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市場調查報告書

能源回收型廢水處理 (WWTTE) 的全球市場 按2016-2026年:CAPEX·OPEX·最終用途 (發電·發熱·生物沼氣) 的預測

Global Wastewater Treatment to Energy (WWTtE) Market Report 2017-2027: Forecasts for CAPEX, OPEX, and by End Use, by Region, plus Number of Installations by Leading Country, plus Analysis of Leading Companies Developing Technologies

出版商 Visiongain Ltd 商品編碼 352704
出版日期 內容資訊 英文 255 Pages
商品交期: 最快1-2個工作天內
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能源回收型廢水處理 (WWTTE) 的全球市場 按2016-2026年:CAPEX·OPEX·最終用途 (發電·發熱·生物沼氣) 的預測 Global Wastewater Treatment to Energy (WWTtE) Market Report 2017-2027: Forecasts for CAPEX, OPEX, and by End Use, by Region, plus Number of Installations by Leading Country, plus Analysis of Leading Companies Developing Technologies
出版日期: 2017年09月20日 內容資訊: 英文 255 Pages
簡介

全球能源回收型廢水處理 (WWTTE) 市場預測到2026年的總支出規模將達到4億8,610萬美元。

本報告提供全球能源回收型廢水處理 (WWTTE) 市場相關調查,提供包含子市場及主要國家市場上CAPEX,OPEX及子市場別安裝數的預測分析。

第1章 報告概要

第2章 簡介

  • 原料及共同消化(co-digestion)
  • 事前處理技術
  • 厭氧消化
  • Flaring
  • 沼氣利用
    • 沼氣的升級
    • 生物沼氣
    • 電力
    • 熱能
  • 法規環境
    • 廢水處理法規
  • 支援的結構
    • 固定價格買進制度 (FIT)
    • 減稅
    • 指令,規格及目標
  • 殘餘物
  • 環境問題
  • 成本的預測

第3章 全球能源回收型廢水處理 (WWTTE) 市場預測

  • 全球能源回收型廢水處理 (WWTTE) 市場上CAPEX預測
  • 全球能源回收型廢水處理 (WWTTE) 市場上OPEX預測
  • 對新加入企業來說,哪個WWTTE市場最容易進入

第4章 能源回收型廢水處理 (WWTTE) 的子市場預測

  • 發電WWTTE市場預測
    • 促進要素·抑制因素
  • 發熱WWTTE市場預測
  • 生物沼氣WWTTE市場預測

第5章 北美的能源回收型廢水處理 (WWTTE) 市場預測

  • 加拿大
  • 美國

第6章 亞太地區的能源回收型廢水處理 (WWTTE) 市場預測

  • 澳洲
  • 韓國
  • 其他的亞太地區

第7章 歐洲的能源回收型廢水處理 (WWTTE) 市場預測

  • 荷蘭
  • 法國
  • 德國
  • 瑞士
  • 瑞典
  • 英國
  • 其他的歐洲

第8章 其他 (RoW) 的能源回收型廢水處理 (WWTTE) 市場預測

第9章 PEST分析

  • 政治
  • 經濟
  • 社會
  • 技術性

第10章 專家的見解

  • Clarke Energy
  • WELTEC Biopower
  • FuelCell Energy
  • Equilibrium Capital
  • Scandinavian Biogas
  • Veolia Water Technology "Biothane" (Veolia的子公司)
  • Nijhuis Water Technology

第11章 主要企業

  • RWL Water Group
  • Kemira Water
  • Malmberg
  • Xylem Inc
  • APROVIS Energy Systems
  • Veolia
  • AAT Biogas Technology
  • Hitchai Zosen INOVA
  • PlanET Biogas
  • GE Water

第12章 結論·建議

  • 全球能源回收型廢水處理的展望
  • 全球能源回收型廢水處理市場上主要調查結果
  • 對全球能源回收型廢水處理市場的建議

第13章 用語

圖表

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目錄
Product Code: ENE0106

Title:
GLOBAL WASTEWATER TREATMENT TO ENERGY (WWTTE) MARKET REPORT 2017-2027
Forecasts for CAPEX, OPEX, and by End Use (Power, Heat, Biomethane), by Region, plus Number of Installations by Leading Country, plus Analysis of Leading Companies Developing Technologies Such as Anaerobic Digestion (AD).

Visiongain has calculated that the global WWTtE market will see a total expenditure of $531m in 2017, including both capital and operational expenditures. Read on to discover the potential business opportunities available.

Wastewater treatment to energy (WWTtE) facilities will continue to receive high levels of investment and increasing operational costs over the next ten years. This is reflective of the untapped energy resource found in wastewater and the cost-effective way to run a wastewater treatment plant (WWTP).

Anaerobic digestion (AD) is a proven technology for the treatment of sewage sludge and produces a biogas which is considered a renewable energy. Biogas is primarily made up of methane and carbon dioxide and trace amounts of nitrogen and ammonia. Biogas from wastewater treatment is considered as a carbon-neutral fuel source. There is global pressure on governments to take action on climate change is a key driver of renewable energy policies. If fossil fuels are displaced using biogas, then there is a net reduction in carbon emissions.

