【レポートの概要(一部)】
1. Executive Summary
2. Introduction to Biomass
2.1 What is Biomass?
2.2 Sources of Biomass
2.3 Biomass to Energy: Conversion Processes
2.3.1 Thermal Conversion
2.3.2 Chemical Conversion
2.3.3 Biochemical Conversion
2.4 Environmental Impact of Using Biomass
3. Challenges Facing the Global Power Industry & the Need for Biomass
3.1 Global Electricity Market
3.2 Electricity Net Generation
3.3 Installed Electricity Capacity
3.4 Importance of Renewable Resources
3.5 Installed Electricity from Renewable Sources
3.6 Use of Biomass for Energy
3.7 Cost of Biomass Power: Fall in Prices Likely
3.8 Global Biomass Industry: Outlook
3.8.1 Outlook for the Global Electricity Market
3.8.2 Outlook for the Global Renewables Sector
3.8.3 Outlook for the Global Biomass Power Market
3.8.4 Outlook for Global Biomass Resource
4. Potential of Biomass Resource by Country
4.1 Finland
4.2 Germany
4.3 Italy
4.4 Sweden
4.5 United Kingdom
5. Impacts on the Global Biomass Power Industry
5.1 Challenges Facing the Market
5.1.1 High Capital Costs
5.1.2 Growing Demand of Electricity & Shortage in Supply of Biomass Feedstock
5.1.3 Popularity of Natural Gas for Power Generation
5.1.4 Growth of Liquid Biofuels for Transport
5.2 Factors Driving the Market
5.2.1 Favorable Regulatory Mechanisms
5.2.2 Bright Future Ahead for Co-firing and Cogeneration in the EU
5.2.3 Improvement in the Feedstock Storage Market
6. Biomass Industry in Australia
6.1 Industry Profile
6.2 Market Statistics
6.3 Biomass Feedstock in Australia
6.4 Biomass Industry Regulations
6.5 Competition in the Industry
6.6 Industry Forecast
7. Biomass Industry in Brazil
7.1 Industry Profile
7.2 Market Statistics
7.3 Biomass Feedstock in Brazil
7.4 Biomass Industry Regulations
7.5 Competition in the Industry
7.6 Industry Forecast
8. Biomass Industry in China
8.1 Industry Profile
8.2 Market Statistics
8.3 Biomass Feedstock in China
8.4 Biomass Industry Regulations
8.5 Competition in the Industry
8.6 Industry Forecast
9. Biomass Industry in Finland
9.1 Industry Profile
9.2 Market Statistics
9.3 Biomass Feedstock in Finland
9.4 Biomass Industry Regulations
9.5 Competition in the Industry
9.6 Industry Forecast
10. Biomass Industry in Germany
10.1 Industry Profile
10.2 Market Statistics
10.3 Biomass Feedstock in Germany
10.4 Biomass Industry Regulations
10.5 Competition in the Industry
10.6 Industry Forecast
11. Biomass Industry in India
11.1 Industry Profile
11.2 Market Statistics
11.3 Biomass Feedstock in India
11.4 Biomass Industry Regulations
11.5 Competition in the Industry
11.6 Industry Forecast
12. Biomass Industry in Italy
12.1 Industry Profile
12.2 Market Statistics
12.3 Biomass Feedstock in Italy
12.4 Biomass Industry Regulations
12.5 Competition in the Industry
12.6 Industry Forecast
13. Biomass Industry in Sweden
13.1 Industry Profile
13.2 Market Statistics
13.3 Biomass Feedstock in Sweden
13.4 Biomass Industry Regulations
13.5 Competition in the Industry
13.6 Industry Forecast
14. Biomass Industry in the UK
14.1 Industry Profile
14.2 Market Statistics
14.3 Biomass Feedstock in the UK
14.4 Biomass Industry Regulations
14.5 Competition in the Industry
14.6 Industry Forecast
15. Biomass Industry in the US
15.1 Industry Profile
15.2 Market Statistics
15.3 US Biomass Feedstock
15.4 Biomass Industry Regulations
15.5 Competition in the Industry
15.6 Industry Forecast
16. Analysis of Major Players
16.1 Areva SA
16.1.1 Company Overview
16.1.2 Business Analysis
16.1.3 SWOT Analysis
16.2 Cosan SA Industria e Comercio
16.2.1 Company Overview
16.2.2 Business Analysis
16.2.3 SWOT Analysis
16.3 Drax Group Plc
16.3.1 Company Overview
16.3.2 Business Analysis
16.3.3 SWOT Analysis
16.4 EDF Energy Plc
16.4.1 Company Overview
16.4.2 Business Analysis
16.4.3 SWOT Analysis
16.5 Enel SpA
16.5.1 Company Overview
16.5.2 Business Analysis
16.5.3 SWOT Analysis
16.6 E.ON UK Plc
16.6.1 Company Overview
16.6.2 Business Analysis
16.6.3 SWOT Analysis
16.7 GCL-Poly Energy Holdings Limited
16.7.1 Company Overview
16.7.2 Business Analysis
