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Waste to Energy (WtE) Yearbook 2018

Waste to Energy (WtE) Yearbook 2018

Visiongain assesses that CAPEX on Waste-to-Energy will reach $15.4bn in 2018.

With a combination of mounting environmental concerns, increased governmental policy, more stringent renewable targets and a desire for increased domestic energy production, WtE is set for significant growth. Although some areas, namely Europe and parts of North America and Asia, have an established WtE market, there are real prospects for growth in regions such as Asia-Pacific and Eastern Europe.

Visiongain’s report will ensure that you keep informed and ahead of your competitors. Gain that competitive advantage.

Report Scope: Waste-to-Energy (WtE) facilities are plants using municipal solid waste as a primary fuel source for energy production, this includes combustion and advanced thermal. The report covers the capex spending for new and upgraded WtE plants globally. The report also forecasts municipal waste processing by capacity for national markets through to 2028.

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?
Report Broken down by 5 major segments in WtE Market:

1. Waste to Thermal Energy

2. Biological Waste to Energy

3. Wastewater Treatment to Energy (WWTtE)

4. Wastewater Treatment to Heat Energy (WWTtHE)

5. Wastewater Treatment to Biogas Energy (WWTtBE)

5 Reasons why you must order and read this report today:

1) The report provides market share and detailed profiles of 21 leading companies operating within the waste-to-energy market:
  • Covanta Energy
  • China Everbright
  • Sembcorp Industries
  • Suez Environment (SITA)
  • Keppel Seghers Belgium N.V.
  • Babcock & Wilcox Volund A/S
  • Mitsubishi Heavy Industries Environmental & Chemical Engineering CO. Ltd.
  • Viridor
  • Veolia Environmental
  • Wheelabrator
  • Clean Association of Tokyo 23
  • MVV Energie AG
  • China Metallurgical Group
  • GCL-Poly
  • EQT AB
  • EDF
  • Fluence Corporation
  • Kemira Oyj
  • PlanET Biogas Global GmbH
  • Hitachi Zosen Inova AG
  • Xylem
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:
  • The UK Waste-to-Energy Market Forecast 2018-2028
  • The Polish Waste-to-Energy Market Forecast 2018-2028
  • The Irish Waste-to-Energy Market Forecast 2018-2028
  • The Danish Waste-to-Energy Market Forecast 2018-2028
  • The Finnish Waste-to-Energy Market Forecast 2018-2028
  • The Italian Waste-to-Energy Market Forecast 2018-2028
  • The Swedish Waste-to-Energy Market Forecast 2018-2028
  • The Czech Waste-to-Energy Market Forecast 2018-2028
  • The Rest of Europe Waste-to-Energy Market Forecast 2018-2028
  • The Chinese Waste-to-Energy Market Forecast 2018-2028
  • The Japanese Waste-to-Energy Market Forecast 2018-2028
  • The Rest of Asia-Pacific Waste-to-Energy Market Forecast 2018-2028
  • The US Waste-to-Energy Market Forecast 2018-2028
  • The Canadian Waste-to-Energy Market Forecast 2018-2028
  • The Rest of the World Waste-to-Energy Market Forecast 2018-2028
3) The analysis is underpinned by an exclusive interview with leading waste-to-energy experts:
  • Keppel Corporation Sales Manager
  • Veolia Water Division Engineer
4) Discover details of hundreds of waste-to-energy projects revealing the following information in most cases:
  • Company
  • Project name
  • TPA capacity
  • $m investment
  • Completion year
  • Operational 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 500+ page report guarantees you will remain better informed than your competition. With 300+ 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 and capacity forecasts from 2018-2028, as well as analysis, aiding your knowledge and remaining that step ahead and helping you to succeed.

Please Note: Prior to initiating fulfillment of an order, the client will be required to sign a document detailing the purchase terms for a publication from this publisher.

The publisher is using a password system to access all reports. Single user (non-printable) and departmental licenses expires after 12 month period. In the case of departmental site license purchases, the publisher requires all email addresses for the licensed users prior to fulfillment.