There is also a range of financial incentives that can be used to encourage the development of WWTtE facilities. These include tax credits, FITs, purchase agreements and capital subsidies. However, the recent fall in global natural gas prices has complicated the economics of many WWTtE projects. The high levels of energy required to treat wastewater means the fall in gas price will have a limited impact on power and heat projects.

Visiongain's global wastewater treatment to energy market report can keep you informed and up to date with the developments in the market, across four different regions: North America, Europe, Asia Pacific and the Rest of the World. Visiongain has also included in-depth market analysis for the ten leading national markets: Canada, USA, Australia, South Korea, Denmark, France, Germany, Switzerland, Sweden and the UK.

With reference to this report, it details the key investments trend in the global market, subdivided by regions, capital and operational expenditure and project type. Through extensive secondary research and interviews with industry experts, visiongain has identified a series of market trends that will impact the WWTtE market over the forecast timeframe.

The report will answer questions such as:

  • Which regions are likely to experience the most rapid growth over the coming decade?
  • What are the technological trends that are changing the market?
  • How is wastewater biogas use changing and what are the main drivers and restraints for this change?
  • What impact does governmental regulation have on the growth of national WWTtE markets?
  • What are the typical capital expenditures necessary for bringing a WWTtE facility online, including differentiation between electricity and heat generating and biomethane export project types?
  • What are the typical operation and maintenance costs associated with a WWTtE facility, including differentiation between electricity and heat generating and biomethane export project types?

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 2017-2027

  • Heat Forecast 2017-2027
  • Power Forecast 2017-2027
  • Biomethane Forecast 2017-2027

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 2017 to 2027

  • North America WWTtE Market Forecast 2017-2027
  • Asia-Pacific WWTtE Market Forecast 2017-2027
  • European WWTtE Market Forecast 2017-2027
  • Rest of the World WWTtE Market Forecast 2017-2027
  • Canadian WWTtE Market Forecast 2017-2027
  • US WWTtE Market Forecast 2017-2027
  • Australian WWTtE Market Forecast 2017-2027
  • South Korean WWTtE Market Forecast 2017-2027
  • Danish WWTtE Market Forecast 2017-2027
  • French WWTtE Market Forecast 2017-2027
  • German WWTtE Market Forecast 2017-2027
  • Swiss WWTtE Market Forecast 2017-2027
  • Swedish WWTtE Market Forecast 2017-2027
  • UK WWTtE Market Forecast 2017-2027

3) The report includes forecasts for the number of heat, power and biomethane plants in ten leading national markets from 2017-2027

  • Canadian WWTtE Number of Installations Forecast 2017-2027
  • US WWTtE Number of Installations Forecast 2017-2027
  • Australian WWTtE Number of Installations Forecast 2017-2027
  • South Korean WWTtE Number of Installations Forecast 2017-2027
  • Danish WWTtE Number of Installations Forecast 2017-2027
  • French WWTtE Number of Installations Forecast 2017-2027
  • German WWTtE Number of Installations Forecast 2017-2027
  • Swiss WWTtE Number of Installations Forecast 2017-2027
  • Swedish WWTtE Number of Installations Forecast 2017-2027
  • UK WWTtE Number of Installations Forecast 2017-2027

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 provides market share and detailed profiles of the leading companies operating within the WWTtE market:

  • RWL Water Group
  • Kemira Oyj
  • Malmberg Water AB
  • Xylem Inc.
  • APROVIS Energy Systems
  • Veolia Group
  • AAT Biogas Technology
  • Hitachi Zosen INOVA
  • PlanET Biogas
  • GE Water

This independent 255-page report guarantees you will remain better informed than your competitors. With 213 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 2017-2027 will keep your knowledge that one step ahead of your rivals.

This report is essential reading for you or anyone in the WWTtE sectors. 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. Global Wastewater Treatment to Energy Market Overview
  • 1.2. Wastewater to Energy Market Segmentation
  • 1.3. Why You Should Read This Report
  • 1.3. How This Report Delivers
  • 1.4. Key Questions Answered by This Analytical Report Include:
  • 1.5. Who is This Report For?
  • 1.5. Market Definition
  • 1.6. Methodology
  • 1.7. Frequently Asked Questions (FAQ)
  • 1.8. Associated visiongain Reports
  • 1.9. About visiongain

2. Introduction to the Wastewater Treatment to Energy Market

  • 2.1. Feedstock and Co-digestion
  • 2.2. Pre-treatment Technologies
  • 2.3. Anaerobic Digestion
  • 2.4. Flaring
  • 2.5. Biogas Utilisation
    • 2.5.1. Biogas Upgrading
      • 2.5.1.1. Water Scrubbing
      • 2.5.1.2. Pressure Swing Absorption (PSA)
      • 2.5.1.3. Membrane Scrubbing
      • 2.5.1.4. Cryogenic Technology
      • 2.5.1.5. Chemical Scrubbing
      • 2.5.1.6. Organic Physical Scrubbing
    • 2.5.2. Biomethane
    • 2.5.3. Electricity
    • 2.5.4. Heating
  • 2.6. Regulatory Environment
    • 2.6.1. Wastewater Treatment Regulations
  • 2.7. Support Mechanisms
    • 2.7.1. Feed In Tariffs
    • 2.7.2. Tax Relief
    • 2.7.3. Mandates, Standards and Targets
  • 2.8. Digestate
  • 2.9. Environmental Concerns
  • 2.10. Cost Assumptions

