This 210 page report addresses the development of the global wastewater treatment to energy market, analysing the prospects for 3 submarkets and 10 leading national markets, and including CAPEX, OPEX and number of installations for the period 2016-2026 broken down into the heat, power and biomethane submarkets. It also includes the historical number of installations for a number of nations.
Through extensive research and discussions with experts in the industry, Visiongain has identified a series of market trends that will impact the wastewater treatment to energy market over the coming decade. Do not miss an opportunity to remain informed of key market dynamics and investment opportunities. Contact us to learn more about the report today.
Visiongain’s forecasts indicate that the Global Wastewater Treatment to Energy (WWTtE) Market 2016-2026 will see a total expenditure of $486.1m in 2016.
The report will answer questions such as: • What are the prospects for wastewater treatment to energy markets in different regions across the world? • Which nations have the most wastewater treatment to energy facilities? • What is the outlook for the three main end-use applications of wastewater treatment to energy (heat, power and biomethane) • How is the wastewater treatment to energy market use changing and what are the main drivers and restraints for this change? • What impact does governmental regulation have on the growth of national wastewater treatment to energy markets? • What are the typical capital expenditures necessary for bringing a wastewater treatment to energy facility online? • What are the typical operation and maintenance costs associated with a wastewater treatment to energy facility? • Where are the main areas of technological development expected to come from in the coming decade?
FIVE reasons why you must order and read this report today:
1) The report provides CAPEX and OPEX forecasts, as well as analysis, for the global market and for 3 wastewater treatment to energy submarkets by end use from 2016-2026 – Heat Forecast 2016-2026 – Power Forecast 2016-2026 – Biomethane Forecast 2016-2026
2) The report includes CAPEX, OPEX and end use (Heat, Power and Biomethane) forecasts and detailed analysis of developments in ten national markets and 4 regional Markets from 2016 to 2026 – North America WWTtE Market Forecast 2016-2026 – Asia-Pacific WWTtE Market Forecast 2016-2026 – European WWTtE Market Forecast 2016-2026 – Rest of the World WWTtE Market Forecast 2016-2026
– Canadian WWTtE Market Forecast 2016-2026 – US WWTtE Market Forecast 2016-2026 – Australian WWTtE Market Forecast 2016-2026 – South Korean WWTtE Market Forecast 2016-2026European – Danish WWTtE Market Forecast 2016-2026 – French WWTtE Market Forecast 2016-2026 – German WWTtE Market Forecast 2016-2026 – Swiss WWTtE Market Forecast 2016-2026 – Swedish WWTtE Market Forecast 2016-2026 – UK WWTtE Market Forecast 2016-2026
3) The report includes forecasts for the number of heat, power and biomethane plants in ten leading national markets from 2016-2026 – Canadian WWTtE Number of Installations Forecast 2016-2026 – US WWTtE Number of Installations Forecast 2016-2026 – Australian WWTtE Number of Installations Forecast 2016-2026 – South Korean WWTtE Number of Installations Forecast 2016-2026 – Danish WWTtE Number of Installations Forecast 2016-2026 – French WWTtE Number of Installations Forecast 2016-2026 – German WWTtE Number of Installations Forecast 2016-2026 – Swiss WWTtE Number of Installations Forecast 2016-2026 – Swedish WWTtE Number of Installations Forecast 2016-2026 – UK WWTtE Number of Installations Forecast 2016-2026
4) The analysis is underpinned by our exclusive interviews with leading experts: – Alex Marshall from Clarke Energy – Harro Brons from WELTEC Biopower – Kurt Goddard from FuelCell Energy – Noel Kullavanijaya from Equilibrium Capital – Professor Jörgen Ejlertsson – Dr Virginie Cartier and Graig Rosenberger from Veolia Water Technology – Wilbert Menkvel from Nijhuis Water Technology
5) The report includes detailed profiles of ten leading companies – RWL Water Group – Kemira Water – Malmberg – Xylem Inc – APROVIS Energy Systems – Veolia – AAT Biogas Technology – Hitchai Zosen INOVA – PlanET Biogas – GE Water
This independent 210 page report guarantees you will remain better informed than your competitors. With 192 tables and figures examining the wastewater treatment to energy market space, the report gives you a direct, detailed breakdown of the market. PLUS capital expenditure AND operational expenditure AND forecasts for the number of installations ALL broken down into the heat, power and biomethane submarkets, as well as in Depth analysis, from 2016-2026 will keep your knowledge that one step ahead of your rivals.
