Waste to Energy Market Forecast 2014 2024

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Transcript of Waste to Energy Market Forecast 2014 2024

Page 1: Waste to Energy Market Forecast 2014 2024

©noticeThis material is copyright by visiongain. It is against the law to reproduce any of this material without the prior written agreement of vision-gain. You cannot photocopy, fax, download to database or duplicate in any other way any of the material contained in this report. Each pur-chase and single copy is for personal use only.

Waste to Energy (WtE) Market Forecast 2014-2024

Future Prospects for Leading Energy From Waste (EfW) Companies

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Contents 1. Executive Summary

1.1 Global Waste-to-Energy Market Overview

1.2 Benefits of This Report

1.3 Who is This Report For?

1.4 Methodology

1.5 The Global Waste-to-Energy Market Forecast 2014-2024

1.6 The Regional & Leading National Waste-to-Energy Market Forecasts 2014-2024

2. Introduction to the Waste-to-Energy Market

2.1 Definition of Waste-to-Energy

2.2 Waste-to-Energy Technologies

2.3 The Characteristics and Evolution of Municipal Solid Waste Management

2.4 Major Trends in the Waste-to-Energy Market

3. The Global Waste-to-Energy Market 2014-2024

3.1 The Global Waste-to-Energy Market Forecast 2014-2024

3.2 Global Waste-to-Energy Market Drivers & Restraints

3.2.1 The Issues with Increased Population Growth and Urbanisation

3.2.2 Can Waste-to-Energy Provide Added Energy Security?

3.2.3 Will Landfill Continue?

3.2.4 Do the Economics of Waste-to-Energy Stack Up?

3.2.5 High Costs and Limited Funding: Restraints for the Waste-to-Energy Market

3.2.6 Are Government Policies Driving the Waste-to-Energy Market?

3.2.7 Pollution, NIMBYism, Recycling: Public Opposition to Waste-to-Energy

3.3 A Balanced Argument: An Outlook for Waste-to-Energy

4. The Leading National Waste-to-Energy Markets 2014-2024

4.1 The European Waste-to-Energy Market

4.1.1 A Summary of the Legislation Impacting the European Waste-to-Energy Market

4.1.2 The UK Waste-to-Energy Market Forecast 2014-2024

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Contents 4.1.2.1 Current Status of Waste-to-Energy in the UK

4.1.2.2 Drivers and Restraints in the UK Waste-to-Energy Market

4.1.2.2.1 High Costs on Landfill Continue to Drive the UK WtE Market

4.1.2.2.2 Is Environmental Legislation Pressuring the WtE Market?

4.1.2.2.3 LATS and Waste Infrastructure Grants are Shelved

4.1.2.2.4 Fears of Overcapacity, Alternative Options and European

Competition

4.1.2.2.5 The Impact of Public Opposition

4.1.2.3 Major UK Waste-to-Energy Projects

4.1.3 The Finnish Waste-to-Energy Market Forecast 2014-2024

4.1.3.1 Current Status of Waste-to-Energy in Finland

4.1.3.2 Drivers and Restraints in the Finnish Waste-to-Energy Market

4.1.3.2.1 Is a Tough Waste Plan Prompting Improvement in Finland?

4.1.3.2.2 Finland’s Waste-to-Energy Market is Restricted

4.1.3.3 Major Finnish Waste-to-Energy Projects

4.1.4 The Italian Waste-to-Energy Market Forecast 2013-2023

4.1.4.1 Current Status of Waste-to-Energy in Italy

4.1.4.2 Major Italian Waste-to-Energy Projects

4.1.4.3 Drivers and Restraints in the Italian Waste-to-Energy Market

4.1.4.3.1 Will Italian Targets Force the Waste-to-Energy Market to

Grow?

4.1.4.3.2 Are Restraining Factors Going to Inhibit the Italian Market?

4.1.5 The Polish Waste-to-Energy Market Forecast 2013-2023

4.1.5.1 Analysis of the Current Polish Waste-to-Energy Market

4.1.5.2 Major Polish Waste-to-Energy Projects

4.1.5.3 Drivers and Restraints in the Polish Waste-to-Energy Market

4.1.5.3.1 The Effect of New Legislation and National Targets on Poland’s

Waste-to-Energy Market

4.1.5.3.2 Will Funding Support and PPPs Aid Waste-to-Energy?

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Contents 4.1.5.3.3 New Processes and Legal Uncertainties: Can Poland Still

Attract Investment?

