Alternative Energy

Technologies to Produce Energy from Waste (waste-to-energy technologies) in 2007-2009: Market Research

Period: 2007-2009
Region: World market
Quotation from the report:

"... By the end of 2009 the volume of the world market for waste-to-energy technologies made up about USD 19.9 billion. The predicted market growth until 2015 will make up about 7%. By the outcome of 2009 Europe appeared to be the most capacious market for waste-to-energy technologies. The share of the continent in the total market volume made up about 48.1%.

By the outcome of 2009 the volume of the global market for thermal methods of waste recycling in terms of cost made up USD 18.5 billion. The volume of market for biological methods of waste recycling for energy generation made up about USD 1.39 billion. The share of thermal methods of waste recycling made up about 93%, that of biological methods – around 7% ... "

Content

1. GENERAL CLASSIFICATION OF WASTE-TO-ENERGY TECHNOLOGIES

2. MARKET FOR TECHNOLOGIES TO PRODUCE ENERGY FROM SOLID DOMESTIC WASTE
2.1 World market for waste-to-energy technologies

2.1.1 Volume of the world market for waste-to-energy technologies
2.1.2 Structure of the world market by types of technologies

2.2 European market for waste-to-energy technologies

     2.2.1 Major indicators of the European market for waste energy
     2.2.2 Structure of market by waste treatment techniques
     2.2.3 Structure of waste–to-energy technology market by countries
     2.2.4 Structure of waste-to-energy technology market players
     2.2.5 Analysis of key competitiveness factors on the waste energy technology market
     2.2.6 Rating of waste-to-energy technology market players

          2.2.6.1 Rating of German waste-to-energy technology market players
          2.2.6.2 Rating of French waste-to-energy technology market players
          2.2.6.3  Rating of British waste-to-energy technology market players
          2.2.6.4 Rating of Swedish, Danish, Norwegian and Finnish waste-to-energy technology market players
          2.2.6.5 Rating of Spanish and Portuguese waste-to-energy technology market players

     2.2.7 Cost of different waste treatment technologies
     2.2.8 Rating of equipment manufacturers

2.3 North American waste-to-energy technology market

     2.3.1 Major North American market indicators
     2.3.2 Market volume prediction for 2010-2015
     2.3.3 Predicted volume of direct incineration technology market
     2.3.4 Predicted volume of market for thermal waste recycling technologies using pyrolysis and gasification
     2.3.5 Predicted volume of market for waste recycling technologies using anaerobic fermentation
     2.3.6 Rating of direct incineration technology market players
     2.3.7 Rating of players on the market for thermal waste recycling technologies using pyrolysis and gasification
     2.3.8 Rating of players on the market for waste recycling technologies using anaerobic fermentation

2.4 Asian-Pacific market for waste-to-energy technologies

     2.4.1 Major indicators of waste-to-energy technology market
     2.4.2 Market volume prediction for 2010-2015 
     2.4.3 Rating of market players
     2.4.4 Waste utilization technology cost analysis

3. WORLD MARKET FOR BIOGAS PRODUCTION TECHNOLOGIES

3.1 Basic physical properties of biogas

3.2 World biogas market

     3.2.1 Major indicators of the world biogas market
     3.2.2 Rating of countries by the scope of biogas facility installation
     3.2.3 Segmentation of market for biogas facilities using anaerobic fermentation by industries
     3.2.4 Structure of the world biogas facility market from the viewpoint of unit capacity
     3.2.5 Structure of the world biogas system market by types of projects

3.3 European biogas technology market

     3.3.1 Biogas production in the European countries
     3.3.2 Pattern of biogas application in Europe by types of electric power stations
     3.3.3 Rating of biogas facility market players in Europe
     3.3.4 Rating of biogas facility marketing channels in Europe
     3.3.5 Structure of biogas facility construction project cost

4. WORLD MARKET OF TECHNOLOGIES FOR BIOMASS-BASED POWER GENERATION

4.1 General approaches to market segmentation

4.2 World market of technologies for biomass-based power generation

     4.2.1 Volume of the world market for biomass-based power generation technologies until 2015
     4.2.2 Structure of the world market for biomass treatment technologies by regions     4.3 Market for biomass-based power generation technologies in Europe
     4.3.1 Major indicators of renewable power source development in the EU countries
     4.3.2 Structure of biomass consumption in Europe for power production
     4.3.3 Rating of European clients of projects on fuel biomass utilization
     4.3.4 Rating of players on the European market for technologies of biomass-based power generation
     4.3.5 Structure of biomass-based power generation project related capital costs in Europe

4.4 North American market for biomass incineration technologies

     4.4.1 Major indicators of the North American biomass incineration technology market 
     4.4.2 Rating of players on the North American market for biomass utilization for power generation
     4.4.3 Comparative cost of biomass-based power technologies in the North American countries

4.5 Chinese market for biomass-based power generation

     4.5.1 Potential for the use of renewable power sources in China
     4.5.2 Major indicators of biomass-based power generation technology market in China
     4.5.3 Structure of projects on biomass incineration in China from the viewpoint of the total installed capacity of power generating equipment
     4.5.4 Structure of projects on biomass incineration in China from the viewpoint of installed unit capacity of steam-turbine plants
     4.5.5 Structure of players on the Chinese market for biomass incineration technologies
     4.5.6 Brief information on Top 10 Chinese companies, engaged in the segment of renewable energy sources
     4.5.7 Structure of biomass incineration project related capital costs in China 

4.6 Comparative analysis of biomass-based power generation technology costs

4.7 Major sources of waste-to-energy project funding

5. RUSSIAN MARKET FOR WASTE- AND BIOMASS-TO-ENERGY TECHNOLOGIES

5.1 Amount of waste, resulting from production and consumption by industries
5.2 Amount of production and consumption waste utilization and sterilization by industries
5.3 Production, utilization and sterilization of waste by class of hazard
5.4 Industrial structure of capital investments in the protection of the environment against detrimental effect of production and consumption waste
5.5 Industrial structure of operating costs, related to the protection of the environment against detrimental effect of production and consumption waste
5.6 Major indicators of the Russian market for renewable energy sources

     5.6.1. Potential resources of biofuel in Russia
     5.6.2 Installed capacity of renewable power sources in Russia, predicted for 2009-2020 
     5.6.3 Power generation by renewable power sources in Russia, predicted for 2009-2020
     5.6.4 Major indicators of biopower development in Russia
     5.6.5 Major indicators of waste incineration technology market expansion in Russia

CONCLUSIONS

Attachment А List of major completed projects on waste incineration in China 
Attachment B List of major projects on biomass incineration in China 

Other reports from rubric

Developed by - Astronim*
Developed by
Astronim*