This report is essential reading for anyone in the water or energy sector with an interest in wastewater treatment to energy or biogas. Purchasing this report today will allow you to recognise important market opportunities and make informed business decisions.
Visiongain is a trading partner with the US Federal Government CCR Ref number: KD4R6
1. Report Overview 1.1 Global Wastewater Treatment to Energy Market Overview 1.2 Wastewater to Energy Market Segmentation 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 Market Definition 1.8 Methodology 1.9 Frequently Asked Questions (FAQ) 1.10 Associated Visiongain Reports 1.11 About Visiongain
3. Global Wastewater Treatment to Energy Market Forecast 2016-2026 3.1 The Global Wastewater to Energy Market CAPEX Forecast 2016-2026 3.2 The Global Wastewater to Energy Market OPEX Forecast 2016-2026 3.3 Learn Which WWTtE Markets are Most Accessible to New Entrants
4. Wastewater Treatment to Energy Submarket Forecast 2016-2026 4.1 Power WWTtE Submarket Forecast 2016-2026 4.1.1 Drivers and Restraints of the Power Submarket 4.2 Heat WWTtE Submarket Forecast 2016-2026 4.2.1 Drivers and Restraints of the Heat Submarket 4.3 Biomethane WWTtE Submarket Forecast 2016-2026 4.3.1 Drivers and Restraints of the Biomethane Market
5. The North American Wastewater Treatment to Energy Market Forecast 2016-2026 5.1 The Canadian Wastewater Treatment to Energy Market Forecast 2016-2026 5.1.1 Learn About the Submarket Breakdown in the Canadian WWTtE Market 5.1.2 The History of WWTtE in Canada 5.1.3 A New Direction for Canadian Wastewater Treatment 5.2 The US Wastewater Treatment to Energy Market Forecast 2016-2026 5.2.1 Learn About the Submarket Breakdown in the US WWTtE Market 5.2.2 The History of WWTtE in the USA 5.2.3 Promoting Biogas as a Strategy to Reduce Greenhouse Gas Emissions
6. The Asia-Pacific Wastewater Treatment to Energy Market Forecast 2016-2026 6.1 The Australian Wastewater Treatment to Energy Market Forecast 2016-2026 6.1.1 Learn About the Submarket Breakdown in the Australian WWTtE Market 6.1.2 The History of WWTtE in Australia 6.1.3 A Lack of Coherence Between Australian States 6.2 The South Korean Wastewater Treatment to Energy Market Forecast 2016-2026 6.2.1 Learn About the Submarket Breakdown in the South Korean WWTtE Market 6.2.2 The History of the South Korean WWTtE Market 6.2.3 Foreign Investment in South Korean Wastewater Treatment 6.3 Rest of Asia-Pacific Wastewater Treatment to Energy Market Forecast 2016-2026 6.3.1 The Chinese Wastewater Treatment to Energy Market 6.3.2 The Indian Wastewater Treatment to Energy Market 6.3.3 The Japanese Wastewater Treatment to Energy Market
7. The European Wastewater Treatment to Energy Market Forecast 2016-2026 7.1 The Danish Wastewater Treatment to Energy Market 2016-2026 7.1.1 Learn About the Submarket Breakdown in the Danish WWTtE Market 7.1.2 The History of the Danish WWTtE Market 7.1.3 The Future of the Danish Water System 7.2 The French Wastewater Treatment to Energy Market 2016-2026 7.2.1 Learn About the Submarket Breakdown of the French WWTtE Market 7.2.2 The History of the French WWTtE Market 7.2.3 French National Policy and the WWTtE 7.3 The German Wastewater Treatment to Energy Market 2016-2026 7.3.1 Learn About the Submarket Breakdown of the French WWTtE Market 7.3.2 The History of the Germany WWTtE Market 7.3.3 Will the EEG Continues to Drive the German Biogas Industry? 