1. Report Overview
1.1 WtE Yearbook 2018: The Definitive Reference Guide
1.2 Market Definition
1.2.1 Waste-to-Energy (WtE)Definition
1.2.2 Wastewater Treatment to Energy (WWTE) Market Definition
1.3 Methodology
1.3.1. Waste-to-Energy Market Forecast Methodology
1.3.2 Wastewater Treatment to Energy (WWTE) Market Forecast Methodology
1.4 Why You Should Read This Report
1.5 Benefits of This Report (Sample Data)
1.6 Structure of This Report
1.7 Key Questions Answered by This Analytical Report Include:
1.8 Why You Should Read This Report
1.9 Frequently Asked Questions (FAQ)
1.10 Associated Visiongain Reports
1.11 About Visiongain
1.12 Global Waste to Energy and Wastewater to Energy Market Segmentation
1.13 Global Waste to Energy Market Overview
1.14 Global Wastewater Treatment to Energy Market Overview
2. Introduction to the WtE Market
2.1 The Role and Function of Waste to Energy Technologies
2.1.1 The Characteristics and Evolution of MSW Management
2.2 The Role of Wastewater Treatment to Energy (WWTE)
2.2.1 Feedstock and Co-digestion
2.2.2 Pre-treatment Technologies
2.2.3 Anaerobic Digestion
2.2.4 Flaring
2.2.5 Biogas Utilisation
2.2.5.1 Biogas Upgrading
2.2.5.2 Water Scrubbing
2.2.5.3 Pressure Swing Absorption (PSA)
2.2.5.4 Membrane Scrubbing
2.2.5.5 Cryogenic Technology
2.2.5.6 Chemical Scrubbing
2.2.5.7 Organic Physical Scrubbing
2.2.5.8 Biomethane
3. The Global LNG Market
3.1 The Global LNG Submarket Forecasts
3.2 The Global WtE and WWTE Market Analysis
4. Global Overview of Waste-to-Energy Market
4.1 Global Waste-to-Energy Market Drivers & Restraints
4.2 Global Waste to Energy Submarkets Forecasts, by Type 2018-2028
4.2.1 Global Thermal Waste to Energy Forecasts 2018-2028
4.2.2 Global Biological Waste to Energy Forecasts 2018-2028
5. Leading National and Regional Waste-to-Energy Markets 2018-2028
5.1 The UK Waste-to-Energy Market Forecast 2018-2028
5.1.1 Drivers and Restraints in the UK Waste-to-Energy Market
5.1.2 Government Policy Focusing on Reduction and Recycling
5.1.3 Major UK Waste-to-Energy Projects
5.2 The Polish Waste-to-Energy Market Forecast 2018-2028
5.2.1 Current Status of Waste-to-Energy in Poland
5.2.2 Drivers and restraints in the Polish Waste-to-Energy market
5.2.3 Major Polish Waste-to-Energy Projects
5.3 The Irish Waste-to-Energy Market Forecast 2018-2028
5.3.1 Current Status of Waste-to-Energy in Ireland
5.3.2 Major Irish Waste-to-Energy Projects
5.4 The Danish Waste-to-Energy Market Forecast 2018-2028
5.4.1 Current Status of Waste-to-Energy in Denmark
5.4.2 Drivers and Restraints in the Danish Waste-to-Energy Market
5.4.3 Major Danish Waste-to-Energy Projects
5.5 The Finnish Waste-to-Energy Market Forecast 2018-2028
5.5.1 Current Status of Waste-to-Energy in Finland
5.5.2 Drivers and Restraints in the Finnish Waste-to-Energy Market
5.6 The Italian Waste-to-Energy Market Forecast 2018-2028
5.6.1 Current Status of Waste-to-Energy in Italy
5.6.2 Drivers and Restraints in the Italian Waste-to-Energy Market
5.7 The Swedish Waste-to-Energy Market Forecast 2018-2028
5.7.1 Current Status of Waste-to-Energy in Sweden
5.7.2 Drivers and Restraints in the Swedish Waste-to-Energy Market
5.7.3 Major Swedish Waste-to-Energy Projects
5.8 The Czech Republic Waste-to-Energy Market Forecast 2018-2028
