment, Completion Year, Status)
  • Table 4.17: Finnish Waste-to-Energy Market Forecast 2017-2027 ($ mn, Mtpa, AGR %, CAGR %, Cumulative)
  • Table 4.18: Key Finnish WtE Statistics (Population, Annual MSW Production, Incineration Rate, Landfill Rate, Recycling/Compost Rate, WtE Facilities, WtE Capacity, New Plants Under Planning / Construction)
  • Table 4.19: Drivers and Restraints in the Finnish Waste-to-Energy Market
  • Table 4.20: Major Finnish WtE Projects (Company, Project Title, TPA Capacity, MW Capacity, $m Investment, Completion Year, Status)
  • Table 4.21: Italian Waste-to-Energy Market Forecast 2017-2027 ($ mn, Mtpa, AGR %, CAGR %, Cumulative)
  • Table 4.22: Key Italian WtE Statistics (Population, Annual MSW Production, Incineration Rate, Landfill Rate, Recycling/Compost Rate, WtE Facilities, WtE Capacity, New Plants Under Planning / Construction)
  • Table 4.23: Drivers and Restraints in the Italian Waste-to-Energy Market
  • Table 4.24: Major Italian WtE Projects (Company, Project Title, TPA Capacity, MW Capacity, $m Investment, Completion Year, Status)
  • Table 4.25: Swedish Waste-to-Energy Market Forecast 2017-2027 ($ mn, Mtpa, AGR %, CAGR %, Cumulative)
  • Table 4.26: Key Swedish WtE Statistics (Population, Annual MSW Production, Incineration Rate, Landfill Rate, Recycling/Compost Rate, WtE Facilities, WtE Capacity, New Plants Under Planning / Construction)
  • Table 4.27: Drivers and Restraints in the Swedish Waste-to-Energy Market
  • Table 4.28: Major Swedish WtE Projects (Company, Project Title, TPA Capacity, MW Capacity, $m Investment, Completion Year, Status)
  • Table 4.29: Czech Republic Waste-to-Energy Market Forecast 2017-2027 ($ mn, Mtpa, AGR %, CAGR %, Cumulative)
  • Table 4.30: Key Czech WtE Statistics (Population, Annual MSW Production, Incineration Rate, Landfill Rate, Recycling/Compost Rate, WtE Facilities, WtE Capacity, New Plants Under Planning / Construction)
  • Table 4.31: Major Czech WtE Projects (Company, Project Title, TPA Capacity, MW Capacity, $m Investment, Completion Year, Status)
  • Table 4.32: Rest of Europe Waste-to-Energy Market Forecast 2017-2027 ($ mn, Mtpa, AGR %, CAGR %, Cumulative)
  • Table 4.33: Rest of Europe Waste-to-Energy Projects by Country
  • Table 4.34: German WtE Capacity Changes (Company, Project Title, TPA Capacity, MW Capacity, Work Expected)
  • Table 4.35: Chinese Waste-to-Energy Market Forecast 2017-2027 ($ mn, Mtpa, AGR %, CAGR %, Cumulative)
  • Table 4.36: Key Chinese WtE Statistics (Population, Annual MSW Production, Incineration Rate, Landfill Rate, Recycling/Compost Rate, WtE Facilities, WtE Capacity, New Plants Under Planning / Construction)
  • Table 4.37: Drivers and Restraints in the Chinese Waste-to-Energy Market
  • Table 4.38: Major Chinese WtE Projects (Company, Project Title, TPA Capacity, MW Capacity, $m Investment, Completion Year)
  • Table 4.39: Japanese Waste-to-Energy Market Forecast 2017-2027 ($ mn, Mtpa, AGR %, CAGR %, Cumulative)
  • Table 4.40: Key Japanese WtE Statistics (Population, Annual MSW Production, Annual MSW Production per Capita, Incineration Rate, Landfill Rate, Recycling/Compost Rate, WtE Facilities, WtE Capacity, New Plants Under Planning / Construction)
  • Table 4.41: Drivers and Restraints in the Japanese Waste-to-Energy Market
  • Table 4.42: Major Japanese WtE Projects (Company, Project Title, TPA Capacity, $m Investment, Completion Year)
  • Table 4.43: Rest of Asia Pacific Waste-to-Energy Market Forecast 2017-2027 ($ mn, Mtpa, AGR %, CAGR %, Cumulative)
  • Table 4.44: Rest of Asia-Pacific WtE Projects by Country
  • Table 4.45: Key Australian WtE Statistics (Population, Annual MSW Production, Incineration Rate, Landfill Rate, Recycling/Compost Rate, WtE Facilities, WtE Capacity, Planning / Construction)