7.4 The Swiss Wastewater Treatment to Energy Market 2016-2026 7.4.1 Learn About the Submarket Breakdown of the Swiss WWTtE Market 7.4.2 The History of the Swiss WWTtE Market 7.4.3 Swiss Investment in Wastewater Treatment 7.5 The Swedish Wastewater Treatment to Energy Market 2016-2026 7.5.1 Learn About the Submarket Breakdown of the Swedish WWTtE Market 7.5.2 The History of the Swedish WWTtE Market 7.5.3 Sweden leads the world in using biogas as a fuel 7.6 The UK Wastewater Treatment to Energy Market 2016-2026 7.6.1 Learn About the Submarket Breakdown of the UK WWTtE Market 7.6.2 The History of the UK WWTtE Market 7.6.3 The Changing Face of Biogas in the UK 7.7 Rest of Europe Wastewater Treatment to Energy Market Forecast 2016-2026 7.7.1 The Spanish Wastewater Treatment to Energy Market 7.7.2 The Italian Wastewater Treatment to Energy Market
8. Rest of the World Wastewater Treatment to Energy Market Forecast 2016-2026 8.1 The Brazilian Wastewater Treatment to Energy Market 8.2 The Mexican Wastewater Treatment to Energy Market
9. PEST Analysis 9.1 Political 9.2 Economic 9.3 Social 9.4 Technological
10. Expert Opinion 10.1 Clarke Energy 10.1.1 Clarke Energy Operations 10.1.2 Key Regulatory Drivers and Restraints 10.1.3 Power Capacity 10.1.4 Main Operational Costs 10.1.5 Average Installation Time 10.1.6 Technological Developments on the Horizon 10.1.7 Importance of Public Understanding 10.1.8 Co-Digestion 10.1.9 Cost Reductions 10.2 WELTEC Biopower 10.2.1 WELTEC’s Operations 10.2.2 Key Drivers and Restraints 10.2.3 Main Operational Costs 10.2.4 The Uses of Biogas 10.2.5 Average EPC Period 10.2.6 Future Plans 10.3 FuelCell Energy 10.3.1 FuelCell Operations 10.3.2 Regulatory Drivers and Restraints 10.3.3 Grid Connection 10.3.4 Operations South Korea 10.3.5 Main Operational Costs and the EPC Period 10.3.6 Lack of AD a Cap on Growth 10.3.7 Future Plans 10.3.8 Importance of Public Understanding 10.4 Equilibrium Capital 10.4.1 Equilibrium Capital Operations 10.4.2 Key Drivers and Restraints 10.4.3 Impact of the Clean Power Plan 10.4.4 Effect of Natural Gas Price Fall 10.5 Scandinavian Biogas 10.5.1 Scandinavian Biogas Operations 10.5.2 Key Regulatory Drivers and Restraints 10.5.3 High Gas Prices in South Korea 10.5.4 Main Operational Costs 10.5.5 End Uses of the Biogas 10.5.6 Future Plans 10.6 Veolia Water Technology “Biothane” (Subsidiary of Veolia) 10.6.1 Biothane’s Operations 10.6.2 Key Regulatory Drivers and Restraints 10.6.3 Typical Project Length 10.6.4 Technological Developments on the Horizon 10.6.5 Cost Reduction 10.7 Nijhuis Water Technology 10.7.1 Nijhuis Water Technology Operations 10.7.2 Key Regulatory Drivers and Restraints 10.7.3 Primary End Uses of the Biogas 10.7.4 Technological Developments on the Horizon 10.7.5 Cost Reduction 10.7.6 Future of the Market
11. Leading Companies 11.1 RWL Water Group 11.2 Kemira Water 11.3 Malmberg 11.4 Xylem Inc 11.5 APROVIS Energy Systems 11.6 Veolia 11.7 AAT Biogas Technology 11.8 Hitchai Zosen INOVA 11.9 PlanET Biogas 11.10 GE Water
12. Conclusions and Recommendations 12.1 Global Wastewater Treatment to Energy Outlook 12.2 Key Findings in the Global Wastewater Treatment to Energy Market 12.3 Recommendations for the Global Wastewater Treatment to Energy Market
13. Glossary