3. Global Wastewater to Energy Market Forecast 2017-2027

  • 3.1. The Global Wastewater to Energy Market CAPEX Forecast 2017-2027
  • 3.2. The Global Wastewater to Energy Market OPEX Forecast 2017-2027
  • 3.3. Which WWTtE Markets are Most Accessible to New Entrants

4. Global Wastewater Treatment to Energy by Submarket Forecast 2017-2027

  • 4.1. Power WWTtE Submarket Forecast 2017-2027
    • 4.1.1. Drivers and Restraints of the Power Submarket
  • 4.2. Heat WWTtE Submarket Forecast 2017-2027
    • 4.2.1. Drivers and Restraints of the Heat Submarket
  • 4.3. Biomethane WWTtE Submarket Forecast 2017-2027
    • 4.3.1. Drivers and Restraints of the Biomethane Submarket

5. The North American Wastewater Treatment to Energy Market Forecast 2017-2027

  • 5.1. The Canadian Wastewater to Energy Market Forecast 2017-2027
    • 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 to Energy Market Forecast 2017-2027
    • 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 2017-2027

  • 6.1. The Australian Wastewater to Energy Market Forecast 2017-2027
    • 6.1.1. Learn About the Submarket Breakdown in the Australian WWTtE Market
    • 6.1.2. The History of WWTtE in the Australia
    • 6.1.3. A Lack of Coherence Between Australian States
  • 6.2. The South Korea Wastewater to Energy Market Forecast 2017-2027
    • 6.2.1. Learn About the Submarket Breakdown in the South Korean WWTtE Market
    • 6.2.2. The History of WWTtE in the South Korea
    • 6.2.3. Foreign Investment in South Korean Wastewater Treatment
  • 6.3. The Rest of Asia Pacific Wastewater to Energy Market Forecast 2017-2027
    • 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 Europe Wastewater Treatment to Energy Market Forecast 2017-2027

  • 7.1. The Danish Wastewater to Energy Market Forecast 2017-2027
    • 7.1.1. Learn About the Submarket Breakdown in the Danish WWTtE Market
    • 7.1.2. The Future of the Danish Water System
  • 7.2. The French Wastewater to Energy Market Forecast 2017-2027
    • 7.2.1. Learn About the Submarket Breakdown in the French WWTtE Market
    • 7.2.2. French National Policy and the WWTtE
  • 7.3. The German Wastewater to Energy Market Forecast 2017-2027
    • 7.3.1. Learn About the Submarket Breakdown in the French WWTtE Market
    • 7.3.2. Will the EEG Continue to Drive the German Biogas Industry?
  • 7.4. The Swiss Wastewater to Energy Market Forecast 2017-2027
    • 7.4.1. Learn About the Submarket Breakdown in the Swiss WWTtE Market
    • 7.4.2. Swiss Investment in Wastewater Treatment
  • 7.5. The Swedish Wastewater to Energy Market Forecast 2017-2027
    • 7.5.1. Learn About the Submarket Breakdown in the Swedish WWTtE Market
    • 7.5.2. Sweden Leads the World in Using Biogas as a Fuel
  • 7.6. The UK Wastewater to Energy Market Forecast 2017-2027
    • 7.6.1. Learn About the Submarket Breakdown in the UK WWTtE Market
  • 7.7. Rest of Europe Wastewater to Energy Market Forecast 2017-2027
    • 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 to Energy Market Forecast 2017-2027

  • 8.1. The Brazilian Wastewater Treatment to Energy Market
  • 8.2. The Mexican Wastewater Treatment to Energy Market

9. PEST Analysis of the Wastewater to Energy Market 2017-2027

  • 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. Equilibrum 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. The Leading Companies in the Wastewater Treatment to Energy Market

  • 11.1. RWL Water Group
  • 11.2. Kemira Oyj
    • 11.2.1. Kemira Oyj Total Company Sales 2011-2016
    • 11.2.2. Kemira Oyj Sales in the Wastewater Treatment to Energy Market 2011-2016
  • 11.3. Malmberg Water AB
  • 11.4. Xylem Inc.
    • 11.4.1. Xylem Inc. Total Company Sales 2011-2016
    • 11.4.2. Xylem Inc. Sales in the Wastewater Treatment to Energy Market 2011-2016
  • 11.5. APROVIS Energy Systems
  • 11.6. Veolia Group
    • 11.6.1. Veolia Group Total Company Sales 2012-2016
  • 11.7. AAT Biogas Technology
  • 11.8. Hitachi Zosen INOVA
    • 11.8.1. Hitachi Zosen INOVA Total Company Sales 2012-2016
    • 11.1.9. PlanET Biogas
  • 11.10. GE Water
    • 11.10.1. GE Water Total Company Sales 2012-2016
    • 11.10.2. GE Water Sales in the Wastewater Treatment to Energy Market 2012-2016