  • Table 4.46: Major Australian WtE Projects (Company, Project Title, TPA Capacity, MW Capacity, $m Investment, Completion Year, Status)
  • Table 4.47: Drivers and Restraints in the Australian Waste-to-Energy Market
  • Table 4.48: Major Indian WtE Projects (Project Title, TPA Capacity, MW Capacity, $m Investment, Completion Year, Status)
  • Table 4.49: US Waste-to-Energy Market Forecast 2017-2027 ($ mn, Mtpa, AGR %, CAGR %, Cumulative)
  • Table 4.50: Key US WtE Statistics (Population, Annual MSW Production, Incineration Rate, Landfill Rate, Recycling/Compost Rate, WtE Facilities, WtE Capacity, Energy Output, New Plants Under Planning / Construction)
  • Table 4.51: Drivers and Restraints in the US Waste-to-Energy Market
  • Table 4.52: Major US WtE Projects (Company, Project Title, TPA Capacity, $m Investment, Completion Year)
  • Table 4.53: Canadian Waste-to-Energy Market Forecast 2017-2027 ($ mn, Mtpa, AGR %, CAGR %, Cumulative)
  • Table 4.54: Key Canadian WtE Statistics (Population, Annual MSW Production, Incineration Rate, Landfill Rate, Recycling/Compost Rate, WtE Facilities, WtE Capacity, New Plants Under Planning / Construction)
  • Table 4.55: Drivers and Restraints in the Canadian Waste-to-Energy Market
  • Table 4.56: Major Canadian Waste-to-Energy Projects (Company, Project Title, TPA Capacity, $m Investment, Completion Year)
  • Table 4.57: Rest of the World Waste-to-Energy Market Forecast 2017-2027 ($ mn, Mtpa, AGR %, CAGR %, Cumulative)
  • Table 4.58: Major WtE Projects in the Rest of the World (Company, Project Title, Country, TPA Capacity, Completion Year, Status)
  • Table 5.1: PESTEL Analysis, Waste-to-Energy Market
  • Table 8.1: Covanta Energy Corporation Profile 2016(Market Entry, Public/Private, Headquarters, Total Company Sales $mn, Change in Revenue, Geography, Key Market, Company Sales from Waste-to-Energy Market, Listed on, Products/Services Strongest Business Region, Business Segment in the Market, Submarket Involvement, No. of Employees)
  • Table 8.2: Covanta Energy Corporation Total Company Revenue 2012-2016 ($bn, AGR %)
  • Table 8.3: Covanta Energy Corporation Revenue % Share, by Waste &Services Revenue Breakup, 2016
  • Table 8.4: China Everbright International Limited Profile 2016 (Market Entry, Public/Private, Headquarters, Total Company Sales $mn, Change in Revenue, Geography, Key Market, Company Sales from Marine Seismic Equipment and Acquisition Market, Listed on, Products/Services Strongest Business Region, Business Segment in the Market, Submarket Involvement, No. of Employees)
  • Table 8.5: China Everbright International Limited Total Company Revenue 2012-2015 ($bn, AGR %)
  • Table 8.6: China Everbright Waste-to-Energy Projects (Project Name, TPA Capacity, Completion Year, Status)
  • Table 8.7: Sembcorp Industries2016 (Market Entry, Public/Private, Headquarters, Total Company Sales $bn, Change in Revenue, Geography, Key Market, Company Sales from Marine Seismic Equipment and Acquisition Market, Listed on, Products/Services Strongest Business Region, Business Segment in the Market, Submarket Involvement, No. of Employees)
  • Table 8.8: Suez Environment (SITA) 2016 (Market Entry, Public/Private, Headquarters, Total Company Sales $bn, Change in Revenue, Geography, Key Market, Company Sales from Marine Seismic Equipment and Acquisition Market, Listed on, Products/Services Strongest Business Region, Business Segment in the Market, Submarket Involvement, No. of Employees)
  • Table 8.9: Suez Environment (SITA)Total Company Revenue 2011-2015 ($bn, AGR %)
  • Table 8.10: Suez Environment (SITA) Suez Environnment Waste-to-Energy Projects (Project, Country, TPA Capacity, Completion Year)