16.7.3 SWOT Analysis
16.8 Pohjolan Voima Oy
16.8.1 Company Overview
16.8.2 Business Analysis
16.8.3 SWOT Analysis
16.9 RWE AG
16.9.1 Company Overview
16.9.2 Business Analysis
16.9.3 SWOT Analysis
16.10 SSE Plc
16.10.1 Company Overview
16.10.2 Business Analysis
16.10.3 SWOT Analysis
16.11 UPM-Kymmene Corporation
16.11.1 Company Overview
16.11.2 Business Analysis
16.11.3 SWOT Analysis
16.12 Vattenfall AB
16.12.1 Company Overview
16.12.2 Business Analysis
16.12.3 SWOT Analysis
16.13 Bios Bioenergiesysteme Gmbh
16.14 Chemrec AB
16.15 Clenergen Corporation
16.16 Dragon Power Co., Ltd.
16.17 ETH Bioenergia SA
16.18 Euroenergy Group
16.19 Interargem GmbH
16.20 MW Power Oy
16.21 National Bio Energy Co., Ltd.
16.22 New England Wood Pellet Co
16.23 Orient Green Power
16.24 Ptz Bioenergy Ltd.
16.25 Purepower Holdings Limited
16.26 Wartsila Corporation
16.27 Welsh Power Group
17. Glossary
List of Figures
Figure 1: Global Electricity Net Generation (Billion kWh), 2008-12
Figure 2: Global Cumulative Installed Electricity Generation Capacity (GW), 2008-2012
Figure 3: Rankings of Countries by Installed Renewable Power Generation Capacity, 2012
Figure 4: Total Installed Renewable Electrical Power Capacity Worldwide (%), 2012
Figure 5: Number of People Globally without Access to Electricity & Relying on the Traditional Use of Biomass (m), 2012
Figure 6: Average Generation Costs Worldwide of Electricity Generation from Renewables by Technology Type ($ per MWh), 2010-2035
Figure 7: Forecast for Global Net Electricity Generation (tn kWh), 2015–35
Figure 8: Primary Energy Demand by Fuel Under New Scenario Worldwide (Mtoe), 2020–2035
Figure 9: Average Investment in Renewables-based Electricity Generation by Technology (USD Million), 2010–2035
Figure 10: Global Potential for Bioenergy by Feedstock (Exajoules), 2050
Figure 11: Global Bioenergy Potential by Region (Exajoules), 2050
Figure 12: Potential of Biomass Resource (%) in Finland, 2030
Figure 13: Potential of Biomass Resource in Germany (Exajoules/Year), 2030
Figure 14: Potential of Biomass Resource in Italy (%), 2030
Figure 15: Potential of Biomass Resource (%) in Sweden, 2030
Figure 16: Potential of Biomass Resource in the UK (%), 2030
Figure 17: Cost of Electricity from CCS Power Plants Versus Other Options for Entry into Service in 2016 ($/MWh)
Figure 18: EU Share of Cogeneration Total Electricity (%), 2012
Figure 19: Waste & Net Biomass Power Generation in Australia (Billion kWh), 2008-2012
Figure 20: Forecast for Bioenergy Electricity Generation in Australia (GWh), 2020
Figure 21: Waste & Net Biomass Power Generation in Brazil (Billion kWh), 2008-2012
Figure 22: Forecast for Installed Biomass Power Capacity in Brazil (MW) 2013-2022
Figure 23: Waste & Net Biomass Power Generation in China (Billion kWh), 2008-2012
Figure 24: Biomass Power Generation Plants in China, 2012
Figure 25: Potential Available Biomass Resources (100m tce), 2010-2030
Figure 26: Waste & Net Biomass Power Generation in Finland (Billion kWh), 2008-2012
Figure 27: Power Generation in Finland from Renewable Sources (GWh) 2013-2023
Figure 28: Forecast for Power Generation in Finland from Biomass (GWh), 2013-2023
Figure 29: Waste Power & Net Biomass Generation in Germany (Billion kWh), 2008-2012
Figure 30: Forecast for Installed Solid Biomass Capacity in Germany (MW), 2010-2020
Figure 31: Waste & Net Biomass Power Generation in India (Billion kWh), 2008-2012
Figure 32: Forecast for Installed Biomass & Waste Generation Capacity in India (GW), 2010-2020
Figure 33: Waste & Net Biomass Power Generation in Italy (Billion kWh), 2008-2012
Figure 34: Biomass Energy Potential in Italy by Feedstock (Mtoe) 2012
Figure 35: Power Generation in Italy from Renewables (GWh) 2010-2020
Figure 36: Forecast for Power Generation in Italy from Biomass (GWh) 2010-2020
Figure 37: Waste & Net Biomass Power Generation in Sweden (Billion kWh), 2008-2012
Figure 38: Forecast for Installed Solid Biomass Capacity in Sweden (MW) 2010-2020