List of Figures Figure 1.1 Global WWTtE Market Regional Breakdown Figure 1.2 Global WWTtE Market Segmentation Figure 2.1 Inputs, Outputs and Processes of a Wastewater Treatment Plant Figure 2.2 Stages of Wastewater Treatment Figure 2.3 Temperatures and the Solubility of CO2 and CH4 Figure 2.4 Global Methane Emissions Forecasts by Region 1990-2030 (MtCO2e) Figure 2.5 Global Methane Emissions Forecasts by Region 1990-2030, Percentage Change (%) Figure 2.6 Global Methane (CH4) Emissions Forecasts by Region in 2016, 2021 and 2026 (% Share) Figure 2.7 Global Methane (CH4) Emissions Forecasts by Sector in 2015, 2020 and 2025 (% Share) Figure 2.8 Global Methane Emissions Forecast by Waste Source 1990-2030 Figure 3.1 Global WWTtE Market Forecast, 2016-2026 Total Expenditure ($m, AGR) Figure 3.2 Global WWTtE Market CAPEX Forecast, 2016-2026 ($m, AGR) Figure 3.3 Leading Regional and National WWTtE Markets CAPEX Forecast, 2016-2026 ($m) Figure 3.4 Leading Regional and National WWTtE Markets Cumulative CAPEX Forecast, 2016-2026 (% Share) Figure 3.5 Leading Regional WWTtE Markets CAPEX Forecast, 2016-2026 ($m) Figure 3.6 Global WWTtE Market OPEX Forecast, 2016-2026 ($m, AGR) Figure 3.7 Leading Regional and National WWTtE Markets OPEX Forecast, 2016-2026 ($m) Figure 3.8 Leading Regional and National WWTtE Markets Cumulative OPEX Forecast, 2016-2026 ($m) Figure 3.9 Leading Regional WWTtE Markets OPEX Forecast, 2016-2026 ($m) Figure 3.10 Leading Regional and National WWTtE Market Growth, 2016 to 2026, OPEX and CAPEX (%) Figure 3.11 Leading Regional and National WWTtE Market Share Change, 2016 to 2026, OPEX and CAPEX (%) Figure 3.12 Barriers to Entry vs. National Market Size (2016-2026: OPEX and CAPEX) vs. CAGR% 2016-2026 ($m, AGR%) Figure 4.1 Power, Heat and Biomethane WWTtE Submarket Forecasts, 2016-2026 ($m, AGR % Total Expenditure) Figure 4.2 Power, Heat and Biomethane WWTtE Submarket, 2016-2026 (% Total Expenditure Market Share Change) Figure 4.3 Power, Heat and Biomethane WWTtE Submarket, 2016-2026 ($m Total Expenditure) Figure 4.4 Power, Heat and Biomethane WWTtE Submarket, 2016-2026 (CAGR %) Figure 4.5 Global Power Submarket Forecasts, 2016-2026 ($m, AGR %) Figure 4.6 Global Power Submarket Share Forecasts, 2016, 2021 and 2026, (% Total Expenditure Share) Figure 4.7 Leading Nations Power Submarket Forecasts, ($m Total Expenditure) Figure 4.8 Global Heat Submarket Forecasts, 2016-2026 ($m, AGR %) Figure 4.9 Global Heat Submarket Share Forecasts, 2016, 2021 and 2026, (% Total Expenditure Share) Figure 4.10 Leading Nations Heat Submarket Forecasts ($m Total Expenditure) Figure 4.11 Global Biomethane Submarket Forecasts, 2016-2026 ($m, AGR %) Figure 4.12 Global Biomethane Submarket Share Forecasts, 2016, 2021 and 2026, (% Total Expenditure Share) Figure 4.13 Leading Nations Biomethane Submarket Forecasts, ($m Total Expenditure) Figure 5.1 North American WWTtE Market Forecast, 2016-2026 ($m, AGR %) Figure 5.2 North American Market Share Forecast, 2016, 2021 and 2026 (% Total Expenditure Share) Figure 5.3 North American Market Share Forecast, 2016, 2021 and 2026 (% CAPEX Share) Figure 5.4 North American Market Share Forecast, 2016, 2021 and 2026 (% OPEX Share) Figure 5.5 Regional Market Forecast, 2016-2026, ($m Total Expenditure) Figure 5.6 Canadian WWTtE Market Forecast 2016-2026 ($m, AGR %) Figure 5.7 Canadian Market Share Forecast, 2016, 2021 and 2026, (% Total Expenditure Share) Figure 5.8 Canadian WWTtE Submarket Forecast 2016-2026 ($m CAPEX) Figure 5.9 Canadian WWTtE Submarket Forecast 2016-2026 ($m OPEX) Figure 5.10 Canadian WWTtE Submarket Forecast 2016-2026 (Number of Plants) Figure 5.11 Proportion of Provincial Canadian Population Served by Secondary Treatment Figure 5.12 US WWTtE Market Forecast 2016-2026 ($m, AGR %) Figure 