4.1.6 The Danish Waste-to-Energy Market Forecast 2014-2024

4.1.6.1 Analysis of the Current Danish Waste-to-Energy Market

4.1.6.2 Major Danish Waste-to-Energy Projects

4.1.6.3 Drivers and Restraints in the Danish Waste-to-Energy Market

4.1.6.3.1 A History of Incineration: Denmark’s Energy Recovery Past

4.1.6.3.2 Is Denmark Going to Focus More on Recycling?

4.1.7 The Rest of Europe Waste-to-Energy Market Forecast 2014-2024

4.1.7.1 The Rest of Europe Waste-to-Energy Projects

4.1.7.2 The Emerging Markets of Eastern Europe

4.1.7.2.1 The Bulgarian Waste-to-Energy Market

4.1.7.2.2 The Croatian Waste-to-Energy Market

4.1.7.2.3 The Czech Waste-to-Energy Market

4.1.7.2.4 The Estonian Waste-to-Energy Market

4.1.7.2.5 The Lithuanian Waste-to-Energy Market

4.1.7.2.6 The Romanian Waste-to-Energy Market

4.1.7.2.7 The Slovakian Waste-to-Energy Market

4.1.7.2.8 The Slovenian Waste-to-Energy Market

4.1.7.3 The Developed Markets of Northern and Western Europe

4.1.7.3.1 The Dutch Waste-to-Energy Market

4.1.7.3.2 The French Waste-to-Energy Market

4.1.7.3.3 The German Waste-to-Energy Market

4.1.7.3.4 The Norwegian Waste-to-Energy Market

4.1.7.3.5 The Swedish Waste-to-Energy Market

4.2 The Asia-Pacific Waste-to-Energy Market

4.2.1 The Chinese Waste-to-Energy Market Forecast 2014-2024

4.2.1.1 Current Status of the Chinese Waste-to-Energy Market

4.2.1.2 Drivers and Restraints in the Chinese Waste-to-Energy Market

4.2.1.2.1 Rising Levels of Waste and Pollution Causing Issues in China

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Contents 4.2.1.2.2 Accelerating Energy Demand Could Lead to an Increase in

Waste-to-Energy

4.2.1.2.3 The 12th Five Year Plan and the CDM as Drivers

4.2.1.2.4 What are the Issues with the Waste-to-Energy Plants in China?

4.2.1.2.5 Public Opposition: The Fight Against Incineration in China

4.2.1.3 Major Chinese Waste-to-Energy Projects

4.2.2 The Japanese Waste-to-Energy Market Forecast 2014-2024

4.2.2.1 The Analysis of the Current Japanese Waste-to-Energy Market

4.2.2.2 Major Japanese Waste-to-Energy Projects

4.2.2.3 Drivers and Restraints in the Japanese Waste-to-Energy Market

4.2.2.3.1 What Potential is there for Japanese Waste-to-Energy Growth?

4.2.2.3.2 Can the Japanese Waste-to-Energy Market Keep Growing?

4.2.4 The Rest of Asia Pacific Waste-to-Energy Market Forecast 2013-2023

4.2.4.1 Rest of Asia Pacific Waste-to-Energy Facilities and Upcoming Projects

4.2.4.2 Analysis Rest of Asia Pacific Waste-to-Energy Market

4.2.4.2.1 Australia’s Landfill Rates Must Decrease

4.2.4.2.2 The Opportunity for Foreign Investment in China

4.2.4.2.3 What About the Indonesian Market Outlook?

4.2.4.2.4 The Waste-to-Energy Potential in Malaysia

4.2.4.2.5 Growth in Waste-to-Energy in the Philippines?

4.2.4.2.6 The Waste-to-Energy Market in Singapore

4.2.4.2.7 Will Recycling Dominate over Waste-to-Energy in South Korea?

4.2.4.2.8 Will the Taiwanese Market Grow?

4.2.4.2.9 Can Thailand’s Waste-to-Energy Market Grow?

4.2.4.2.10 Vietnam’s Waste-to-Energy Market

4.3 The North American Waste-to-Energy Market

4.3.1 The US Waste-to-Energy Market Forecast 2014-2024

4.3.1.1 Analysis of the Current US Waste-to-Energy Market

4.3.1.2 Major US Waste-to-Energy Projects

4.3.1.3 Drivers and Restraints in the US Waste-to-Energy Market

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Contents 4.3.1.3.1 The Problems with Municipal Waste in the US

4.3.1.3.2 US Waste Legislation and Renewable Energy Potential

4.3.1.3.3 Waste Management at State Level

4.3.1.3.4 High Costs and Strong Public Opinion

4.3.2 The Canadian Waste-to-Energy Market Forecast 2014-2024

4.3.2.1 Analysis of the Canadian Waste-to-Energy Market

4.3.2.2 Major Canadian Waste-to-Energy Projects

4.3.2.3 Drivers and Restraints in the Canadian Waste-to-Energy Market

4.3.2.3.1 Why is Waste-to-Energy Set to Grow in Canada?

4.3.2.3.1 What is Holding the Canadian Market Back?

4.4 The Rest of the World Waste-to-Energy Market Forecast 2014-2024

4.4.1 Waste-to-Energy Projects in the Rest of the World

4.4.2 Analysis of the Rest of the World Waste-to-Energy Market

5. PEST Analysis of the Waste-to-Energy Market 2014-2024

6. Expert Opinion

6.1 Keppel Seghers

6.1.1 What are the Main Drivers and Restraints for the Global Waste-to-Energy Market?

6.1.2 A Focus on Technology: Will Pyrolysis and Gasification Grow?

6.1.3 How Important is the Chinese Waste-to-Energy Market?

6.1.4 What Potential Can Be Found in Other Asian Waste-to-Energy Markets?

6.1.5 What is the Future for Europe?

6.2 ENERGOS

6.2.1 ENERGOS’ Role in the Waste-to-Energy Market

6.2.2 What is Driving and Restricting the Waste-to-Energy Market?

6.2.3 What is the Future for Europe?

6.2.4 Global Growth? Where the Waste-to-Energy Market Could Develop

6.2.5 The Future for Gasification

6.3 Confederation of European Waste-to-Energy Plants (CEWEP)

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Contents 6.3.1 CEWEP’s Role in the Waste-to-Energy Market