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

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

Tables

  • Table 1.1: Sample WWTtE Market Forecast 2017-2027
  • 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, 2017-2027 Total Expenditure ($m, AGR, CAGR)
  • Table 3.2: Leading Regional and National WWTtE Markets Forecast, 2017-2027 Total Expenditure ($m, AGR)
  • Table 3.3: Global WWTtE Market CAPEX Forecast, 2017-2027 ($m, AGR)
  • Table 3.4: Leading Regional and National WWTtE Markets CAPEX Forecast, 2017-2027 ($m, AGR)
  • Table 3.5: Global WWTtE Market OPEX Forecast, 2017-2027 ($m, AGR)
  • Table 3.6: Leading Regional and National WWTtE Markets OPEX Forecast, 2017-2027 ($m, AGR)
  • Table 4.1: Power, Heat and Biomethane WWTtE Submarket Forecasts, 2017-2027 ($m, AGR % Total Expenditure)
  • Table 4.2: Global Power Submarket Forecasts, 2017-2027 ($m, AGR %, CAGR %)
  • Table 4.3: Power Submarket Drivers and Restraints
  • Table 4.4: Global Heat Submarket Forecasts, 2017-2027 ($m, AGR %, CAGR %)
  • Table 4.5: Heat Submarket Drivers and Restraints
  • Table 4.6: Global Biomethane Submarket Forecasts, 2017-2027 ($m, AGR %, CAGR %)
  • Table 4.7: Biomethane Submarket Drivers and Restraints
  • Table 5.1: North American WWTtE Market Forecast, 2017-2027 ($m, AGR %)
  • Table 5.2: Canadian WWTtE Market Forecast 2017-2027 ($m, AGR %)
  • Table 5.3: Canadian WWTtE Submarket Forecast 2017-2027 ($m OPEX and CAPEX)
  • Table 5.4: Canadian WWTtE Submarket Forecast 2017-2027 (Number of Plants)
  • Table 5.5: Canadian Policy Instruments that Relate to the WWTtE Market
  • Table 5.6: Canadian WWTtE Market Drivers and Restraints
  • Table 5.7: US WWTtE Market Forecast 2017-2027 ($m, AGR %)
  • Table 5.8: US WWTtE Submarket Forecast 2017-2027 ($m OPEX and CAPEX)
  • Table 5.9: US WWTtE Submarket Forecast 2017-2027 (Number of Plants)
  • Table 5.10: US WWTtE Submarket Forecast 2017-2027 (Number of Plants)
  • Table 5.11: US Policy Instruments that Relate to the WWTtE Market
  • Table 5.12: US WWTtE Market Drivers and Restraints
  • Table 6.1: Asia Pacific WWTtE Market Forecast, 2017-2027 ($m, AGR %)
  • Table 6.2: Australian WWTtE Market Forecast 2017-2027 ($m, AGR %)
  • Table 6.3: Australian WWTtE Submarket Forecast 2017-2027 ($m OPEX and CAPEX)
  • Table 6.4: Australian WWTtE Submarket Forecast 2017-2027 (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 2017-2027 ($m, AGR %)
  • Table 6.8: South Korean WWTtE Submarket Forecast 2017-2027 ($m OPEX and CAPEX)
  • Table 6.9: South Korean WWTtE Submarket Forecast 2017-2027 (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 2017-2027 (Total Expenditure $m, AGR %)
  • Table 7.1: European WWTtE Market Forecast, 2017-2027 ($m, AGR %)
  • Table 7.2: Danish WWTtE Market Forecast 2017-2027 ($m, AGR %)
  • Table 7.3: Danish WWTtE Submarket Forecast 2017-2027 ($m OPEX and CAPEX)
  • Table 7.4: Danish WWTtE Submarket Forecast 2017-2027 (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 2017-2027 ($m, AGR %)
  • Table 7.8: French WWTtE Submarket Forecast 2017-2027 ($m OPEX and CAPEX)
  • Table 7.9: French WWTtE Submarket Forecast 2017-2027 (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 2017-2027 ($m, AGR %)
  • Table 7.13: German WWTtE Submarket Forecast 2017-2027 ($m OPEX and CAPEX)
  • Table 7.14: German WWTtE Submarket Forecast 2017-2027 (Number of Plants)
  • Table 7.15: German Policy Instruments that Relate to the WWTtE Market
  • Table 7.16: French WWTtE Market Drivers and Restraints
  • Table 7.17: Swiss WWTtE Market Forecast 2017-2027 ($m, AGR %)