5.8.1 Current Status of Waste-to-Energy in Czech Republic Market
5.8.2 Major Czech Waste-to-Energy Projects
5.9 Rest of Europe Waste-to-Energy Market Forecast 2018-2028
5.9.1 The Rest of Europe Waste-to-Energy Projects
5.9.2 The Emerging Markets of Eastern Europe
5.9.2.1 The Bulgarian Waste-to-Energy Market
5.9.2.2 The Croatian Waste-to-Energy Market
5.9.2.3 The Estonian Waste-to-Energy Market
5.9.2.4 The Lithuanian Waste-to-Energy Market
5.9.2.5 The Romanian Waste-to-Energy Market
5.9.2.6 The Slovakian Waste-to-Energy Market
5.9.2.7 The Slovenian Waste-to-Energy Market
5.9.3 The developed Markets of Northern and Western Europe
5.9.3.1 The Netherlands Waste-to-Energy Market
5.9.3.2 The French Waste-to-Energy Market
5.9.3.3 The German Waste-to-Energy Market
5.9.3.4 The Norwegian Waste-to-Energy Market
5.10 The Chinese Waste-to-Energy Market Forecast 2018-2028
5.10.1 Current Status of the Chinese Waste-to-Energy Market
5.10.2 Drivers and restraints in the Chinese Waste-to-Energy Market
5.10.3 Major Chinese Waste-to-Energy Projects
5.11 The Japanese Waste-to-Energy Market Forecast 2018-2028
5.11.1 Current Status of Waste-to-Energy in Japan
5.11.2 Drivers and Restraints in the Japanese Waste-to-Energy Market
5.11.3 Major Japanese Waste-to-Energy Projects
5.12 Rest of Asia Pacific Waste-to-Energy Market Forecast 2018-2028
5.12.1 Rest of Asia Pacific Waste-to-Energy Facilities and Upcoming Projects
5.12.2 Analysis of the Current Australian Waste-to-Energy Market
5.12.3 Drivers and Restraints in the Australian Waste-to-Energy Market
5.12.4 What About the Indonesian Market Outlook?
5.12.5 The Waste to Energy Potential in Malaysia
5.12.6 Waste-to-Energy Growth Potential in the Philippines
5.12.7 The Waste-to-Energy market in Singapore
5.12.8 Will Recycling Dominate over Waste-to-Energy in South Korea?
5.12.9 Will the Taiwanese Market Grow?
5.12.10 Can Thailand’s Waste-to-Energy Market Grow?
5.12.11 Vietnam’s Waste-to-Energy Market
5.13 The US Waste-to-Energy Market Forecast 2018-2028
5.13.1 Current Status of Waste-to-Energy in the US Market
5.13.2 Drivers and Restraints in the US Waste-to-Energy Market
5.13.3 Major US Waste-to-Energy Projects
5.14 The Canadian Waste-to-Energy Market Forecast 2018-2028
5.14.1 Current Status of Waste-to-Energy in Canada
5.14.2 Drivers and restraints in the Canadian Waste-to-Energy Market
5.14.3 Major Canadian Waste-to-Energy Projects
5. 15 The Rest of the World Waste-to-Energy Market 2018-2028
5.15.1 Waste-to-Energy Projects in the Rest of the World
5.15.2 Analysis of the Rest of the World Waste-to-Energy Market
5.15.3 WTE Potential in the Middle East
6. Global Overview of Wastewater Treatment to Energy Market
6.1 Global Wastewater Treatment to Energy Submarkets Forecasts, by End-use 2018-2028
6.1.1 Global Power Wastewater Treatment to Energy Forecasts 2018-2028
6.1.2 Global Heat Wastewater Treatment to Energy Forecasts 2018-2028
6.1.3 Global Biomethane Wastewater Treatment to Energy Forecasts 2018-2028
7. Leading National and Regional Wastewater Treatment to Energy Markets 2018-2028
7.1 The Canada Wastewater Treatment to Energy Market Forecast 2018-2028
7.1.1 The Canada Wastewater Treatment to Energy Market Forecast, by End-use 2018-2028