6.3.2 What is Happening in the European Waste-to-Energy Market?

6.3.3 Could a Drive for Recycling Impact the Waste-to-Energy Market?

6.3.4 The Global Waste-to-Energy Market

6.4 Oschatz

6.4.1 Oschatz’s Role in the Waste-to-Energy Market

6.4.2 The Main Drivers in the Waste-to-Energy Market

6.4.3 The Effects of High Costs in the Waste-to-Energy Market

6.4.4 A Focus on Europe: Experiences and Opportunities

6.4.5 What is the Global Picture for Waste-to-Energy?

7. Leading Companies in the Waste-to-Energy Market

7.1 Waste-to-Energy Market Shares

7.2 Babcock & Wilcox Vølund A/S

7.2.1 Babcock & Wilcox Vølund Analysis

7.2.2 Babcock & Wilcox Vølund Regional Focus

7.2.3 Future Outlook

7.3 C&G Environmental Protection Holdings Limited

7.3.1 C&G Environmental Protection Holdings Limited Analysis

7.3.2 C&G Environmental Protection Holdings Limited Regional Focus

7.3.3 Future Outlook

7.4 China Everbright International Limited

7.4.1 China Everbright International Limited Analysis

7.4.2 China Everbright International Limited Regional Focus

7.4.3 Future Outlook

7.5 CNIM

7.5.1 CNIM Analysis

7.5.2 CNIM Regional Focus

7.5.3 Future Outlook

7.6 Covanta Energy Corporation

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Contents 7.6.1 Covanta Energy Analysis

7.6.2 Covanta Energy Regional Focus

7.6.3 Future Outlook

7.7 Hitachi Zosen Inova AG

7.7.1 Hitachi Zosen Inova Analysis

7.7.2 Hitachi Zosen Inova Regional Focus

7.7.3 Future Outlook

7.8 Keppel Seghers

7.8.1 Keppel Seghers Analysis

7.8.2 Keppel Seghers Regional Focus

7.8.3 Future Outlook

7.9 MARTIN GmbH

7.9.1 MARTIN GmbH Analysis

7.9.2 MARTIN GmbH Regional Focus

7.9.3 Future Outlook

7.10 Mitsubishi Heavy Industries Environmental & Chemical Engineering (MHIEC)

7.10.1 Mitsubishi Heavy Industries Environmental & Chemical Analysis

7.10.2 Mitsubishi Heavy Industries Environmental & Chemical Regional Focus

7.10.3 Future Outlook

7.11 Suez Environnement (SITA)

7.11.1 Suez Environnement Analysis

7.11.2 Suez Environnement Regional Focus

7.11.3 Future Outlook

7.12 Wheelabrator Technologies Inc.

7.12.1 Wheelabrator Technologies Inc. Analysis

7.12.2 Wheelabrator Technologies Inc. Regional Focus

7.12.3 Future Outlook

7.13 Viridor

7.13.1 Viridor Analysis

7.13.2 Viridor Regional Focus

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Contents 7.13.3 Future Outlook

7.14 Other Leading Companies in the Waste-to-Energy Market

8. Conclusions

8.1 The Global Waste-to-Energy Market Outlook

8.2 Key Regional & National Findings

8.3 Recommendations

9. Glossary

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Contents List of Tables Table 1.1 Regional & Leading National Waste-to-Energy Market Forecasts Summary 2014, 2019, 2024 ($m, CAGR

%)

Table 2.1 Sources of Municipal Solid Waste

Table 2.2 Income Streams Available for the Waste-to-Energy Market

Table 3.1 Global Waste-to-Energy Market Forecast 2014-2024 ($m, AGR %, CAGR %, Cumulative)

Table 3.2 Global Waste-to-Energy Market Drivers & Restraints

Table 4.1 Regional & Leading National Waste-to-Energy Market Forecasts 2014-2024 ($m, AGR %)

Table 4.2 Leading National Waste-to-Energy Markets Cumulative Spending 2014-2024 (Rank, $m)

Table 4.3 European Waste-to-Energy Market Forecast 2014-2024 ($m, AGR %, CAGR %, Cumulative)

Table 4.4 European Union Legislation and Policies Impacting the Waste-to-Energy Market (Title, Date, Details)

Table 4.5 UK Waste-to-Energy Market Forecast 2014-2024 ($m, AGR %, CAGR %, Cumulative)

Table 4.6 Key UK WtE Statistics (Population, MSW/year, Incineration rate, Landfill rate, Recycling rate, WtE