  • Table 7.18: Swiss WWTtE Submarket Forecast 2017-2027 ($m OPEX and CAPEX)
  • Table 7.19: Swiss WWTtE Submarket Forecast 2017-2027 (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 2017-2027 ($m, AGR %)
  • Table 7.24: Swedish WWTtE Submarket Forecast 2017-2027 ($m OPEX and CAPEX)
  • Table 7.25: Swedish WWTtE Submarket Forecast 2017-2027 (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 2017-2027 ($m, AGR %)
  • Table 7.29: UK WWTtE Submarket Forecast 2017-2027 ($m OPEX and CAPEX)
  • Table 7.30: UK WWTtE Submarket Forecast 2017-2027 (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 2017-2027 ($m, AGR %)
  • Table 8.10: Rest of World WWTtE Market Forecast 2017-2027 ($m, AGR %)
  • Table 11.1: RWL Water Group Profile 2016 (CEO, HQ, Founded, Website)
  • Table 11.2: Kemira Oyj Profile 2016 (CEO, Total Company Sales US$m, Sales From Company Division That Includes WWTtE (US$m), Share of Total Company Sales From Company Division That Includes WWTtE (%), Net Income / Loss US$m, Net Capital Expenditure US$m, Strongest Business Region, Business Segment in the Market, HQ, Founded, No. of Employees, IR Contact, Ticker, Website)
  • Table 11.3: Kemira Oyj Total Company Sales 2010-2016 (US$m, AGR %)
  • Table 11.4: Kemira Oyj Sales in the Wastewater Treatment to Energy Market 2010-2016 (US$m, AGR %)
  • Table 11.5: Malmberg Water AB 2015 (CEO, Total Company Sales US$m, Business Segment in the Market, HQ, Founded, No. of Employees, Website)
  • Table 11.6: Xylem Inc. 2016 (CEO, Total Company Sales US$m, Sales From Company Division That Includes WWTtE (US$m), Share of Total Company Sales From Company Division That Includes WWTtE (%), Net Income / Loss US$m, Net Capital Expenditure US$m, Strongest Business Region, Business Segment in the Market, HQ, Founded, No. of Employees, IR Contact, Ticker, Website)
  • Table 11.7: Xylem Inc. Total Company Sales 2010-2016 (US$m, AGR %)
  • Table 11.8: Xylem Inc. Sales in the Wastewater Treatment to Energy Market 2010-2016 (US$m, AGR %)
  • Table 11.9: APROVIS Energy Systems 2016 (HQ, Founded, No. of Employees, Website)
  • Table 11.10: Veolia Group 2016 (CEO, Total Company Sales US$m, Sales From Company Division That Includes WWTtE (US$m), Share of Total Company Sales From Company Division That Includes WWTtE (%), Net Income / Loss US$m, Net Capital Expenditure US$m, Strongest Business Region, Business Segment in the Market, HQ, Founded, No. of Employees, IR Contact, Ticker, Website)
  • Table 11.11: Veolia Group Total Company Sales 2011-2016 (US$m, AGR %)
  • Table 11.12: AAT Biogas Technology 2016 (HQ, Founded, Website)
  • Table 11.13: Hitachi Zosen INOVA Profile 2016 (CEO, Total Company Sales US$m, Net Income / Loss US$m, Strongest Business Region, Business Segment in the Market, HQ, Founded, No. of Employees, IR Contact, Website)
  • Table 11.14: Hitachi Zosen INOVA Total Company Sales 2010-2016 (US$m, AGR %)
  • Table 11.15: PlanET Biogas Profile 2016 (CEO, HQ, Founded, No. of Employees, IR Contact, Website)
  • Table 11.16: GE Water Profile 2016 ((CEO, Total Company Sales US$m, Sales From Company Division That Includes WWTtE (US$m), Share of Total Company Sales From Company Division That Includes WWTtE (%), Net Income / Loss US$m, Net Capital Expenditure US$m, Strongest Business Region, Business Segment in the Market, Submarket Involvement, HQ, Founded, No. of Employees, IR Contact, Ticker, Website)
  • Table 11.17: GE Water Total Company Sales 2011-2016 (US$m, AGR %)
  • Table 11.18: GE Water Sales in the Wastewater Treatment to Energy Market 2011-2016 (US$m, AGR %)