5.13 US Market Share Forecast, 2016, 2021 and 2026, (% Total Expenditure Share) Figure 5.14 US WWTtE Submarket Forecast 2016-2026 ($m CAPEX) Figure 5.15 US WWTtE Submarket Forecast 2016-2026 ($m OPEX) Figure 5.16 US WWTtE Submarket Forecast 2016-2026 (Number of Plants) Figure 6.1 Asia-Pacific WWTtE Market Forecast, 2016-2026 ($m, AGR %) Figure 6.2 Asia-Pacific Market Share Forecast, 2016, 2021 and 2026 (% Total Expenditure Share) Figure 6.3 Asia Pacific Market Share Forecast, 2016, 2021 and 2026 (% CAPEX Share) Figure 6.4 Asia Pacific Market Share Forecast, 2016, 2021 and 2026 (% OPEX Share) Figure 6.5 Regional Market Forecast, 2016 -2026, ($m Total Expenditure) Figure 6.6 Australian WWTtE Market Forecast 2016-2026 ($m, AGR %) Figure 6.7 Australian Market Share Forecast, 2016, 2021 and 2026 (% Total Expenditure Share) Figure 6.8 Australian WWTtE Submarket Forecast 2016-2026 ($m CAPEX) Figure 6.9 Australian WWTtE Submarket Forecast 2016-2026 ($m OPEX) Figure 6.10 Australian WWTtE Submarket Forecast 2016-2026 (Number of Plants) Figure 6.11 WWTPs in Australia with AD Systems Installed 1984-2015 Figure 6.12 South Korean WWTtE Market Forecast 2016-2026 ($m, AGR %) Figure 6.13 South Korean WWTtE Market Share Forecast, 2016, 2021 and 2026, (% Total Expenditure Share) Figure 6.14 South Korean WWTtE Submarket Forecast 2016-2026 ($m CAPEX) Figure 6.15 South Korean WWTtE Submarket Forecast 2016-2026 ($m CAPEX) Figure 6.16 South Korean WWTtE Submarket Forecast 2016-2026 (Number of Plants) Figure 6.17 WWTPs in Korea with AD Systems Installed 1987-2015 Figure 6.18 Rest of Asia-Pacific Wastewater Treatment to Energy Market Forecast 2016-2026 (Total Expenditure $m, AGR %) Figure 6.19 Rest of Asia-Pacific WWTtE Market Share Forecast, 2016, 2021 and 2026, (% Total Expenditure Share) Figure 7.1 European WWTtE Market Forecast, 2016-2026 ($m, AGR %) Figure 7.2 European WWTtE Market Share Forecast, 2016, 2021 and 2026, (% Total Expenditure Share) Figure 7.3 European WWTtE Market Share Forecast, 2016, 2021 and 2026 (% CAPEX Share) Figure 7.4 European WWTtE Market Share Forecast, 2016, 2021 and 2026 (% OPEX Share) Figure 7.5 Regional WWTtE Market Forecast, 2016 -2026 ($m Total Expenditure) Figure 7.6 Danish WWTtE Market Forecast 2016-2026 ($m, AGR %) Figure 7.7 Danish Market Share Forecast, 2016, 2021 and 2026 (% Total Expenditure Share) Figure 7.8 Danish WWTtE Submarket Forecast 2016-2026 ($m OPEX) Figure 7.9 Danish WWTtE Submarket Forecast 2016-2026 ($m CAPEX) Figure 7.10 Danish WWTtE Submarket Forecast 2016-2026 (Number of Plants) Figure 7.11 WWTPs in Denmark with AD Systems Installed 1988-2015 (Number of Plants) Figure 7.12 French WWTtE Market Forecast 2016-2026 ($m, AGR %) Figure 7.13 French WWTtE Market Share Forecast, 2016, 2021 and 2026, (% Total Expenditure Share) Figure 7.14 French WWTtE Submarket Forecast 2016-2026 ($m OPEX) Figure 7.15 French WWTtE Submarket Forecast 2016-2026 ($m CAPEX) Figure 7.16 French WWTtE Submarket Forecast 2016-2026 (Number of Plants) Figure 7.17 German WWTtE Market Forecast 2016-2026 ($m, AGR %) Figure 7.18 German Market Share Forecast, 2016, 2021 and 2026 (% Total Expenditure Share) Figure 7.19 German WWTtE Submarket Forecast 2016-2026 ($m OPEX) Figure 7.20 German WWTtE Submarket Forecast 2016-2026 ($m OPEX) Figure 7.21 German WWTtE Submarket Forecast 2016-2026 (Number of Plants) Figure 7.22 WWTPs in Germany with AD Systems Installed 1993-2015 (Number of Plants) Figure 7.23 Swiss WWTtE Market Forecast 2016-2026 ($m, AGR %) Figure 7.24 Swiss WWTtE Market Share Forecast, 2016, 2021 and 2026 (% Total Expenditure Share) Figure 7.25 Swiss WWTtE Submarket Forecast 2016-2026 ($m OPEX) Figure 7.26 Swiss WWTtE Submarket Forecast 2016-2026 ($m CAPEX) Figure 7.27 Swiss WWTtE Submarket Forecast 2016-2026 (Number of Plants) Figure 7.28 WWTPs in Switzerland with AD Systems Installed 1972-2015 Figure 7.29 Swedish WWTtE Market Forecast 2016-2026 ($m, AGR %) Figure 7.30 Swedish WWTtE Market Share Forecast, 2016, 2021 and 2026 (% Total Expenditure Share) Figure 7.31 Swedish WWTtE Submarket Forecast 2016-2026 ($m OPEX) Figure 7.32 Swedish WWTtE Submarket Forecast 2016-2026 ($m CAPEX) Figure 7.33 Swedish WWTtE Submarket Forecast 2016-2026 (Number of Plants) Figure 7.34 WWTPs in Sweden with AD Systems Installed 1972-2015 (Number of Plants) Figure 7.35 UK WWTtE Market Forecast 2016-2026 ($m, AGR %) Figure 7.36 UK WWTtE Market Share Forecast, 2016, 2021 and 2026 (% Total Expenditure Share) Figure 7.37 UK WWTtE Submarket Forecast 2016-2026 ($m OPEX) Figure 7.38 UK WWTtE Submarket Forecast 2016-2026 ($m CAPEX) Figure 7.39 UK WWTtE Submarket Forecast 2016-2026 (Number of Plants) Figure 7.40 WWTPs in UK with AD Systems Installed 1972-2015 Figure 7.41 Use of Digestate from AD in UK WWTPS Figure 7.42 Rest of Europe WWTtE Market Forecast 2016-2026 ($m, AGR %) Figure 7.43 Rest of Europe WWTtE Market Share Forecast, 2016, 2021 and 2026, (% Total Expenditure Share) Figure 8.1 Rest of World WWTtE Market Forecast 2016-2026 ($m, AGR %) Figure 8.2 Rest of World WWTtE Market Share Forecast, 2016, 2021 and 2026, (% Total Expenditure Share) Figure 10.1 Diagram of Tri-generation from WWTtE.1 Composition of Biogas Produced from water
List of Tables Table 1.1 Sample WWTtE Market Forecast 2016-2026 Table 2.1 Composition of Biogas Produced from Wastewater Table 2.2 Gas Composition Requirements for Injection into the Grid Table 2.3 Cost Assumptions Table 3.1 Global WWTtE Market Forecast, 2016-2026 Total Expenditure ($m, AGR, CAGR) Table 3.2 Leading Regional and National WWTtE Markets Forecast, 2016-2026 Total Expenditure ($m, AGR) Table 3.3 Global WWTtE Market CAPEX Forecast, 2016-2026 ($m, AGR) Table 3.4 Leading Regional and National WWTtE Markets CAPEX Forecast, 2016-2026 ($m, AGR) Table 3.5 Global WWTtE Market OPEX Forecast, 2016-2026 ($m, AGR) Table 3.6 Leading Regional and National WWTtE Markets OPEX Forecast, 2016-2026 ($m, AGR) Table 4.1 Power, Heat and Biomethane WWTtE Submarket Forecasts, 2016-2026, ($m, AGR % Total Expenditure Table 4.2 Global Power Submarket Forecasts, 2016-2026, ($m, AGR %, CAGR %) Table 4.3 Power Submarket Drivers and Restraints Table 4.4 Global Heat Submarket Forecasts, 2016-2026, ($m, AGR %, CAGR %) Table 4.5 Heat Submarket Drivers and Restraints Table 4.6 Global Biomethane Submarket Forecasts, 2016-2026, ($m, AGR %, CAGR %) Table 4.7 Heat Submarket Drivers and Restraints Table 5.1 North American WWTtE Market Forecast, 2016-2026 ($m, AGR %) Table 5.2 Canadian WWTtE Market Forecast 2016-2026 ($m, AGR %) Table 5.3 Canadian WWTtE Submarket Forecast 2016-2026 ($m OPEX and CAPEX) Table 5.4 Canadian WWTtE Submarket Forecast 2016-2026 (Number of Plants) Table 5.5 Canadian Policy Instruments that Relate to the WWTtE Market Table 5.6 Canadian WWTtE Market Drivers and Restraints Table 5.7 US WWTtE Market Forecast 2016-2026 ($m, AGR %) Table 5.8 US WWTtE Submarket Forecast 2016-2026 ($m OPEX and CAPEX) Table 5.9 US WWTtE Submarket Forecast 2016-2026 (Number of Plants) Table 