7.1.2 Drivers and Restraints in the Canada Wastewater Treatment to Energy Market
7.2 The U.S. Wastewater Treatment to Energy Market Forecast 2018-2028
7.2.1 The U.S. Wastewater Treatment to Energy Market Forecast, by End-use 2018-2028
7.2.2 Drivers and Restraints in the US Wastewater Treatment to Energy Market
7.3 The Australia Wastewater Treatment to Energy Market Forecast 2018-2028
7.3.1 The Australia Wastewater Treatment to Energy Market Forecast, by End-use 2018-2028
7.3.2 Drivers and Restraints in the Australia Wastewater Treatment to Energy Market
7.4 The South Korea Wastewater Treatment to Energy Market Forecast 2018-2028
7.4.1 The South Korea Wastewater Treatment to Energy Market Forecast, by End-use 2018-2028
7.4.2 Drivers and Restraints in the South Korean Wastewater Treatment to Energy Market
7.5 The Rest of Asia Pacific Wastewater Treatment to Energy Market Forecast 2018-2028
7.5.1 The Rest of Asia Pacific Wastewater Treatment to Energy Market Forecast, by End-use 2018-2028
7.5.2 Drivers and Restraints in the Rest of Asia Pacific Wastewater Treatment to Energy Market
7.6 The Denmark Wastewater Treatment to Energy Market Forecast 2018-2028
7.6.1 The Denmark Wastewater Treatment to Energy Market Forecast, by End-use 2018-2028
7.6.2 Drivers and Restraints in the Denmark Wastewater Treatment to Energy Market
7.7 The France Wastewater Treatment to Energy Market Forecast 2018-2028
7.7.1 The France Wastewater Treatment to Energy Market Forecast, by End-use 2018-2028
7.7.2 Drivers and Restraints in the France Wastewater Treatment to Energy Market
7.8 The Germany Wastewater Treatment to Energy Market Forecast 2018-2028
7.8.1 The Germany Wastewater Treatment to Energy Market Forecast, by End-use 2018-2028
7.8.2 Drivers and Restraints in the German Wastewater Treatment to Energy Market
7.9 The Switzerland Wastewater Treatment to Energy Market Forecast 2018-2028
7.9.1 The Switzerland Wastewater Treatment to Energy Market Forecast, by End-use 2018-2028
7.9.2 Drivers and Restraints in the Swiss Wastewater Treatment to Energy Market
7.10 The Sweden Wastewater Treatment to Energy Market Forecast 2018-2028
7.10.1 The Sweden Wastewater Treatment to Energy Market Forecast, by End-use 2018-2028
7.10.2 Drivers and Restraints in the Swedish Wastewater Treatment to Energy Market
7.11 The U.K. Wastewater Treatment to Energy Market Forecast 2018-2028
7.11.1 The U.K. Wastewater Treatment to Energy Market Forecast, by End-use 2018-2028
7.11.2 Drivers and Restraints in the UK Wastewater Treatment to Energy Market
7.12 The Rest of Europe Wastewater Treatment to Energy Market Forecast 2018-2028
7.12.1 The Rest of Europe Wastewater Treatment to Energy Market Forecast, by End-use 2018-2028
7.12.2 Drivers and Restraints in the Rest of Europe Wastewater Treatment to Energy Market
7.13 The Rest of the World (RoW) Wastewater Treatment to Energy Market Forecast 2018-2028
7.13.1 The Rest of the World (RoW) Wastewater Treatment to Energy Market Forecast, by End-use 2018-2028
8. PEST Analysis
8.1.1 Political Impact
8.1.2 Economic Impact
8.1.3 Social Impact
8.1.4 Technological Impact
8.2.1 Political Impact
8.2.2 Economic Impact
8.2.3 Social Impact
8.2.4 Technological Impact
9. Expert Opinion
9.1 Waste to Energy Market