Figures

  • Figure 1.1: Global WWTtE Market Regional Breakdown
  • Figure 1.2: Global WWTtE Market Regional Breakdown
  • 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 2017, 2022 and 2027 (% Share)
  • Figure 2.7: Global Methane (CH4) Emissions Forecasts by Sector in 2017, 2022 and 2027 (% Share)
  • Figure 2.8: Global Methane Emissions Forecast by Waste Source 1990-2030 (MtCO2e)
  • Figure 3.1: Global WWTtE Market Forecast, 2017-2027 Total Expenditure ($m, AGR)
  • Figure 3.2: Global WWTtE Market CAPEX Forecast, 2017-2027 ($m, AGR)
  • Figure 3.3: Leading Regional and National WWTtE Markets CAPEX Forecast, 2017-2027 ($m)
  • Figure 3.4: Leading Regional and National WWTtE Markets Cumulative CAPEX Forecast, 2017-2027 (% Share)
  • Figure 3.5: Leading Regional WWTtE Markets CAPEX Forecast, 2017-2027 ($m)
  • Figure 3.6: Global WWTtE Market OPEX Forecast, 2017-2027 ($m, AGR)
  • Figure 3.7: Leading Regional and National WWTtE Markets OPEX Forecast, 2017-2027 ($m)
  • Figure 3.8: Leading Regional and National WWTtE Markets Cumulative OPEX Forecast, 2017-2027 (% Share)
  • Figure 3.9: Leading Regional WWTtE Markets OPEX Forecast, 2017-2027 ($m)
  • Figure 4.1: Power, Heat and Biomethane WWTtE Submarket Forecasts, 2017-2027 ($m, AGR % Total Expenditure)
  • Figure 4.2: Power, Heat and Biomethane WWTtE Submarket, 2017-2027 ($m Total Expenditure)
  • Figure 4.3: Power, Heat and Biomethane WWTtE Submarket, 2017-2027 (CAGR %)
  • Figure 4.4: Global Power Submarket Forecasts, 2017-2027 ($m, AGR %)
  • Figure 4.5: Global Power Submarket Share Forecasts, 2017, 2022 and 2027 (% Total Expenditure Share)
  • Figure 4.6: Leading Nations Power Submarket Forecasts ($m Total Expenditure)
  • Figure 4.7: Global Heat Submarket Forecasts, 2017-2027 ($m, AGR %)
  • Figure 4.8: Global Heat Submarket Share Forecasts, 2017, 2022 and 2027 (% Total Expenditure Share)
  • Figure 4.9: Leading Nations Heat Submarket Forecasts, ($m Total Expenditure)
  • Figure 4.10: Global Biomethane Submarket Forecasts, 2017-2027 ($m, AGR %)
  • Figure 4.11: Global Biomethane Submarket Share Forecasts, 2017, 2022 and 2027 (% Total Expenditure Share)
  • Figure 4.12: Leading National Biomethane Submarket Forecasts, ($m Total Expenditure)
  • Figure 5.1: North American WWTtE Market Forecast, 2017-2027 ($m, AGR %)
  • Figure 5.2: North American WWTtE Market Share Forecast, 2017, 2022 and 2027 (% Total Expenditure Share)
  • Figure 5.3: North American WWTtE Market Share Forecast, 2017, 2022 and 2027 (% CAPEX Share)
  • Figure 5.4: North American WWTtE Market Share Forecast, 2017, 2022 and 2027 (% OPEX Share)
  • Figure 5.5: Regional Market Forecast, 2017-2027 ($m Total Expenditure)
  • Figure 5.6: Canadian WWTtE Market Forecast 2017-2027 ($m, AGR %)
  • Figure 5.7: Canadian Market Share Forecast, 2017, 2022 and 2027 (% Total Expenditure Share)
  • Figure 5.8: Canadian WWTtE Submarket Forecast 2017-2027 ($m CAPEX)
  • Figure 5.9: Canadian WWTtE Submarket Forecast 2017-2027 ($m OPEX)
  • Figure 5.10: Canadian WWTtE Submarket Forecast 2017-2027 (Number of Plants)
  • Figure 5.11: Proportion of Provincial Canadian Population Served by Secondary Treatment
  • Figure 5.12: US WWTtE Market Forecast 2017-2027 ($m, AGR %)
  • Figure 5.13: US Market Share Forecast, 2017, 2022 and 2027 (% Total Expenditure Share)
  • Figure 5.14: US WWTtE Submarket Forecast 2017-2027 ($m CAPEX)
  • Figure 5.15: US WWTtE Submarket Forecast 2017-2027 ($m OPEX)
  • Figure 5.16: US WWTtE Submarket Forecast 2017-2027 (Number of Plants)
  • Figure 6.1: Asia Pacific WWTtE Market Forecast, 2017-2027 ($m, AGR %)
  • Figure 6.2: Asia Pacific WWTtE Market Share Forecast, 2017, 2022 and 2027 (% Total Expenditure Share)
  • Figure 6.3: Asia Pacific WWTtE Market Share Forecast, 2017, 2022 and 2027 (% CAPEX Share)
  • Figure 6.4: Asia Pacific WWTtE Market Share Forecast, 2017, 2022 and 2027 (% OPEX Share)
  • Figure 6.5: Regional Market Forecast, 2017-2027 ($m Total Expenditure)
  • Figure 6.6: Australian WWTtE Market Forecast 2017-2027 ($m, AGR %)
  • Figure 6.7: Australian Market Share Forecast, 2017, 2022 and 2027 (% Total Expenditure Share)
  • Figure 6.8: Australian WWTtE Submarket Forecast 2017-2027 ($m CAPEX)
  • Figure 6.9: Australian WWTtE Submarket Forecast 2017-2027 ($m OPEX)
  • Figure 6.10: Australian WWTtE Submarket Forecast 2017-2027 (Number of Plants)
  • Figure 6.11: WWTPs in Australia with AD Systems Installed 1984-2015
  • Figure 6.12: South Korean WWTtE Market Forecast 2017-2027 ($m, AGR %)
