Suchergebnisse für "Factsheet: Energietechnologien gestalten, die für alle sinnvoll und nutzbar sind"
IEA Bioenergy Task "Biogas"
Evolution and circulation of the biogas extraction of organic materials through Austrian attendance and collaboration in an international net as well as management of task-emphases
Feasibility study of innovative absorption heat pump processes
A feasibility study of innovative absorption heat pump processes for strategic orientation and further development of heat pumping technology and its applications.
Feed-in and system integration of biogas in existing gas grids
Method for assessment of technological aspects of biogas supply to existing gas grids. Definition of characteristic numbers for quantitative an qualitative analysis. Aspects of systems integration.
Smart Gas Grids - Intelligent Gas Networks of the Future
The basic principles of "Smart Gas Grids" will be investigated and practical issues and deployment strategies will be studied in detail. Furthermore, together with the relevant stakeholders, a "Vision- and Strategy Paper" and a draft for a "Strategic Research Agenda" will be developed.
Biomass-Logistic-Centers
By establishing regionally best situated logistic centers it shall be guaranteed that in all of Styria transport and processing costs will be reduced and that a continual supply of biomass firewood of constant quality is ensured.
Integration of decentralised renewable energies in existing fossil district heating grids
Analysis of potentials as well as technical / economical and organisational solutions to integrate decentralised heating power production from renewables into existing fossil heating grids.
IEA SHC Task 32: Advanced Heat Storage Concepts
IEA SHC Task 32 deals with advanced storage concepts for low energy buildings. In the project storages based on phase change materials are used in solar combisystems, in order to reduce the emissions and increase the efficiency of biomass- and gas boilers and to increase the solar fraction
Establishing a logistics concept for an efficient collection of biogenous waste as input for energy recovery in biogas plants.
The basic organizational and technical conditions along with possible obstacles and critical success factors are investigated.
Applications of the synthesis gas from biomass gasification - polygeneration
Polygeneration based on biomass gasification offers a great variety of applications of the synthesis gas. A fundametnal study will be carried out to assess technical as well as economical and ecological possible routes to produce synthetic products.
Guideline for logistic systems and resource management for renewable resources in Burgenland
The project on hand is applied in the Austrian federal state Burgenland. It investigates possibilities to cover the future biomass demand of the county with resources from the county.
Scenario assessment for the economic market potential of relevant energy technologies.
Economic analyses and scenarios for the future relevance of various sustainable energy technologies considering interaction of technologies, learning effects and exogenous scenario parameters. Recommendations for the future orientation of research and technology development.
Transfer of technology and know-how for the initiation of fermentation gas net feed-in pilot projects.
Target group communication of the technical possibilities of fermentation gas net feed-in. Information preparation and reduction in planning complexity. Support and networking of potential future plant operators. Establishing a service office as contact point.
Heat in containers
Storage of industrial waste heat in latent heat storage systems (common transport containers). Use of the heat in commercial enterprises and public or private buildings with integration of conventional energy suppliers. Technical and financial feasibility study.
Optimisation of logistics for different supply and distribution systems at large biogas plants
Technological and economic analysis and suggestions for the continual improvement of logistics for the supply and disposal of material at biogas plants.
Distributed generation and renewables - Power Quality
The project will demonstrate how the integration of power electronics equipment in Distributed Generation (DG) units can actively improve the stability and quality of supply of electric power distribution networks in order to increase the penetration of DG and Renewable Energy Sources.
Electrical peak load in supermarkets - Strategies to improve energy efficiency
Levelling and reduction of electrical peak load in supermarkets by using additional energy storage systems and by managing the consumption of industrial refrigeration facicilties. Techno - economic feasibility study with high potential of replications via involved industrial partners.
Production of bioethanol in addition with heat, power and valuable byproducts
The production of bioethanol in Bruck/Leitha in addition to the production of heat, power and valuable by-products from biomass will be optimized by a new process simulation tool under the target of maximum usage of waste and low temperature heat and optimal source and product usage.
Spatial models as a basis of decision making for the utilisation of regionally available energy potentials for a CO2 neutral satisfaction of the local heat demand
Analytical GIS-methods to model regionally available renewable energy potentials for the evaluation of measures to achieve a CO2-neutral heating and cooling supply.
Virtual power plants for self-sustaining regions
Geographic methods for the combination of renewable energy sources to create "virtual power plants" and development of self-sustaining regions in terms of energy-balance and the Kyoto target.
Development of an innovative business model for large-scale solar thermal plants for industrial and commercial companies
The current project has the aim to develop an innovative business model for large-scale solar thermal plants (> 500 m² collector area) for industrial and commercial companies. This business model offers the energy customer a contractually binding solution in a time frame of 3 to 5 years; also, the energy delivery costs are lower compared to conventional sources.