  • Table 8.11: Hunan Yonker Environmental Protection Co., Ltd.2016 (Market Entry, Public/Private, Headquarters, Total Company Sales $bn, Change in Revenue, Geography, Key Market, Company Sales from Marine Seismic Equipment and Acquisition Market, Listed on, Products/Services Strongest Business Region, Business Segment in the Market, Submarket Involvement, No. of Employees)
  • Table 8.12: SWOT Analysis of Hunan Yonker Environmental Protection in the WtE Market
  • Table 8.13: New Energy Corporation Profile 2016 (Market Entry, Public/Private, Headquarters, Total Company Sales $mn, Change in Revenue, Geography, Key Market, Company Sales from Waste-to-Energy Market, Listed on, Products/Services Strongest Business Region, Business Segment in the Market, Submarket Involvement, No. of Employees)
  • Table 8.14: Chongqing Iron & Steel Company (CISC) Profile 2016 (Market Entry, Public/Private, Headquarters, Total Company Sales $mn, Change in Revenue, Geography, Key Market, Company Sales from Waste-to-Energy Market, Listed on, Products/Services Strongest Business Region, Business Segment in the Market, Submarket Involvement, No. of Employees)
  • Table 8.15: CISC WtE Operations (Project Name, TPA Capacity, Completion
  • Table 8.16: Keppel Seghers Belgium N.V. Profile 2016 (Market Entry, Public/Private, Headquarters, Total Company Sales $mn, Change in Revenue, Geography, Key Market, Company Sales from Waste-to-Energy Market, Listed on, Products/Services Strongest Business Region, Business Segment in the Market, Submarket Involvement, No. of Employees)
  • Table 8.17: Keppel Seghers Belgium N.V. Waste-to-Energy Projects (Project Name, Country, TPA Capacity, Completion Year)
  • Table 8.18: Keppel Seghers Belgium N.V. Company Divisions & Capabilities
  • Table 8.19: Hitachi Zosen Inova AG Profile 2016 (Market Entry, Public/Private, Headquarters, Total Company Sales $mn, Change in Revenue, Geography, Key Market, Company Sales from Waste-to-Energy Market, Listed on, Products/Services Strongest Business Region, Business Segment in the Market, Submarket Involvement, No. of Employees)
  • Table 8.20: Hitachi Zosen Inova Waste-to-Energy Projects (Project, Country, TPA Capacity, Completion Year)
  • Table 8.21: Babcock & Wilcox Vφlund A/S Profile 2016 (Market Entry, Public/Private, Headquarters, Total Company Sales $mn, Change in Revenue, Geography, Key Market, Company Sales from Waste-to-Energy Market, Listed on, Products/Services Strongest Business Region, Business Segment in the Market, Submarket Involvement, No. of Employees)
  • Table 8.22: Babcock & Wilcox Vφlund Waste-to-Energy Projects (Project, Country, TPA Capacity, Completion Year)
  • Table 8.23: Babcock & Wilcox Vφlund Company Divisions & Capabilities
  • Table 8.24: MHIEC Profile 2016 (Market Entry, Public/Private, Headquarters, Total Company Sales $mn, Change in Revenue, Geography, Key Market, Company Sales from Waste-to-Energy Market, Listed on, Products/Services Strongest Business Region, Business Segment in the Market, Submarket Involvement, No. of Employees)
  • Table 8.25: Mitsubishi Heavy Industries Environmental & Chemical Waste-to-Energy Projects (Project Name, Country, TPA Capacity, Completion Year)
  • Table 8.26: Mitsubishi Heavy Industries Environmental & Chemical Divisions & Capabilities
  • Table 8.27: Viridor Profile 2016 (Market Entry, Public/Private, Headquarters, Total Company Sales $mn, Change in Revenue, Geography, Key Market, Company Sales from Waste-to-Energy Market, Listed on, Products/Services Strongest Business Region, Business Segment in the Market, Submarket Involvement, No. of Employees)
  • Table 8.28: Viridor Overview (Total Revenue 2015 $m, Market Share by 2016 CAPEX %, Operational WtE Capacity TPA, HQ, Employees, Website)

List of Figures

  • Figure 1.1: The Waste-to-Energy Market by Country/Region Market Share Forecast 2017, 2022, 2027 (% Share)
  • Figure 2.1: Inputs, Technological Processes and Outputs for the Waste-to-Energy Market