  • Figure 6.13: South Korean WWTtE Market Share Forecast, 2017, 2022 and 2027 (% Total Expenditure Share)
  • Figure 6.14: South Korean WWTtE Submarket Forecast 2017-2027 ($m CAPEX)
  • Figure 6.15: South Korean WWTtE Submarket Forecast 2017-2027 ($m OPEX)
  • Figure 6.16: South Korean WWTtE Submarket Forecast 2017-2027 (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 2017-2027 (Total Expenditure $m, AGR %)
  • Figure 6.19: Rest of Asia-Pacific WWTtE Market Share Forecast, 2017, 2022 and 2027 (% Total Expenditure Share)
  • Figure 7.1: European WWTtE Market Forecast, 2017-2027 ($m, AGR %)
  • Figure 7.2: European WWTtE Market Share Forecast, 2017, 2022 and 2027 (% Total Expenditure Share)
  • Figure 7.3: European WWTtE Market Share Forecast, 2017, 2022 and 2027 (% CAPEX Share
  • Figure 7.4: European WWTtE Market Share Forecast, 2017, 2022 and 2027 (% OPEX Share)
  • Figure 7.5: Regional WWTtE Market Forecast, 2017-2027 ($m Total Expenditure)
  • Figure 7.6: Danish WWTtE Market Forecast 2017-2027 ($m, AGR %)
  • Figure 7.7: Danish WWTtE Market Share Forecast, 2017, 2022 and 2027 (% Total Expenditure Share)
  • Figure 7.8: Danish WWTtE Submarket Forecast 2017-2027 ($m OPEX)
  • Figure 7.9: Danish WWTtE Submarket Forecast 2017-2027 ($m CAPEX)
  • Figure 7.10: Danish WWTtE Submarket Forecast 2017-2027 (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 2017-2027 ($m, AGR %)
  • Figure 7.13: French WWTtE Market Share Forecast, 2017, 2022 and 2027 (% Total Expenditure Share)
  • Figure 7.14: French WWTtE Submarket Forecast 2017-2027 ($m OPEX)
  • Figure 7.15: French WWTtE Submarket Forecast 2017-2027 ($m CAPEX)
  • Figure 7.16: French WWTtE Submarket Forecast 2017-2027 (Number of Plants)
  • Figure 7.17: German WWTtE Market Forecast 2017-2027 ($m, AGR %)
  • Figure 7.18: German WWTtE Market Share Forecast, 2017, 2022 and 2027 (% Total Expenditure Share)
  • Figure 7.19: German WWTtE Submarket Forecast 2017-2027 ($m CAPEX)
  • Figure 7.20: German WWTtE Submarket Forecast 2017-2027 ($m OPEX)
  • Figure 7.21: German WWTtE Submarket Forecast 2017-2027 (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 2017-2027 ($m, AGR %)
  • Figure 7.24: Swiss WWTtE Market Share Forecast, 2017, 2022 and 2027 (% Total Expenditure Share)
  • Figure 7.25: Swiss WWTtE Submarket Forecast 2017-2027 ($m OPEX)
  • Figure 7.26: Swiss WWTtE Submarket Forecast 2017-2027 ($m CAPEX)
  • Figure 7.27: Swiss WWTtE Submarket Forecast 2017-2027 (Number of Plants)
  • Figure 7.28: WWTPs in Switzerland with AD Systems Installed 1972-2015 (Number of Plants)
  • Figure 7.29: Swedish WWTtE Market Forecast 2017-2027 ($m, AGR %)
  • Figure 7.30: Swedish WWTtE Market Share Forecast, 2017, 2022 and 2027 (% Total Expenditure Share)
  • Figure 7.31: Swedish WWTtE Submarket Forecast 2017-2027 ($m OPEX)
  • Figure 7.32: Swedish WWTtE Submarket Forecast 2017-2027 ($m CAPEX)
  • Figure 7.33: Swedish WWTtE Submarket Forecast 2017-2027 (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 2017-2027 ($m, AGR %)
  • Figure 7.36: UK WWTtE Market Share Forecast, 2017, 2022 and 2027 (% Total Expenditure Share)
  • Figure 7.37: UK WWTtE Submarket Forecast 2017-2027 ($m OPEX)
  • Figure 7.38: UK WWTtE Submarket Forecast 2017-2027 ($m CAPEX)
  • Figure 7.39: UK WWTtE Submarket Forecast 2017-2027 (Number of Plants)
  • Figure 7.40: WWTPs in the UK with AD Systems Installed 1972-2015
  • Figure 7.41: Use of Digestate from AD in UK WWTPS
  • Figure 7.42: Rest of Europe WWTtE Market Forecast 2017-2027 ($m, AGR %)
  • Figure 7.43: Rest of Europe WWTtE Market Share Forecast, 2017, 2022 and 2027 (% Total Expenditure Share)
  • Figure 8.1: Rest of World WWTtE Market Forecast 2017-2027 ($m, AGR %)
  • Figure 8.2: Rest of World WWTtE Market Share Forecast, 2017, 2022 and 2027 (% Total Expenditure Share)
  • Figure 10.1: Diagram of Tri-generation from WWTtE
  • Figure 11.1: Kemira Oyj Total Company Sales 2011-2016 (US$m, AGR %)
  • Figure 11.2: Kemira Oyj Sales in the Wastewater Treatment to Energy Market 2011-2016 (US$m, AGR %)
  • Figure 11.3: Xylem Inc. Total Company Sales 2011-2016 (US$m, AGR %)
  • Figure 11.4: Xylem Inc. Sales in the Wastewater Treatment to Energy Market 2011-2016 (US$m, AGR %)
  • Figure 11.5: Veolia Group Total Company Sales 2012-2016 (US$m, AGR %)
  • Figure 11.6: Hitachi Zosen INOVA Total Company Sales 2012-2016 (US$m, AGR %)
  • Figure 11.7: GE Water Company Sales 2012-2016 (US$m, AGR %)
  • Figure 11.8: GE Water Sales in the Wastewater Treatment to Energy Market 2012-2016 (US$m, AGR %)