Figure 39: Waste & Net Biomass Power Generation in the UK (Billion kWh), 2008-2012
Figure 40: Biomass Power Plants in the UK (Part 1) 2012
Figure 41: Biomass Power Plants in the UK (Part 2) 2012
Figure 42: Forecast for Installed Solid Biomass Capacity in the UK (MW) 2010-2020
Figure 43: Waste Power & Net Biomass Generation in the US (Billion kWh), 2008-2012
Figure 44: Biomass Feedstock Resource in the US, 2012
Figure 45: Installed Capacity of Biomass Power Generation in the US (GW), 2015-2035
List of Tables
Table 1: Global Electricity Net Generation (Billion kWh), 2008-12
Table 2: Global Cumulative Installed Electricity Generation Capacity (GW), 2008-2012
Table 3: Total Installed Renewable Electrical Power Capacity Worldwide (GW), 2012
Table 4: Number of People Globally without Access to Electricity & Relying on the Traditional Use of Biomass (m), 2012
Table 5: Average Generation Costs Worldwide of Electricity Generation from Renewables by Technology Type ($ per MWh), 2010-2035
Table 6: Forecast for Global Net Electricity Generation (tn kWh), 2015–35
Table 7: Primary Energy Demand by Fuel and Scenario Worldwide (Mtoe), 2008–2035
Table 8: Average Investment in Renewables-based Electricity Generation by Technology (USD Million), 2010–2035
Table 9: Global Potential for Bioenergy by Feedstock (Exajoules), 2050
Table 10: Global Bioenergy Potential by Region (Exajoules), 2050
Table 11: Potential of Biomass Resource (exajoules/year) in Finland, 2030
Table 12: Potential of Biomass Resource in Germany (Exajoules/Year), 2030
Table 13: Potential of Biomass Resource in Italy (Exajoules/Year), 2030
Table 14: Potential of Biomass Resource (Exajoules/Year) in Sweden, 2030
Table 15: Potential of Biomass Resource in the UK (Exajoules/Year), 2030
Table 16: Cost of Electricity from CCS Power Plants Versus Other Options for Entry into Service in 2016 ($/MWh)
Table 17: Waste & Net Biomass Power Generation in Australia (Billion kWh), 2008-2012
Table 18: Forecast for Bioenergy Electricity Generation in Australia (GWh), 2020
Table 19: Waste & Net Biomass Power Generation in Brazil (Billion kWh), 2008-2012
Table 20: Forecast for Installed Biomass Power Capacity in Brazil (MW) 2013-2022
Table 21: Waste & Net Biomass Power Generation in China (Billion kWh), 2008-2012
Table 22: Potential Available Biomass Resources (100m tce), 2010-2030
Table 23: Waste & Net Biomass Power Generation in Finland (Billion kWh), 2008-2012
Table 24: Major Players in the Finnish Biomass Power Sector, 2012
Table 25: Power Generation in Finland from Renewable Sources (GWh) 2013-2023
Table 26: Forecast for Power Generation in Finland from Biomass (GWh), 2013-2023
Table 27: Waste Power & Net Biomass Generation in Germany (Billion kWh), 2008-2012
Table 28: Forecast for Installed Solid Biomass Capacity in Germany (MW), 2010-2020
Table 29: Waste & Net Biomass Power Generation in India (Billion kWh), 2007-2011
Table 30: Forecast for Installed Biomass & Waste Generation Capacity in India (GW), 2010-2020
Table 31: Waste & Net Biomass Power Generation in Italy (Billion kWh), 2008-2012
Table 32: Biomass Energy Potential in Italy by Feedstock (Mtoe) 2012
Table 33: Major Players in the Italian Biomass Market, 2012
Table 34: Power Generation in Italy from Renewable Sources (GWh) 2010-2020
Table 35: Forecast for Power Generation in Italy from Biomass (GWh) 2010-2020
Table 36: Waste & Net Biomass Power Generation in Sweden (Billion kWh), 2008-2012
Table 37: Forecast for Installed Solid Biomass Capacity in Sweden (MW) 2010-2020
Table 38: Waste & Net Biomass Power Generation in the UK (Billion kWh), 2008-2012
Table 39: Forecast for Installed Solid Biomass Capacity in the UK (MW) 2010-2020
Table 40: Waste Power & Net Biomass Generation in the US (Billion kWh), 2008-2012
Table 41: Installed Capacity of Biomass Power Generation in the US (GW), 2015-2035
【レポート販売概要】
■ タイトル:バイオマスのグローバル市場動向■ 英文:Global Biomass Industry
■ 発行日:2014年5月
■ 調査会社:Taiyou Research
■ 商品コード:Taiyou-40619073
■ 調査対象地域:グローバル
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