5.10 US WWTtE Submarket Forecast 2016-2026 (Number of Plants) Table 5.11 US Policy Instruments that Relate to the WWTtE Market Table 5.12 US WWTtE Market Drivers and Restraints Table 6.1 Asia-Pacific WWTtE Market Forecast, 2016-2026 ($m, AGR %) Table 6.2 Australian WWTtE Market Forecast 2016-2026 ($m, AGR %) Table 6.3 Australian WWTtE Submarket Forecast 2016-2026 ($m OPEX and CAPEX) Table 6.4 Australian WWTtE Submarket Forecast 2016-2026 (Number of Plants) Table 6.5 Australian Policy Instruments that Relate to the WWTtE Market Table 6.6 Australian WWTtE Market Drivers and Restraints Table 6.7 South Korean WWTtE Market Forecast 2016-2026 ($m, AGR %) Table 6.8 South Korean WWTtE Submarket Forecast 2016-2026 ($m OPEX and CAPEX) Table 6.9 South Korean WWTtE Submarket Forecast 2016-2026 (Number of Plants) Table 6.10 South Korean Policy Instruments that Relate to the WWTtE Market Table 6.11 South Korean WWTtE Market Drivers and Restraints Table 6.12 Rest of Asia-Pacific Wastewater Treatment to Energy Market Forecast 2016-2026 (Total Expenditure $m, AGR %) Table 7.1 European WWTtE Market Forecast, 2016-2026 ($m, AGR %) Table 7.2 Danish WWTtE Market Forecast 2016-2026 ($m, AGR %) Table 7.3 Danish WWTtE Submarket Forecast 2016-2026 ($m OPEX and CAPEX) Table 7.4 Danish WWTtE Submarket Forecast 2016-2026 (Number of Plants) Table 7.5 Danish Policy Instruments that Relate to the WWTtE Market Table 7.6 Danish WWTtE Market Drivers and Restraints Table 7.7 French WWTtE Market Forecast 2016-2026 ($m, AGR %) Table 7.8 French WWTtE Submarket Forecast 2016-2026 ($m OPEX and CAPEX) Table 7.9 French WWTtE Submarket Forecast 2016-2026 (Number of Plants) Table 7.10 French Policy Instruments that Relate to the WWTtE Market Table 7.11 French WWTtE Market Drivers and Restraints Table 7.12 German WWTtE Market Forecast 2016-2026 ($m, AGR %) Table 7.13 German WWTtE Submarket Forecast 2016-2026 ($m OPEX and CAPEX) Table 7.14 German WWTtE Submarket Forecast 2016-2026 (Number of Plants) Table 7.15 German Policy Instruments that Relate to the WWTtE Market Table 7.16 German WWTtE Market Drivers and Restraints Table 7.17 Swiss WWTtE Market Forecast 2016-2026 ($m, AGR %) Table 7.18 Swiss WWTtE Submarket Forecast 2016-2026 ($m OPEX and CAPEX) Table 7.19 Swiss WWTtE Submarket Forecast 2016-2026 (Number of Plants) Table 7.20 Swiss WWTP Capacity Classes Table 7.21 Swiss Policy Instruments that Relate to the WWTtE Market Table 7.22 Swiss WWTtE Market Drivers and Restraints Table 7.23 Swedish WWTtE Market Forecast 2016-2026 ($m, AGR %) Table 7.24 Swedish WWTtE Submarket Forecast 2016-2026 ($m OPEX and CAPEX) Table 7.25 Swedish WWTtE Submarket Forecast 2016-2026 (Number of Plants) Table 7.26 Swedish Policy Instruments that Relate to the WWTtE Market Table 7.27 Swedish WWTtE Market Drivers and Restraints Table 7.28 UK WWTtE Market Forecast 2016-2026 ($m, AGR %) Table 7.29 UK WWTtE Submarket Forecast 2016-2026 ($m OPEX and CAPEX) Table 7.30 UK WWTtE Submarket Forecast 2016-2026 (Number of Plants) Table 7.31 UK Policy Instruments that Relate to the WWTtE Market Table 7.32 UK WWTtE Market Drivers and Restraints Table 7.33 Rest of Europe WWTtE Market Forecast 2016-2026 ($m, AGR %) Table 8.1 Rest of World WWTtE Market Forecast 2016-2026 ($m, AGR %) Table 11.1 RWL Water Group Profile Table 11.2 Kemira Water Group Profile Table 11.3 Malmberg Water Group Profile Table 11.4 Xylem Profile Table 11.5 APROVIS Profile Table 11.6 Veolia Profile Table 11.7 AAT Biogas Profile Table 11.8 Hitachi Zosen Inova Profile Table 11.9 PlanET Biogas Profile Table 11.10 GE Water Profile