Companies Listed:

  • AAT Biogas Technology
  • AGL
  • Anglican Water
  • APROVIS Energy Systems
  • Aqualia
  • Biogas Zurich
  • Biothane
  • BWB
  • Cambi
  • CH2M
  • Clarke Energy
  • Convion
  • Drake and Scull International (DSI)
  • Elster
  • Eptisa
  • Equilibrium Capital
  • ERG
  • Eurawasser
  • Flow Gas
  • Fraunhofer IGB
  • FuelCell Energy
  • GE
  • GE Water
  • Gelsenwasser
  • GENeco
  • Göteborg Energi
  • Hamburg Wasser
  • Hitachi Zosen Corporation
  • Hitachi Zosen Inova
  • Imtech UK
  • Kemira Oyj
  • Kompogas technology
  • Lang O'Rourke
  • Malmberg
  • Malmberg Water AB
  • MCS
  • Melbourne Water
  • Nijhuis Water Technology
  • OEWA
  • Passavant Energy and Environment
  • PlanET biogas
  • Posco E&C
  • Quadrogen Power Systems
  • RWL Water Group
  • SABESP
  • Saur
  • Scandinavian Biogas
  • Severn Trent
  • SIG
  • Suez Environment
  • Swedish Biogas
  • Thames Water
  • Uniflare
  • United Utilities
  • Veolia
  • VTT
  • Wartsilla
  • Weltec Biopower
  • Wessex Water
  • Xylem IncXylem Water Solutions
  • Yield Energy, Inc.
  • Zero Waste Energy LLC

Other Organisations Mentioned in This Report:

  • Advisory Commission on local public services (France)
  • Aguas de Barcelona
  • American Biogas Association (ABC)
  • American Society of Civil Engineers
  • Australian Renewable Energy Agency (ARENA)
  • Brazilian Federal Government
  • California Air Resource Board
  • Clean Energy Finance Corporation (CEFC - Australia)
  • Conagua - The National Water Commission (Mexico)
  • Danish Water and Waste Water Association (DANVA)
  • Department for the Environment, Farming and Rural Affairs (DEFRA)
  • Department of Energy (DOE)
  • Department of Energy and Climate Change (DECC UK)
  • Departmental Direction of the Territories (France)
  • Energy Information Administration (EIA-USA)
  • Environment Canada
  • Environment Protection Agency (EPA - USA)
  • European Investment Bank
  • European Union (EU)
  • French Advisory commission on local public services
  • French Departmental direction of the territories
  • French Inter-service water task force
  • French Ministries of Ecology, Energy, Sustainable Development and Territorial Development
  • French National Agency for Water and Aquatic Environments
  • French Regional Health Authority
  • German Engineering Federation
  • German Federal Ministry of Economic Affairs and Energy
  • Government of Canada
  • Inter-service water task force (France)
  • Ministry for Ecology (France)
  • Ministry of Energy (France)
  • Ministry of Environment (South Korea)
  • Ministry of Infrastructure (Japan)
  • Ministry of Land (Japan)
  • Ministry of Sustainable Development (France)
  • Ministry of Territorial Development (France)
  • Ministry of the Environment (Japan)
  • Ministry of Tourism (Japan)
  • Ministry of Transport (Japan)
  • Moody's Investors Service
  • National Biogas Committee
  • National Research Council of Canada (NRC)
  • National Water Commission (Conagua)
  • Public Procurement Office (South Korea)
  • Regional Health Authority (France)
  • Rural Industries Research and Development Corporation (RIRDC - Australia)
  • South Korea Ministry of Environment
  • Swedish Environmental Protection Agency (Naturvardsverket, Swedish EPA)
  • The Danish Water and Waste Water Association (DANVA)
  • The National Research Council (NRC)
  • The Rural Industries Research and Development Corporation (RIRDC)
  • United Nations (UN)
  • US Department of Agriculture (USDA)
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