9.1.1 Primary Correspondents
9.1.2 Waste-to-energy Market Outlook
9.1.3 Driver & Restraints
9.1.4 Dominant Region in the Waste-to-energy Market
9.1.5 Overall Growth Rate, Globally
9.2 Wastewater Treatment to Energy Market
9.2.1 Primary Correspondents
9.2.2 Wastewater treatment-to-energy Market Outlook
9.2.3 Driver & Restraints
9.2.4 Dominant Region/nation in the Wastewater treatment-to-energy Market
9.2.5 Overall Growth Rate, Globally
10. Leading Companies in Waste-to-Energy Market
10.1 Covanta Energy Corporation
10.1.1 Covanta Energy Corporation Company Analysis
10.1.2 Covanta Energy Corporation Future Outlook & Business Strategy
10.2 China Everbright International Limited
10.2.1 China Everbright International Limited Company Analysis
10.2.2 China Everbright International Limited Future Outlook & Business Strategy
10.3 Sembcorp Industries
10.3.1 Sembcorp Industries Company Analysis
10.3.2 Sembcorp Industries Company Outlook
10.4 Suez Environment (SITA)
10.4.1 Suez Environment (SITA) Company Analysis
10.4.2 Suez Environment (SITA) Company Outlook
10.5 Keppel Seghers Belgium N.V.
10.5.1 Keppel Seghers Belgium N.V. Company Analysis
10.5.2 Keppel Seghers Belgium N.V. Future Outlook & Business Strategy
10.6 Babcock & Wilcox Vølund A/S
10.6.1 Babcock & Wilcox Vølund A/S Company Analysis
10.6.2 Babcock & Wilcox Vølund A/S Future Outlook & Business Strategy
10.7 Mitsubishi Heavy Industries Environmental & Chemical Engineering Co. Ltd. (MHIEC)
10.7.1 Mitsubishi Heavy Industries Environmental & Chemical Engineering Co. Ltd. (MHIEC) Company Analysis
10.7.2 Mitsubishi Heavy Industries Environmental & Chemical Engineering Co. Ltd. (MHIEC) Future Outlook & Business Strategy
10.8 Viridor
10.8.1 Viridor Company Analysis
10.8.2 Future Outlook & Business Strategy
10.9 Veolia Environmental Services
10.9.1 Veolia Environmental Services Business Overview
10.10 Wheelabrator Business Overview
10.10.1 Wheelabrator Recent Developments
10.10.2 Wheelabrator Business Strategy
10.11 Clean Association of Tokyo 23
10.11.1 Clean Association of Tokyo 23 Business Overview
10.11.2 Clean Association of Tokyo 23 Business Strategy
10.12 MVV Energie AG
10.12.1 MVV Energie AG Business Overview
10.12.2 MVV Energie AG Business Strategy
10.13 China Metallurgical Group (MCC)
10.13.1 China Metallurgical Group (MCC) Business Overview
10.13.2 China Metallurgical Group (MCC) Business Strategy
10.14 GCL-Poly
10.14.1 GCL-Poly Business Overview
10.14.2 GCL-Poly Business Strategy
10.15 EQT AB
10.15.1 EQT AB Business Overview
10.15.2 EQT AB Recent Developments
10.16 EDF
10.16.1 EDF Business Overview
10.16.2 EDF Business Strategy
11. Leading Companies in Wastewater Treatment-to-Energy Market
11.1 Fluence Corporation
11.1.1 Fluence Corporation Company Analysis
11.1.2 Fluence Corporation Recent Development & Business Strategy
11.2 Kemira Oyj
11.2.1 Kemira Oyj Company Analysis
11.2.2 Kemira Oyj Future Outlook & Business Strategy
11.3 PlanET Biogas Global GmbH
11.3.1 PlanET Biogas Global GmbH Company Analysis
11.4 Hitachi Zosen Inova AG
11.4.1 Hitachi Zosen Inova AG Company Analysis
11.4.2 Hitachi Zosen Inova AG Future Outlook & Business Strategy
11.5 Xylem
11.5.1 Xylem Business Overview
11.5.2 Xylem Business Strategy
12. Conclusion & Recommendations