  • Figure 2.2: Factors Impacting MSW Management
  • Figure 2.3: Breakdown of Typical US MSW Content (%)
  • Figure 2.4: Global Waste-to-Energy Market Segmentation Overview
  • Figure 3.1: Global Waste-to-Energy Market, by CAPEX Forecast 2017-2027 ($ Mn, AGR %)
  • Figure 3.2: Global Waste-to-Energy Market, by Capacity Forecast 2017-2027 (Mtpa)
  • Figure 3.3: Regional Waste-to-Energy Market, by Capacity Forecast 2017-2027 (Mtpa, AGR %)
  • Figure 3.4: Regional Waste-to-Energy Market Forecast 2017-2027 (Mtpa, AGR %)
  • Figure 3.5: Leading National Waste-to-Energy Market Share, 2017
  • Figure 3.6: Leading National Waste-to-Energy Market Share, 2022
  • Figure 3.7: Leading National Waste-to-Energy Market Share, 2027
  • Figure 3.8: Leading National Waste-to-Energy Market Total Cumulative spending, $ Mn (2017-2027)
  • Figure 3.9: Regional Market Attractiveness
  • Figure 4.1: U.K. Waste-to-Energy Market, by CAPEX Forecast 2017-2027 ($ Mn, AGR %)
  • Figure 4.2: U.K. Waste-to-Energy Market, by Capacity Forecast 2017-2027 (Mtpa)
  • Figure 4.3: U.K. Waste-to-Energy Market Share Forecast 2017, 2022, 2027 (% Share)
  • Figure 4.5: U.K. Waste Hierarchy
  • Figure 4.6: Total Household Waste Volumes Treated, Incinerated, Recycled and Recycling Rate, UK 1995-2014
  • Figure 4.7: Number of Facilities Operating in CHP Mode in 2009 and 2016
  • Figure 4.8: Polish Waste-to-Energy Market, by CAPEX Forecast 2017-2027 ($ Mn, AGR %)
  • Figure 4.9: Polish Waste-to-Energy Market, by Capacity Forecast 2017-2027 (Mtpa)
  • Figure 4.1: Polish Waste-to-Energy Market Share Forecast 2017, 2022, 2027 (% Share)
  • Figure 4.11: Irish Waste-to-Energy Market, by CAPEX Forecast 2017-2027 ($ Mn, AGR %)
  • Figure 4.12: Irish Waste-to-Energy Market, by Capacity Forecast 2017-2027 (Mtpa)
  • Figure 4.13: Irish Waste-to-Energy Market Share Forecast 2017, 2022, 2027 (% Share)
  • Figure 4.14: Danish Waste-to-Energy Market, by CAPEX Forecast 2017-2027 ($ Mn, AGR %)
  • Figure 4.15: Danish Waste-to-Energy Market, by Capacity Forecast 2017-2027 (Mtpa)
  • Figure 4.16: Danish Waste-to-Energy Market Share Forecast 2017, 2022, 2027 (% Share)
  • Figure 4.17: Breakdown of Danish Municipal Waste Management, 2013 (%)
  • Figure 4.18: Municipal Solid Waste Generated & Waste Incinerated in Denmark 2002-2011
  • Figure 4.19: Finnish Waste-to-Energy Market, by CAPEX Forecast 2017-2027 ($ Mn, AGR %)
  • Figure 4.20: Finnish Waste-to-Energy Market, by Capacity Forecast 2017-2027 (Mtpa)
  • Figure 4.21: Finnish Waste-to-Energy Market Share Forecast 2017, 2022, 2027 (% Share)
  • Figure 4.22: Municipal Waste Generated in Finland 1995-2013 (Ktpa)
  • Figure 4.23: Italian Waste-to-Energy Market, by CAPEX Forecast 2017-2027 ($ Mn, AGR %)
  • Figure 4.24: Italian Waste-to-Energy Market, by Capacity Forecast 2017-2027 (Mtpa)
  • Figure 4.25: Italian Waste-to-Energy Market Share Forecast 2017, 2022, 2027 (% Share)
  • Figure 4.26: Top 15 Waste Producers in Europe (Ktpa)
  • Figure 4.27: Italian Municipal Solid Waste Production 1995-2013 (Ktpa)
  • Figure 4.28: Swedish Waste-to-Energy Market, by CAPEX Forecast 2017-2027 ($ Mn, AGR %)
  • Figure 4.29: Swedish Waste-to-Energy Market, by Capacity Forecast 2017-2027 (Mtpa)
  • Figure 4.30: Swedish Waste-to-Energy Market Share Forecast 2017, 2022, 2027 (% Share)
  • Figure 4.31: Breakdown of Swedish MSW Management, 2013 (%)
  • Figure 4.32: Czech Republic Waste-to-Energy Market, by CAPEX Forecast 2017-2027 ($ Mn, AGR %)
  • Figure 4.33: Czech Republic Waste-to-Energy Market, by Capacity Forecast 2017-2027 (Mtpa)
  • Figure 4.34: Czech Republic Waste-to-Energy Market Share Forecast 2017, 2022, 2027 (% Share)
  • Figure 4.35: Czech Municipal Solid Waste Production, Recycling Rate, Incineration Rate 1995-2013 (Ktpa, %)
