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SynENERGY - Energy optimised settlement development by making use of synergies of energy efficiency, spatial planning and building culture
SynENERGY aims at an innovative, holistic approach to urban district optimization. The project targets a comprehensive analysis of the framework and urban development concept which includes not only optimisation of sustainable energy supply and use but also increased material flows (construction and disposal) at urban district level.
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.
Between research institutions and the economic system the way has been paved to initiate joint R&D projects. Common research activities have been initiated and intensified to be able to position local companies in international niche markets for photovoltaics.
Technology and know how transfer for market introduction of multifunctional photovoltaic solar façade systems. Constructional engineering, integration into the buildings´ energy system, economy. Design of an information website and accompanying target group work.
Technology, logistics and economy of large-scale fermentation gas facilities on the basis of biogenous waste
Examination of the logistic, technological and economic feasibility of large-scale fermentation gas facilities. Development of solutions for substrate procurement, plant technology, utilization of the organic remainders of the facilities and poly generation in combination with industrial plants.
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.
Based on a feasibility study an interdisciplinary team of researchers supports hospital practitioners implementing the concept of sustainable development in a pilot hospital. Changes within three key areas should lead to significant improvements.
Within the research project TFlex it was checked if the losses adherent to small district heating networks during low-load periods can be reduced. One possible solution is by deactivating the network and supplying the customers from previously charged decentralized storages. The optimal clustering of the storages and the possibility of solar-charging the storage were calculated with the aim of a guaranteed one-hundred percent heat supply.
The project pursues the overall strategic objective "solution of the problem-inducing heat bridge". For this purpose, the thermal bridging losses should be reduced by the factor of 15 in contrast to the state of the art. The significant increase in efficiency should rely on existing system solutions, but incorporating a new holistic view in terms of construction, geometry and materials.
The development of the wood fusing technology to an innovative, ecological process of production of wood-only parquet elements, which do not contain any wood foreign substances as glue or thermoplastics.
Many traffic areas in urban environments are actually used as such only a small fraction of the time. Subject of this project was to investigate the possibility of using those areas by additional integration of photobioreactors for the production of biomass, integrating such systems to the maximum extent into the urban substance and energy cycles.
Paper factory in the year 2030 as an integrated part of a sustainable economy and a supplier of sustainable paper products fulfilling criteria for sustainability at highest possible level.
"Building of Tomorrow" funded research reports dealing with building renovation will be analysed for solutions of construction details. This information will be supplemented with structural-physical descriptions, ecological ratings and technical discussions. All the information will be collected and systematically presented in a catalogue of building details for renovation.
Silicate technology for the improvement of water uptake and nutrient storage in marginal soils; field tests in the northern Sahel region in Senegal
Working together with practitioners scientists from the fields of social ecology, sociology of health and economics introduce the concept of sustainable development into a pilot hospital. The feasibility study establishes the base for ecological, social and economic improvements within the hospital.
Following two successful "Fabrik der Zukunft" projects on the theme of sustainable hospitals ("Feasibility study" 2004-2005 and "Testing in a pilot hospital" 2006-2008) the results and key findings were disseminated by a diversified dissemination strategy. The project was based on an intensive and successful more than four-year cross-disciplinary cooperation involving the pilot hospital (SMZ Otto Wagner Spital), the Viennese Hospital Association, the Immanuel Diakonie Group (Berlin) and an interdisciplinary team of researchers.
The Use of wind energy in skiing regions - Evaluation of the consume of electricity and dissemination of the results of the analysis
Main goals of the project are the analysis of the location Salzstiegl concerning the coverage of their own electricity needs with an already existent windmill as well as a following dissemination of the outcome of the analysis in form of a workshop for all ski lift carriers of Austria.
Pre-cast cantilever balconies represent a particular problem in the case of thermal rehabilitation of buildings. With the THERM-opti-BALKON-System a solution is currently being investigated under laboratory conditions. Phase 2 aims to create an in-situ-pilot-station. The most important object of study is the long-term behavior of the THERM-opti-BALKON-System.
Pre-cast cantilever balconies represent a particular problem in the thermal renovation of buildings. The central goal of this project is the development of practical and cost-effective mounting solutions for the thermally decoupled reconstruction of balconies on building frontages and achieving a significant increase in the energy performance of the thermal renovation measure.