Suchergebnisse für "Factsheet: Energietechnologien gestalten, die für alle sinnvoll und nutzbar sind"
Safety and Authorization of Biomass Gasification Plants
Biomass gasification is a success promising technology for the combined heat and power production based on the utilization of domestic biomass. With this project a safety and commissioning guideline for the technology was created for the enhancement of the technology's market introduction.
Energy center for the production of heat, power, substitute natural gas and liquid biofuels
The project deals with the production of synthesis gas from biological fuels and biological residues using steam blown gasification. This synthesis gas will be used for polygeneration especially for heat, power, gaseous (substitute natural gas, SNG) and/or liquid fuel production.
IEA Bioenergy Task "Biomass Combustion and Co-firing"
Obtaining, preparation and circulation of information about international evolutions in the biomass combustion field and -co combustion, collaboration at and management of task emphases
Innovative system for decentralized CHP on basis of biomass gasification with process optimized production of a low-tar producer gas
Tar loads in the producer gas of CHP-plants based on biomass gasification are reduced by primary measures (staged gasification), whereby the possibilities for application are increased.
Gas cleaning for low tar producer gases from staged biomass gasification
Investigation on gas cooling, on heat management in staged gasification systems, and on gas cleaning from inorganic pollutants, like ammonia and aerosols, of the low-tar producer gas in decentralized staged biomass gasification.
IEA Bioenergy Task "GHG Balances"
Participation in the investigation net of the IEA Bioenergy to greenhouse gas balance of biomass and bioenergetics systems as well as coordination of the Austrian participation in IEA Bioenergy.
IEA Bioenergy Task "Thermal Gasification of Biomass"
Obtaining, preparation and circulation of information about international evolutions in the field "thermal gasification of biomass" as well as management of different task emphases.
Mobile and modular thermally-driven-cooling-system
Development of a mobile and modular thermally-driven-cooling-system for cooling powers ranging from 17 to 210 kW. The driving heat is provided by solar collectors and a biomass boiler. For research purposes a cooling systems (70 kW) will be installed in Gleisdorf where the company EnergyCabin is located.
Technological as well as economical optimized Biomass CHP systems with regard to state-of-the-art technologies.
Analysis and presentation of representative biomass CHP systems with an electric power output of less than 2 MW. Variation of parameters and identification of potential optimized interactions between specific units. Identification of the economically and thermodynamically most optimized interconnection based on state-of-the-art technologies.
Valuation models for future energy clusters considering market, technology and policy uncertainty - Case Study Biomass
Market liberalization, technological change and increasing complexity of international policy processes (e .g. climate negotiations) necessitate new approaches to evaluating investments in an uncertainty and risk-augmented framework. This project developed valuation methods from financial theory - such as real options valuation and portfolio optimization - to quantify the relative competitiveness of bioenergy chains and total energy systems.
Actuator based combustion optimization for fine dust reduction
By additive use of actuators in combination of adaptive algorithms a multi-functional logic for fine dust reduction in thermal gasification boiler systems for wood-combustion has to be developed in the context of a thesis at the TU-Graz.
Test stand method for the determination of system efficiency and emission factors of small-scale biomass combustion systems
Determination of key data with practical relevance of typical applications in only one test run. Monitoring of air pollutants and efficiency and continuous improvement of technology possible with test stand method.
Pellets furnaces of the future - "Pelletvergaserkessel 2010"
During the utilisation of biomass as primary energy source in the small-scale presently the CO-, NOx- and particulate emissions are higher than e.g. for natural gas. The planned development will decrease the emissions from pellets furnaces significantly and will define a new state-of-the-art combustion.