  • Figure 4.36: Rest of Europe Waste-to-Energy Market, by CAPEX Forecast 2017-2027 ($ Mn, AGR %)
  • Figure 4.37: Rest of Europe Waste-to-Energy Market, by Capacity Forecast 2017-2027 (Mtpa)
  • Figure 4.38: Rest of Europe Waste-to-Energy Market Share Forecast 2017, 2022, 2027 (% Share)
  • Figure 4.39: Chinese Waste-to-Energy Market, by CAPEX Forecast 2017-2027 ($ Mn, AGR %)
  • Figure 4.40: Chinese Waste-to-Energy Market, by Capacity Forecast 2017-2027 (Mtpa)
  • Figure 4.41: Chinese Waste-to-Energy Market Share Forecast 2017, 2022, 2027 (% Share)
  • Figure 4.42: Coal Consumption in China and Other Leading Coal-Consuming Countries, 2012 (US Thousand Short Tons)
  • Figure 4.43: Chinese Total Primary Energy Consumption, Total Coal Consumption, Coal as a Proportion of Energy Consumption (Quadrillion Btu, %)
  • Figure 4.44: Chinese Energy Consumption 1980-2012(Quadrillion Btu)
  • Figure 4.45: Japanese Waste-to-Energy Market, by CAPEX Forecast 2017-2027 ($ Mn, AGR %)
  • Figure 4.46: Japanese Waste-to-Energy Market, by Capacity Forecast 2017-2027 (Mtpa)
  • Figure 4.47: Japanese Waste-to-Energy Market Share Forecast 2017, 2022, 2027 (% Share)
  • Figure 4.48: Rest of Asia Pacific Waste-to-Energy Market, by CAPEX Forecast 2017-2027 ($ Mn, AGR %)
  • Figure 4.49: Rest of Asia Pacific Waste-to-Energy Market, by Capacity Forecast 2017-2027 (Mtpa)
  • Figure 4.50: Rest of Asia Pacific Waste-to-Energy Market Share Forecast 2017, 2022, 2027 (% Share)
  • Figure 4.51: US Waste-to-Energy Market, by CAPEX Forecast 2017-2027 ($ Mn, AGR %)
  • Figure 4.52: US Waste-to-Energy Market, by Capacity Forecast 2017-2027 (Mtpa)
  • Figure 4.53: US Waste-to-Energy Market Share Forecast 2017, 2022, 2027 (% Share)
  • Figure 4.54: Breakdown of US MSW Management, 2013 (%)
  • Figure 4.55: Canadian Waste-to-Energy Market, by CAPEX Forecast 2017-2027 ($ Mn, AGR%)
  • Figure 4.56: Canadian Waste-to-Energy Market, by Capacity Forecast 2017-2027 (Mtpa)
  • Figure 4.57: Canadian Waste-to-Energy Market Share Forecast 2017, 2022, 2027 (% Share)
  • Figure 4.58: Rest of the World Waste-to-Energy Market, by CAPEX Forecast 2017-2027 ($ Mn, AGR %)
  • Figure 4.59: Rest of the World Waste-to-Energy Market, by Capacity Forecast 2017-2027 (Mtpa)
  • Figure 4.60: Rest of the World Waste-to-Energy Market Share Forecast 2017, 2022, 2027 (% Share)
  • Figure 7.1: Company-wise Waste-to-Energy Installed Capacity 2015
  • Figure 7.2: Leading Company Market Share (%), 2016, Waste-to-Energy Market
  • Figure 8.1: Covanta Energy Corporation Revenue % Share, by Operating Segment, 2016
  • Figure 8.2: Covanta Energy Corporation Revenue % Share, by Waste &Services Revenue Breakup, 2016
  • Figure 8.3: Covanta Energy Corporation Waste-to-Energy Facilities
  • Figure 8.4: Covanta Energy Corporation Total Company Revenue, ($bn & AGR %), 2012-2016
  • Figure 8.5: China Everbright International Limited Revenue % Share, by Business Segment, 2016
  • Figure 8.6: China Everbright International Limited Total Company Revenue, ($bn& AGR %), 2012-2016
  • Figure 8.7: Sembcorp Industries Revenue % Share, by Business Segment, 2016
  • Figure 8.8: Sembcorp Industries Revenue % Share, Capacity (MW), by Power Plant Type, 2016
  • Figure 8.9: Suez Environment (SITA)Revenue % Share, by Geographical Segment, 2016
  • Figure 8.10: Suez Environment (SITA)Total Company Revenue, ($bn& AGR %), 2012-2016
  • Figure 8.11: Chongqing Iron & Steel Company (CISC) SWOT Analysis
  • Figure 9.1: Global Waste-to-Energy Market Forecast 2017-2027 ($ mn, AGR %)

Companies Listed

  • A2A
  • Abengoa
  • Abiko City Hall
  • Acea Group
  • ACWA Power
  • Aem Cremona
  • Air Products
  • AISA IMPIANTI
  • Akita City
  • Algonquin
  • Amagasaki City
  • Amager Resource Centre (ARC)
  • Ambiente 2000
  • AmeyCespa
  • An Hui Wenergy
  • Anhui Shengyun Machinery Co.