Facilities, WtE Capacity, New Plants)

Table 4.7 Drivers and Restraints in the UK Waste-to-Energy Market 2014-2024

Table 4.8 UK WtE Projects (Company, Project Title, Capacity, MW Capacity, Investment, Completion Year)

Table 4.9 Finnish Waste-to-Energy Market Forecast 2014-2024 ($m, AGR %, CAGR %, Cumulative)

Table 4.10 Key Finnish WtE Statistics (Population, MSW/year, Incineration rate, landfill rate, Recycling rate, WtE

Facilities, WtE Capacity, New Plants)

Table 4.11 Finnish WtE Projects (Company, Project Title, Capacity, MW Capacity, Investment, Completion Year)

Table 4.12 Italian Waste-to-Energy Market Forecast 2014-2024 ($m, AGR %, CAGR %, Cumulative)

Table 4.13 Key Italian WtE Statistics (Population, MSW/year, Incineration rate, Landfill rate Recycling rate, WtE

Facilities, WtE Capacity, New Plants)

Table 4.14 Italian WtE Projects (Company, Capacity, Investment, Completion Year)

Table 4.15 Drivers and Restraints in the Italian Waste-to-Energy Market 2014-2024

Table 4.16 Polish Waste-to-Energy Market Forecast 2014-2024 ($m, AGR %, CAGR %, Cumulative)

Table 4.17 Key Polish WtE Statistics (Population, MSW/year, Incineration rate, Landfill rate Recycling rate, WtE

Facilities, WtE Capacity, New Plants)

Table 4.18 Polish WtE Projects (Company, Capacity, Investment, Completion Year)

Table 4.19 Drivers and Restraints in the Polish Waste-to-Energy Market 2014-2024

Table 4.20 Danish Waste-to-Energy Market Forecast 2014-2024 ($m, AGR%, CAGR%, Cumulative)

Table 4.21 Key Danish WtE Statistics (Population, MSW/year, Incineration rate, Landfill rate, Recycling rate, WtE

Facilities, WtE Capacity, New Plants)

Table 4.22 Danish WtE Projects (Company, Project Title, Capacity, MW Capacity, Investment, Completion Year)

Table 4.23 Drivers and Restraints in the Danish Waste-to-Energy Market 2014-2024

Table 4.24 Rest of Europe Waste-to-Energy Market Forecast 2014-2024 ($m, AGR %, CAGR %, Cumulative)

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Contents Table 4.25 Rest of Europe Waste-to-Energy Facilities by Country

Table 4.26 Asia Pacific Waste-to-Energy Market Forecast 2014-2024 ($m, AGR %, CAGR %, Cumulative)

Table 4.27 Chinese Waste-to-Energy Market Forecast 2014-2024 ($m, AGR %, CAGR %, Cumulative)

Table 4.28 Key Chinese WtE Statistics (Population, MSW/year, Incineration rate, Landfill rate, Recycling rate, WtE

Facilities, WtE Capacity, New Plants)

Table 4.29 Drivers and Restraints in the Chinese Waste-to-Energy Market 2014-2024

Table 4.30 Chinese Waste-to-Energy Projects (Company, Project, Capacity (t/d), Completion Year)

Table 4.31 Japanese Waste-to-Energy Market Forecast 2014-2024 ($m, AGR %, CAGR %, Cumulative)

Table 4.32 Key Japanese WtE Statistics (Population, MSW/year, Incineration rate, Landfill rate, Recycling rate, WtE

Facilities, WtE Capacity, New Plants)

Table 4.33 Japanese WtE Projects (Company, Project, Capacity, Completion Year)

Table 4.34 Drivers and Restraints in the Japanese Waste-to-Energy Market 2014-2024

Table 4.35 Rest of Asia-Pacific Waste-to-Energy Market Forecast 2014-2024 ($m, AGR %, CAGR %, Cumulative)

Table 4.36 Current & New WtE Facilities in the Rest of the Asia Pacific by Country

Table 4.37 North American Waste-to-Energy Market Forecast 2014-2024 ($m, AGR %, CAGR %, Cumulative)

Table 4.38 The US Waste-to-Energy Market Forecast 2014-2024 ($m, AGR %, CAGR %, Cumulative)

Table 4.39 Key US WtE Statistics (Population, MSW/year, Incineration rate, Landfill rate Recycling rate, WtE

Facilities, WtE Capacity, New Plants)

Table 4.40 US WtE Projects (Company, Capacity, Investment, Completion Year)

Table 4.41 Drivers and Restraints in the US Waste-to-Energy Market 2014-2024

Table 4.42 Canadian Waste-to-Energy Market Forecast 2014-2024 ($m, AGR %, CAGR %, Cumulative)

Table 4.43 Key Canadian WtE Statistics (Population, MSW/year, Incineration rate, Landfill rate Recycling rate, WtE

Facilities, WtE Capacity, New Plants)

Table 4.44 Canadian Waste-to-Energy Projects (Company, Capacity, Investment, Completion Year)