AGL APROVIS AAT biogas Biothane Biogas Zurich BWB Cambi CH2M Convion Clarke Energy DSI – Drake and Scull International Elster Equilibrium Capital ERG Eptisa Eurawasser Fraunhofer IGB Flow Gas FuelCell Energy Gelsenwasser GENeco GE Water Göteborg Energi Hamburg Wasser Hitachi Zosen Inova Imtech UK Kemira Lang O’Rourke Malmberg MCS Melbourne Water Nijhuis Water Technology OEWA Passavant Energy and Environment Posco E&C PlanET biogas RWL water SABESP Saur Severn Trent SIG Suez Environment Swedish Biogas Thames Water Quadrogen Power Systems Veolia VTT Uniflare United Utilities Xylem Wartsilla Weltec Biopower Wessex Water
Other Organisations Mentioned in this Report ABC - American Biogas Association Advisory commission on local public services (France) Aguas de Barcelona Aqualia American Society of Civil Engineers Australian Renewable Energy Agency (ARENA) Brazilian Federal Government Conagua – The National Water Commission (Mexico) CEFC – Clean Energy Finance Corporation (Australia) DANVA – Danish Water and Waste Water Association DECC – Department of Energy and Climate Change (UK) DEFRA – Department for the Environment, Farming and Rural Affairs Departmental Direction of the Territories (France) DOE – (Department of Energy) EIA – Energy Information Administration (USA) EPA – Environment Protection Agency (USA) Environment Canada EU – European Union French National Agency for Water and Aquatic Environemtns German Engineering Federation Government of Canada Inter-service water task force (France) NRC - National Research Council of Canada Ministry of Environment (South Korea) Ministry for Ecology (France) Ministry of Energy (France) Ministry of the Environment (Japan) Ministry of Infrastructure (Japan) Ministry of Tourism (Japan) Ministry of Transport (Japan) Ministry of Land (Japan) Ministry of Sustainable Development (France) Ministry of Territorial Development (France) Public Procurement Office (South Korea) Regional Health Authority (France) RIRDC – Rural Industries Research and Development Corporation (Australia) Swedish Environmental Protection Agency USDA – United States Department of Agriculture (USA)
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Visiongain Publishes Liquefied Natural Gas (LNG) Storage Tank Market Report 2021-2031
In many key markets, the fundamental principles for LNG growth – such as falling domestic supply and increased need for energy – remain intact. In the meanwhile, cheap prices allow for extra penetration of LNG.
The proliferation of the internet and smartphones around the world, as well as increased focus on medical device R&D and adoption of advanced healthcare technologies, as well as rising expenditure on healthcare infrastructure development, particularly in developing economies, are all contributing to the growth of the wearable devices market.
Although the main growth sector in the electric vehicles is lithium batteries in a number of vital medical device, including the ventilators critical to this epidemic (EVs).
Visiongain Publishes Compressed Air Energy Storage (CAES) Market Report 2021-2031
CAES provides a wide range of advantages for energy storage in a wide range of applications. Energy savings, increased air quality, improved pressure stability, lower maintenance costs, and longer compressor service life are among the five core benefits of CAES.
Visiongain Energy
Visiongain Energy
Visiongain Energy