  • Arcadis
  • Associated Energy Projects
  • Associated Energy Projects PLC
  • Atami City
  • Atlantic County Utilities Authority (ACUA)
  • Atsugi City
  • Azienda Autonoma Municipale Pubblici Servizi
  • B&W Power Generation Group
  • B&W Vφlund A/S
  • Babcock & Wilcox
  • Babcock & Wilcox Vφlund A/S
  • Bee'ah
  • Beijing Municipal Government
  • Beijing Municipal Government / Shougang Corporation
  • Better World Green PCL
  • BH EnergyGap (Walsall) Ltd
  • Biffa
  • Bioessence and ATCO Power
  • Biogen Power
  • Bodens Energi
  • Bollnäs Energi AB
  • Boras Energi Miljo
  • Borlänge Energi
  • Borui Green Energy
  • Bouygues Energies & Services
  • Brianza Energia Ambiente
  • Broadcrown
  • C&G Environmental Protection Holdings
  • Cadence EnviroPower
  • CAGT Engineering
  • CECEP
  • Changsha Municipal Solid Waste Advanced & Comprehensive Treatment (Clean Incineration) Project
  • Changshu Pufa Thermoelectricity
  • Chant Group
  • Chengdu Waste-to-Energy Company
  • Chengdu Xingrong Renewable Energy
  • Chiba City
  • Chichibu Municipal Union
  • Chikoshino City
  • China Boqi
  • China Everbright
  • China Power New Energy
  • China Power New Energy Development Company Limited
  • Chinook Urban Mining
  • Chita City
  • Chongqing Iron & Steel Company (CISC)
  • Chongqing Sanfeng Covanta
  • ChonqingSanfeng Environmental Industry Group Co. Ltd
  • CISC
  • City of Ames
  • City of Chitose
  • City of Fukuoka
  • City of Hakodate
  • City of Hampton
  • City of Harrisonburg
  • City of Hitachinaka
  • City of Kobe
  • City of Poznan
  • City of Yokohama
  • Cixi Zhongke Zhongmao
  • CJ Global Green Energy Philippines Corp
  • Clean Association of Tokyo 23
  • Clean Energy Finance Corporation (CEFC)
  • Clean Power Properties
  • Clean Power Properties
  • Clean Power Properties & Network Rail Infrastructure Ltd
  • Clean System
  • Consorzio Gaia
  • Consorzio Recuperi Energetici
  • Consulasia
  • Cory Environmental
  • Covanta Energy Corporation
  • Coventry & Solihull Waste Disposal Company
  • CTCI
  • Dais Cleaning Facility Union
  • Dalian TEDA Environmental Protection
  • Dan Municipal Sanitation Association/Nesher
  • Datong Fuqiao Waste Incineration Electricity
  • Detroit Renewable Energy
  • Devon Waste Management
  • Dingzhou Ruiquan Solid Waste Treatment
  • Dong Energy
  • Doosan
  • Douglas Solid Waste
  • Dream Engineering
  • Drenl
  • Dubai Municipality
  • Dundee Energy Recycling Ltd
  • Dynamis Energy
  • E. ON
  • Ebara
  • Eco Center
  • Eco Energy
  • Ecomaine
  • EDF
  • Edosaki Local Health Civil Union
  • EEW Energy from Waste
  • Ekokem Group
  • Ekokogeneracja subsidiary Kotlownia
  • Eksjö Energi
  • Emerald Energy From Waste Inc
  • Energia
  • Energy Answers
  • Energy Recovery Operations, Inc
  • Energy Works (Hull) Limited
  • Energy Works (Spencer Group)
  • EnGen
  • Entech Renewable Energy Technologies Pty Ltd (Entech)
  • Enviroparks Operations
  • EQT Energy
  • ESOCO Orrington
  • Esti Energia
  • Ethiopian Electric Power Corporation
  • Euro Energy Group
  • Europlasma
  • Eurostat
  • Falascaia
  • FCC Environment
  • Ferrero
  • Fiberight
  • Finspang
  • Fortum
  • Fortum Keilaniemi
  • Foster Wheeler
  • Fujinomiya City
  • Fujisawa City
  • Funabashi City
  • Furlprotection
  • GCL-Poly
  • Gent Fairhead
  • GHPE
  • GM Pearson
  • Grandblue Environment
  • Great River Energy
  • Green Dynamic
  • Green EfW Investments
  • Green Fuel
  • Green Point Global Partners
  • Green Power
  • Grontmij
  • Grundon Waste
  • Guangdong Tianyi
  • Guangzhou Tianyi
  • Gyoda City