Table 4.45 Drivers and Restraints in the Canadian Waste-to-Energy Market 2014-2024

Table 4.46 Rest of the World Waste-to-Energy Market Forecast 2014-2024 ($m, AGR %, CAGR %, Cumulative)

Table 4.47 Major WtE Projects in the Rest of the World (Company, Country, Capacity, Investment, completion Year)

Table 5.1 PEST Analysis of the Waste-to-Energy Market 2014-2024

Table 7.1 The Leading Waste-to-Energy Companies (Market Ranking, Market Share %)

Table 7.2 Babcock & Wilcox Vølund Overview (Total Revenue 2012, 2014 Global Market Share %, 2014 Market

Rank, HQ, Employees, Website)

Table 7.3 Babcock & Wilcox Vølund Waste-to-Energy Projects (Project, Country, Capacity, Completion Year)

Table 7.4 Babcock & Wilcox Vølund Company Divisions & Capabilities

Table 7.5 C&G Environmental Protection Overview (Total Revenue 2012, 2014 Global Market Share %, 2014

Market Rank, HQ, Employees, Ticker, Contact, Website)

Table 7.6 C&G Environmental Protection Waste-to-Energy Projects (Project, Country, Capacity, Completion Year)

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Contents Table 7.7 China Everbright Overview (Total Revenue 2013, % Revenue from WtE, 2014 Global Market Share %,

2014 Market Rank, HQ, Employees, Ticker, Website)

Table 7.8 China Everbright Waste-to-Energy Projects (Project, Country, Capacity, Completion Year)

Table 7.9 China Everbright Company Divisions & Capabilities

Table 7.10 CNIM Overview (Total Revenue, Revenue from Market, % Revenue From Market,2014 Global Market

Share %, 2014 Market Rank, HQ, Ticker, Website)

Table 7.11 CNIM Waste-to-Energy Projects (Project, Country, Capacity, Completion Year)

Table 7.12 CNIM Company Divisions & Capabilities

Table 7.13 Covanta Energy Corporation Overview (Total Revenue 2012, 2014 Global Market Share %, 2014 Market

Rank, HQ, Employees, Ticker, Contact, Website)

Table 7.14 Covanta Energy Corporation Waste-to-Energy Projects (Project, Country, Capacity, Cost, Completion

Year)

Table 7.15 Hitachi Zosen Inova Overview (Total Revenue, 2014 Global Market Share %, 2014 Market Rank, HQ,

Employees, Website)

Table 7.16 Hitachi Zosen Inova Waste-to-Energy Projects (Project, Country, Capacity, Completion Year)

Table 7.17 Keppel Seghers Overview (Total Revenue, % Revenue from Infrastructure Division, 2014 Global Market

Share %, 2014 Market Rank, Employees, HQ, Ticker, Website)

Table 7.18 Keppel Seghers Waste-to-Energy Projects (Project, Country, Capacity, Completion year)

Table 7.19 Keppel Seghers Company Divisions & Capabilities

Table 7.20 MARTIN Overview (Total Revenue, 2014 Global Market Share %, 2014 Market Rank, HQ, Employees,

Website)

Table 7.21 Projects using MARTIN Technology from 2012 (Project, Country, Capacity, Thermal Capacity,

Completion Year)

Table 7.22 Mitsubishi Heavy Industries Environmental & Chemical (Total Revenue, 2013 Global Market Share %,

2013 Market Rank, HQ, Employees, Ticker, Website)

Table 7.23 Mitsubishi Heavy Industries Environmental & Chemical Waste-to-Energy Projects (Project, Country,

Capacity, Completion Year)

Table 7.24 Mitsubishi Heavy Industries Environmental & Chemical Divisions & Capabilities

Table 7.25 Suez Environnement Overview (Total Revenue, % Revenue From Waste Market, 2014 Global Market

Share %, 2014 Market Rank, HQ, Employees, Ticker, Website)

Table 7.26 Suez Environnement Waste-to-Energy Projects (Project, Country, Capacity, Cost, Completion Year)

Table 7.27 Wheelabrator Technologies Inc. Overview (Total Revenue, % Revenue From Waste Market, 2014 Global

Market Share %, 2014 Market Rank, HQ, Employees, Website)

Table 7.28 Wheelabrator Technologies Inc. Waste-to-Energy Projects (Project, Country, Capacity, Completion Year) Table 7.29 Viridor Overview (Total Revenue, 2014 Global Market Share %, 2014 Market Rank, HQ, Employees,

Website)

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Contents Table 7.30 Viridor Waste-to-Energy Projects (Project, Country, Capacity, Completion Year) Table 7.31 Other Leading Companies in the Waste-to-Energy Market (Company, Activity)

Table 8.1 Regional & Leading National Waste-to-Energy Market Forecasts Summary 2014, 2019, 2024 ($m), 2014-

2024 CAGR (%)

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Contents List of Figures 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 3.1 Global Waste-to-Energy Market Forecast 2014-2024 ($m, AGR %)

Figure 3.2 Regional Waste-to-Energy Market Forecast 2014-2024 ($m)