12.1 Waste to Energy Market
12.2 Wastewater Treatment to Energy Market
12.2.1 Recommendations for the Global Wastewater Treatment to Energy Market
13. Glossary
Associated Visiongain Reports
Visiongain Report Sales Order Form
Appendix A
About Visiongain
Appendix B
Visiongain report evaluation form
List of Tables
Table 2.1 Income Streams Available for the Waste-to-Energy Market
Table 2.2 Composition of Biogas Produced from Wastewater
Table 3.1 Global WtE CAPEX 2018-2028: Waste to Energy and Wastewater to Energy ($m, AGR %, Cumulative)
Table 3.2 Sources of Municipal Solid Waste
Table 3.3 Gas Composition Requirements for Injection into the Grid
Table 4.1 Global Waste-to-Energy Market Forecast 2018-2028 ($ mn, Mtpa, AGR %, CAGR %, Cumulative)
Table 4.2 Drivers & Restraints
Table 4.3 Global Waste to Energy Market Forecast By Type 2018-2028 ($mn, AGR %, Cumulative)
Table 4.4 Global Thermal Waste to Energy Market Forecast 2018-2028 ($mn, MTPA, AGR %, CAGR %, Cumulative)
Table 4.5 Global Thermal Waste to Energy Market Drivers and Restraints
Table 4.6 Global Biological Waste to Energy Market Forecast 2018-2028 ($mn, MTPA, AGR %, CAGR %, Cumulative)
Table 4.7 Global Biological WtE Drivers and Restraints
Table 5.1 Global Waste-to-Energy Market, by Region Forecast 2018-2028 ($mn, AGR %, CAGR %, Cumulative)
Table 5.2 Global Waste-to-Energy Market, by Region Forecast 2018-2028 (Mtpa, AGR %, CAGR %, Cumulative)
Table 5.3 Top 5 Leading National Waste-to-Energy Market Cumulative spending, $ Mn (2018-2028)
Table 5.4 U.K. Waste-to-Energy Market Forecast 2018-2028 ($ mn, Mtpa, AGR %, CAGR %, Cumulative)
Table 5.5 Key UK WtE Statistics (Population, Annual MSW Production, Annual MSW Production per Capita, Incineration Rate, Landfill Rate, Recycling/Compost Rate, WtE Facilities, WtE Capacity 2017, New Plants (Under Planning / Construction))
Table 5.6 Driver and Restraints in the U.K. Waste-to-Energy Market
Table 5.7 Projects Awarded Contracts for Difference under Allocation Round One (Project Name, Developer, Technology, MW, £ / $ Strike Price, Delivery Year)
Table 5.8 Major UK WtE Projects (Company, Project Title, TPA Capacity, MW Capacity, $m Investment, Completion Year, Status)
Table 5.9 Polish Waste-to-Energy Market Forecast 2018-2028 ($ mn, Mtpa, AGR %, CAGR %, Cumulative)
Table 5.10 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 5.11 Drivers and Restraints in the Polish Waste-to-Energy Market
Table 5.12 Major Polish WtE Projects (Company, Project Title, TPA Capacity, MW Capacity, $m Investment, Completion Year, Status)
Table 5.13 Irish Waste-to-Energy Market Forecast 2018-2028 ($ mn, Mtpa, AGR %, CAGR %, Cumulative)
Table 5.14 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 5.15 Major Irish WtE Projects (Company, Project Title, TPA Capacity, MW Capacity, $m Investment, Completion Year, Status)
Table 5.16 Danish Waste-to-Energy Market Forecast 2018-2028 ($ mn, Mtpa, AGR %, CAGR %, Cumulative)
Table 5.17 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 5.18 Drivers and Restraints in the Danish Waste-to-Energy Market
Table 5.19 Major Danish WtE Projects (Company, Project Title, TPA Capacity, MW Capacity, $m Investment, Completion Year, Status)

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