  • Hachinohe Office Union
  • Hachioji City
  • Hadano Isehara Environmental Sanitation Union
  • Hamamatsu City
  • Hanamaki City
  • Hangzhou Green Initiatives Generation
  • Hanoi Urban Environment Company
  • Hatsukaichi City
  • Hebei Construction & Investment
  • Hebei Jiantou Lingfeng Power Generation
  • Hebei Lingda Huanbao Energy
  • Hekinan City
  • Hem
  • Herambiente
  • Hfab
  • Higashi Osaka City Cleaning Facility Union
  • Higashimatsuyama City
  • Hinata Higashiusuki Interjurisdictional
  • Hirakata City
  • Hiroshima City
  • Hisashi Kennan Environment Union
  • Hitachi Zosen Corporation
  • Hitachi Zosen Inova
  • Hitachi Zosen Inova AG
  • Hofu City Hall
  • Hunan Junxin Environmental Protection Group
  • Hyflux
  • Ibaraki City
  • Ichihara City
  • Ichinomiya City
  • Ichinoseki Administrative Union
  • Iles de la Madelaine
  • Imabari City Hall
  • Imizu City Hall
  • IMPSA
  • Inagawa Upstream Garbage Treatment Facilities Union
  • Indaver
  • International Electric Power
  • Interstate Waste Technologies
  • Inzai District Environment Maintenance Business Union
  • Iren
  • Ishinomaki City
  • Ishinomaki District Integrated Administration Work Association
  • Japanese New Energy and Industrial Technology Development Organisation
  • Jersey Transport and Technical Services
  • JFE
  • Jinjiang Group
  • Joint Powers Board
  • Jönköping Energi
  • K3CHP Ltd
  • Kagoshima City
  • Kakamigahara City
  • Kakegawa and Kikugawa Cities Sanitation Union
  • Kamoeisei Union
  • Kara
  • Kariya City
  • Karlskoga Energi
  • Karlstad Energi
  • Kasama City
  • Kashihara City
  • Kashiwa City Hall
  • Kashiwa Hato Environmental Partnership
  • Kashiwa-Shiroi-Kamagaya Kankyo Eisei Kumiai
  • Kasugai City
  • Kasukabe City
  • Kawasaki City Hall
  • Kazo City Hall
  • Kenoukennan Regional Environment Association
  • Keppel Corporation
  • Keppel Infrastructure Holdings Pte Ltd
  • Keppel Seghers
  • KIC Odpapdy
  • Kils Energi
  • Kishiwada Kaizuka Clean Facility Union
  • Kitaakita City
  • Kitaibaraki City
  • Kitakata Union
  • Kodaira Murayama Yamato Sanitation Union
  • Kodama-Gun City Affairs Division
  • Kofu City
  • Kotka Energia
  • Kyoritsu Hygiene Processing Union
  • Lahti Energy
  • Landskrona Energi AB
  • LECH
  • Levis City
  • Lidköping
  • Lietuvos Energija
  • Ljungby Energi
  • Lomellina e
  • M+W
  • Marcegaglia Energy
  • Martin GmbH
  • Martin Technologies
  • MCC Energy
  • Mercia (FCC Environment)
  • MES Environmental
  • Metro Vancouver
  • Mid-Maine Waste Action Corporation
  • Minamikawachi Environmental Partnership Secretariat
  • Mitsubishi Heavy Industries Environmental & Chemical Engineering (MHIEC)
  • Mizuda Group
  • Mizushima Eco Works
  • Mostostal Warszawa
  • Müllpyrolyseanlage Burgau
  • Multifuel Energy
  • MVV Environment
  • Naanovo Energy
  • NAES Corp
  • Nesher Energy
  • Network Rail Infrastructure Ltd
  • New Earth Energy (New Earth Solutions)
  • New Energy
  • Ningbo Beilun II
  • North London Waste Authority
  • Noshiro-Yamamoto
  • NOY & P3P Partners
  • Nybro Energi
  • Oita City
  • Olmsted County
  • Öresundskraft
  • Origin Renewable Energy
  • Osaka City Hall
  • Oulun Energia
  • Peel Energy
  • Peel Environmental
  • Pei County
  • PEI Energy Systems
  • PGNiG Termika
  • PHG Energy
  • Phoenix Energy
  • Pingdu
  • Planara
  • Plasco Energy Group
  • Polk County
  • Pope
  • Pope Energy
  • Posco E&C
  • POSCO Engineering & Construction
  • Prairie Lakes Municipal Solid Waste Authority
  • Prazské sluzby
  • Premier Aggregates
  • Proctor & Gamble Co.