Figure 4.1 Leading National Waste-to-Energy Markets Forecast 2014-2024 ($m)

Figure 4.2 Leading National Waste-to-Energy Markets Share Forecast 2014 (%)

Figure 4.3 Leading National Waste-to-Energy Markets Share Forecast 2019 (%)

Figure 4.4 Leading National Waste-to-Energy Markets Share Forecast 2024 (%)

Figure 4.5 Leading National Waste-to-Energy Markets Share Change 2014-2024(%)

Figure 4.6 Barriers to Entry vs. National Market Size vs. CAGR 2014-2024 ($m, CAGR%)

Figure 4.7 European Waste-to-Energy Market Forecast 2014-2024 ($bn, AGR %)

Figure 4.8 UK Waste-to-Energy Market Forecast 2014-2024 ($m, AGR %)

Figure 4.9 UK Waste-to-Energy Market Share Forecast 2014, 2019 and 2024 (% Share)

Figure 4.10 UK Waste Hierarchy

Figure 4.11 UK Waste-to-Energy Capacity (Mtpa) 2011-2017

Figure 4.12 Finnish Waste-to-Energy Market Forecast 2014-2024 ($m, AGR %)

Figure 4.13 Finnish Waste-to-Energy Market Share Forecast 2014, 2019 and 2024 (% Share)

Figure 4.14 Finnish Waste-to-Energy Capacity (Mtpa) 2011-2017

Figure 4.15 Italian Waste-to-Energy Market Forecast 2014-2024 ($m, AGR %)

Figure 4.16 Italian Waste-to-Energy Market Share Forecast 2014, 2019 and 2024 (% Share)

Figure 4.17 Top 15 Waste Producers in Europe by kg/capita

Figure 4.18 Italian Waste-to-Energy Capacity (Mtpa) 2011-2017

Figure 4.19 Polish Waste-to-Energy Market Forecast 2014-2024 ($m, AGR %)

Figure 4.20 Polish Waste-to-Energy Market Share Forecast 2014, 2019 and 2024 (% Share)

Figure 4.21 Polish Waste-to-Energy Capacity (Mtpa) 2011-2017

Figure 4.22 Danish Waste-to-Energy Market Forecast 2014-2024 ($m, AGR %)

Figure 4.23 Danish Waste-to-Energy Market Share Forecast 2014, 2019 and 2024 (% Share)

Figure 4.24 Breakdown of Danish Municipal Waste Management 2011

Figure 4.25 Danish Waste-to-Energy Capacity (Mtpa) 2011-2017

Figure 4.26 Municipal Solid Waste Generated and Waste Incinerated in Denmark 2002-2011

Figure 4.27 Rest of Europe Waste-to-Energy Market Forecast 2014-2024 ($m, AGR %)

Figure 4.28 Rest of Europe Waste-to-Energy Market Share Forecast 2014, 2019 and 2024 (% Share)

Figure 4.29 Rest of Europe Waste-to-Energy Capacity (Mtpa) 2011-2017

Figure 4.30 Asia Pacific Waste-to-Energy Market Forecast 2014-2024 ($m, AGR %)

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Contents Figure 4.31 Chinese Waste-to-Energy Market Forecast 2014-2024 ($m, AGR %)

Figure 4.32 Chinese Waste-to-Energy Market Share Forecast 2014, 2019 and 2024 (% Share)

Figure 4.33 Chinese Waste-to-Energy Capacity (Mtpa) 2011-2017

Figure 4.34 Japanese Waste-to-Energy Market Forecast 2014-2024 ($m, AGR %)

Figure 4.35 Japanese Waste-to-Energy Market Share Forecast 2014, 2019 and 2024 (% Share)

Figure 4.36 Japanese Waste-to-Energy Capacity (Mtpa) 2011-2017

Figure 4.37 Rest of Asia-Pacific Waste-to-Energy Market Forecast 2014-2024 ($m, AGR %)

Figure 4.38 The Rest of Asia-Pacific Waste-to-Energy Market Share Forecast 2014, 2019 and 2024 (% Share)

Figure 4.39 North American Waste-to-Energy Market Forecast 2014-2024 ($m, AGR %)

Figure 4.40 The US Waste-to-Energy Market Forecast 2014-2024 ($m, AGR %)

Figure 4.41 The US Waste-to-Energy Market Share Forecast 2014, 2019 and 2024 (% Share)

Figure 4.42 US Waste-to-Energy Capacity (Mtpa) 2011-2017

Figure 4.43 Canadian Waste-to-Energy Market Forecast 2014-2024 ($m, AGR %)

Figure 4.44 Canadian Waste-to-Energy Market Share Forecast 2014, 2019 and 2024 (% Share)

Figure 4.45 Canadian Waste-to-Energy Capacity (Mtpa) 2011-2017

Figure 4.46 Rest of the World Waste-to-Energy Market Forecast 2014-2024 ($m, AGR %)

Figure 4.47 Rest of the World Waste-to-Energy Market Share Forecast 2014, 2019 and 2024 (% Share)

Figure 7.1 The Major Companies Involved in the Waste-to-Energy Market

Figure 7.2 Leading Companies in Waste-to-Energy Market Share (% share)

Figure 8.1 Regional Waste-to-Energy Market Forecast ($m) & AGR (%) 2014-2024

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Contents Companies Mentioned in This Report Abengoa

Advanced Plasma Power Ltd.