  • ProNatura
  • Qionghai City Construction Bureau
  • Quadrifoglio
  • Rabbit Group
  • Rambol
  • Rank Progress
  • REA Dalmine
  • Reform Energy
  • Region of Peel
  • Renova
  • Resource Recovery Solutions
  • Resource Recovery Technologies
  • Riikinvoima
  • Romelectro
  • Sako
  • San-Ei Regulator
  • Sanitation Districts of Los Angeles County
  • Sashimakankyou
  • Savini
  • Scarborough Power
  • Scarlino Energia
  • Se. Ver. A. SPA
  • Sembcorp
  • Sembcorp Utilities Ltd
  • Senboku Environment Maintenance Facility Union
  • Sennan Cleaning Office Union
  • Shanghai Canzhou
  • Shengyuan Environment
  • Shenzhen Energy
  • Shetland Heat Energy & Power
  • Shida Office Union
  • Shore Energy
  • Shougang Corporation
  • Sichuan Electric Power Construction Ltd
  • Sita Energia
  • SITA Scandinavia
  • SITA Sembcorp UK
  • SITA UK
  • SITA Zielona Energia
  • Skövde Värmeverk AB
  • Söder Energi
  • Sound Environmental Resources
  • Southern Yue Cleaning Union
  • Spokane City
  • SSE Energy
  • State Communal Enterprise Koktem
  • Steinmuller Babcock Environment
  • Stockholm Town
  • Suez Environnment
  • Sundsvall Energi
  • Synthos
  • Sysav
  • Tai'an Zhongke Environment
  • Takarazuka City
  • Tammervoima Oy
  • Taqa
  • Tata
  • Tekniska Verken
  • Termizo
  • The Waste and Resources Action Programme (WRAP)
  • Tianjin Electric Power
  • Tianjin Taihuan Recycling Resource Utilization
  • Tianjin Teda
  • Tianjin-Binhai Environmental Industry Development
  • TIRU
  • Trisun Green Energy Co
  • Trisun International
  • TRM
  • Turku Energia
  • Uddevalla Energi
  • Umea Energi
  • Urbaser Balfour Beatty
  • VafabMiljö
  • Vantaan Energia
  • Västervik
  • Vattenfall
  • Veolia
  • Vietnam Waste Solutions
  • Viridor
  • Warsaw City
  • Wasatch Integrated Waste Management District
  • Waste Gas Technology UK
  • Waste Infrastructure Grants
  • Waste Management
  • Weiming
  • West Akikawa Sanitation Union
  • Westenergy Oy
  • Wheelabrator
  • Würzburg
  • Wuxi Xuelang Environmental Technology
  • Xcel Energy
  • Xiamen Municipal Environmental Energy Investment Development
  • Yokosuka City
  • Yorii Eco Services Corp
  • ZAC
  • Zaklad Utylizacyjny
  • Zevo
  • Zhangzhou Environment Renewable Energy
  • Zhanjiang
  • Zhaodong Longjie Environmental Protection
  • Zhaoyuan
  • Zhejiang Wanna
  • ZhongDe
  • Zhongshan South
  • Zhucheng Baoyuan New Energy Power Generation
  • Zweckverband Abfallwirtschaft Raum

Government Agencies and Other Organisations Mentioned in This Report

  • Asian Development Bank
  • Bradford City Council
  • Calderdale Council
  • Canadian Government
  • Center of Intelligent Spatial Computing for Water/Energy Science (CISC)
  • China Energy Conservation and Environmental Protection (CECEP)
  • China National Development and Reform Commission
  • Chinese Academy of Sciences
  • Dan Municipal Sanitation Association
  • Devon County Council
  • Energy Information Administration (EIA)
  • European Commission
  • European Union (EU)
  • Glasgow Recycling and Renewable Energy Centre (GRREC)
  • Green Energy Centre
  • Hunan Yonker Environmental Protection
  • Independent Police Complaints Commission (IPCC)
  • Merseyside Recycling and Waste Authority
  • Nordic Investment Bank (NIB)
  • Norfolk County Council
  • North Yorkshire County Council
  • Peel Energy Recovery Centre
  • Peel Regional Council
  • Polish Ministry of Environment
  • Senate Finance Committee
  • Severnside Energy Recovery Centre
  • South Korean government
  • Taiwanese Environmental Protection Agency
  • Thailand's Ministry of Natural Resources and Environment
  • The Organisation for Economic Co-operation and Development (OECD
  • The Slovak Investment and Trade Development Agency (SARIO)
  • The Department for Environment, Food and Rural Affairs (Defra)
  • United Nations (UN)
  • United States Environmental Protection Agency (EPA)
  • Waste-to-Energy Research and Technology Council (WTERT)
  • World Bank
  • Worldwide Holdings Bhd
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