AECOM

Algae Tech.

Algonquin

AmeyCespa

Anaergia Services

Aquilini Renewable Energy

Astaldi Group

B&W Power Generation Group Ibc.

B&W Vølund

Baumgarte Boder Systems GmbH

BP

C&G Environmental Protection Holdings Ltd

China Everbright

CJ Global Green Energy Philippines Group

CNIM

Covanta Energy Corporation

Dan Municipal Sanitation Association

Doosan

Dynamis Group

E.ON Energy from Waste

Ekokem

Elementa Group

ENERGOS

Esti Energia

Eunomia

FCC Environment

Fiberight LLC

Fisia Babcock Environment

Fortum

Foster Wheeler

Grandblue Environmental Protection

Grontmij

Hitachi Zosen Inova

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Contents HPOWER Incinerator

IMPSA

International Electric Power

Iren

Jindal TF

Jinjiang Group

Kara/NOVEREN

Keppel Seghers

KfW

KIC Odpady

LECH

Linhai Weiming Environment Protection and Energy Co. Ltd.

Ma’anshuan Urban Development Investment Group

Marcegaglia Energy

Martin GmbH

Maui Electric

Mercia Waste Management

MHIEC

Mizuda

Mostostal Warsawa

New Energy Corp

NewEarth Solutions

Nordic Investment Bank

Onyx Ta-Ho Environmental Services

Origin Renewable Energy

Oschatz

Peel Environmental

Pertamina

Phoenix Energy

Pirkanmaa Waste Management

Planara

Plantec Inc

Plasco

Plenary Group

Posco E&C

Poyry

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Contents Proctor & Gamble Co.

Ramboll

Romelectro

Sangfeng Covanta

Sembcorp

Shanghai Environment Group

Shanghai Laogang Comprehensive Waste Development

Shanks Group Plc

SHI

SITA Scandinavia

SITA UK

SITA Zielona Energia

Sound Environment

Spencer Group

State Communal Enterprise, Koktem

Suez Environnement

Tampere Power Utility

Tata

TIRU

Toplofikacia

TRM

Urbaser

Vantaan Energia

Veolia Environmental Services

Virdor

Waste Recycling Group

WasteUK Ltd

Westenergy

Wheelabrator Technologies Inc.

Whiting Turner

Worldwide Holdings Bhd

Wuhan Shenneng Environmental Engineering

Zhejiang Weiming Environmental Protection Co. Ltd.

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Contents Government Agencies and Other Organisations Mentioned in This Report Asian Development Bank

Bradford City Council

Chinese Academy of Sciences

Clean Association of Tokyo23

Confederation of European Waste-to-Energy Plants (CEWEP)

Defra

Energy Information Administration (EIA)

European Commission

European Union

Eurostat

HM Revenue and Customs (HMRC)

Inter Municipal Waste Management Department, Konin

Intergovernmental Panel on Climate Change (IPCC)

Japanese New Energy and Industry Technology Development Organisation

Lords Select Committee on Science and Technology

Norfolk County Council

North Yorkshire County Council

Ontario Power Authority

Organisation for Economic Co-operation and Development (OECD)

Peel Government

Senate Finance Committee

Slovak Investment and Trade Development Agency (SARIO)

Taiwanese Environmental Protection Agency

The World Bank

United Nations Framework Convention on Climate Change (UNFCCC)

Waste and Resources Action Programme (WRAP)

Waste to Energy International (WTEI)

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Waste-to-Energy (WtE) Market Forecast 2014-2024: Future Prospects For Leading Energy From Waste (EfW) Companies

4.2.1 The Chinese Waste-to-Energy Market Forecast 2014-2024 China’s waste-to-energy market forecast for 2014-2024 is presented below in Table 4.18 and

Figure 4.31.

2013 2014 2015 2016 2017 2018 2019 2020 2021 2022 2023 2024 2014-24CAPEX ($m) 1,330 1,729 2,282 2,647 1,853 1,483 1,334 1,361 1,402 1,479 1,568 1,630 18,769AGR 30.0 32.0 16.0 -30.0 -20.0 -10.0 2.0 3.0 5.5 6.0 4.0

2019-24CAGR (%) 2014-19 -5.1 4.1CAGR (%) 2014-24 -0.6

-40%

-30%

-20%

-10%

0%

10%

20%

30%

40%

0

500

1,000

1,500

2,000

2,500

3,000

2013 2014 2015 2016 2017 2018 2019 2020 2021 2022 2023 2024

AGR

$m

Year

Source: Visiongain 2014

Source: Visiongain 2014

Figure 4.31 Chinese Waste-to-Energy Market Forecast 2014-2024 ($m, AGR %)

Table 4.27 Chinese Waste-to-Energy Market Forecast 2014-2024 ($m, AGR %, CAGR %, Cumulative)

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Waste-to-Energy (WtE) Market Forecast 2014-2024: Future Prospects For Leading Energy From Waste (EfW) Companies

4.2.2.2 Major Japanese Waste-to-Energy Projects Table 4.33 lists the planned WtE projects over the coming years in Japan. They are a mixture of

new plants and retrofits/extensions.

Company Project Capacity (tonnes/day) Completion Year Hitachi Zosen Inova Hayami 235 2013

Hitachi Zosen Inova Matsuyama City 420 2013 Hitachi Zosen Inova Naka-Kita Sorachi 85 2013 MHIEC Akita City 460 2015 MHIEC Central Iwate 180 2015 Plantec Inc Ito, Shizuoka 142 2015 MHIEC Takarazuka, Hyogo 320 2015 MHIEC Oita City 438 2015 Clean Association of Tokyo23 Nerima (Tokyo) 600 2016 MHIEC Nagasaki 240 2016

Although the market for new plants may be slowing in Japan, there is ample opportunity for

Japanese WtE companies to extend their production in other regional markets, particularly

throughout Asia-Pacific. Figure 4.36 identifies the high levels of WtE capacity already existing in

Japan.

0

4

8

12

16

20

24

28

32

36

40

2011 2012 2013 2014 2015 2016 2017

Capa

city

Mtp

a

Year

Table 4.33 Japanese WtE Projects (Company, Project, Capacity, Completion Year)

Source: Visiongain 2014

Figure 4.36 Japanese Waste-to-Energy Capacity (Mtpa) 2011-2017

Source: Visiongain 2014

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Waste-to-Energy (WtE) Market Forecast 2014-2024: Future Prospects For Leading Energy From Waste (EfW) Companies

6. Expert Opinion

6.1 Keppel Seghers

Keppel Seghers is a global technology provider for the Waste-to-Energy sector. To date, Keppel

Seghers has implemented in excess of 100 Waste-to-Energy projects worldwide. Waste-to-Energy

plant locations include Singapore, China, Germany and the United Kingdom.

Visiongain spoke to Mr. Geeraert, Sales and Business Development Manager, in January 2014

and would like to thank him for his contribution to the report.

6.1.1 What are the Main Drivers and Restraints for the Global Waste-to-

Energy Market? Visiongain: Increasing levels of waste and urbanisation are commonly offered as drivers for the

Waste-to-Energy market. What would you say are the main drivers and restraints of the Waste-to-

Energy market currently?

Tomas Geeraert: The following drivers and constraints apply:

1. Europe: The main driver remains the landfill ban. The constraints include the greater focus of

re-use and recycling as well as overcapacity in some countries.

2. MENA and SEA: The main driver is environmental problems due to increasing levels of waste

and urbanisation. The constraints are:

i) Clear long term policy/ framework related to tariffs and tipping fees, allowing private

investors to setup a viable business model and allowing them to secure finance.

ii) Lack of experience on the government side with Waste-to-Energy, and a lack of clear

vision related to the business model (EPC, BOO, …)

iii) Lack of infrastructure for appropriate collection of household waste

iv) Negative public perception.

3. China: the main drivers are environmental problems and the 5 year plans from the

government. The constraints for foreign suppliers include the import barriers and the fierce

(price) competition on the local market.

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Waste-to-Energy (WtE) Market Forecast 2014-2024: Future Prospects For Leading Energy From Waste (EfW) Companies

Project Country Capacity t/day Completion Year Jinjiang, Fujian China 1,800 2005

(2010 Expansion) Anxi, Fujian China 800 2011 Huangshi, Hubei China 800 2011 Huian, Fujian China 800 2011 C&G Fuqing Plant China 800 2011 Langfang China 1,000 2012 Jiangyang, Fujian China 600 2012 Nanping, Fujian China 600 2013 Xiaogan China 700 2014 Anxi Phase 2, Fujian China 300 2014 Nong Khaem Thailand 500 2014 Dalian China 1,000 2015 Guiyang China 2,000 2015

7.3.1 C&G Environmental Protection Holdings Limited Analysis C&G Environmental Protection Holdings Limited is a comparatively new company to the WtE

market, signing its first WtE contract with Jinjiang City in 2003. Since then the company has seen

strong growth.

The company markets itself on its low cost adaptable technology, which has turned C&G into one

of the largest WtE providers in China. Its early move into the WtE market in China has allowed

C&G to quickly gain market share and mounting experience in the increasingly competitive

Chinese market. The current WtE projects C&G runs in China are contracted for between 27 and

30 years providing the company with a steady revenue stream. Additional plans to improve their

technology further, including efficiency improvements, will further their competitive ability.

A further boost could be when their WtE plant capacity reaches full. Currently, the plants are not

running at full capacity and are therefore not running optimally for investor return. When the plants

are using full capacity of waste, the company will be in a stronger position to further development

due to experience.

Source: Visiongain 2014

Table 7.6 C&G Environmental Protection Waste-to-Energy Projects (Project, Country, Capacity, Completion Year)