Suchergebnisse für "Factsheet: Energietechnologien gestalten, die für alle sinnvoll und nutzbar sind"
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.
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.
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.
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.
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.
RETRAIN - Training Network Renewable and Energy Efficiency Technologies in Buildings
The project aim on one hand is to evaluate and adapt current trainings in the field of biomass, solar thermal energy, photovoltaic, heat pumps and ventilation and on the other hand to define new potential trainings in case of further demand. This shall be a fundamental basis to prevent the threat of the absence of professionals and to increase the quality of already converted projects.
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.
Self-discharge mechanisms in the vanadium redox battery
The Vanadium Redox Battery is an attractive solution to uninterrupted power supply applications. The battery is very robust and easy to use and an overall efficieny of >85% would be achieveable under conditions when self-discharge is minimized.
Sustainable product service for raising the energy efficiency of injection moulding machines for plastics
Performing a feasibility study of establishing a sustainable product service for raising the energy efficiency of injection moulding machines for plastics via analysing the basic organizational and technical conditions.
Gas supply by local mircro grids
Proof of the technical and economic feasibility of the utilization of fermentation gas from agricultural fermentation gas facilities by means of local micro grids.
KELVIN - Reducing the urban heat island effect via improving the reflective properties of buildings and urban areas
The aim of this project was to estimate the potential to reduce urban heat islands via low-tech measures such as the variation of the surface albedo, using the City of Vienna as an example. The project has also assessed the energy savings and greenhouse gas emission reductions due to the decreased energy demand for cooling as a result of such measures.
urban pv+geotherm - Innovative concepts for the supply of large volume buildings/ quarters with PV and geothermal energy
The use of renewable energies in inner city locations is mostly linked to higher costs andconsidered as problematic. The aim of this project was to optimize (cost and energy) heating (and where required, cooling) using geothermic and photovoltaic for an urban, densely-built development area. With the project´s findings it will be easier to ecologically and economically plan the use of renewable energies especially in urban areas.
Direct Supply with Cold, Heat, Electricity and further Added Values Using Renewable Fuel for Stationary Fuel Cells
Fuel cells can use local resources and provide regional energy support if optimized. BIO-VISION leads to a demo-project.
Using buildings as energy storage - Monitoring project: Detached house H and detached house F Energy source wind power – Energy source solar power
Monitoring and comparison of performance of thermally activated building components in two similarly built, inhabited detached houses with different energy sources (wind and solar power). The functionality of energy supply through wind power or solar energy will be investigated as well as the verification of the practicability of self-regulating system control due to building temperature behaviour. The results provide an insight into the calculation assumptions, system control and feasibility of the smart grid technology.
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.
HOTSPOTS - Holistic thermographic screening of urban physical objects at transient scales
HOTSPOTS enables new insights and perspectives for city development. According to the project idea innovations in acquisition and sensing as well as densification of geo-referenced city related data are supplemented by novel processing chains in city data analytics. Driven by an integrated scientific approach we develop a novel method in the selection, evaluation and prioritization of infrastructural city development measures which is directly derived from sensed data hence reducing the risk of ad-hoc decisions or lack in impact.
Manage_GeoCity - Development of a method for the coordinated management of geothermal energy in urban areas
Based on the urban region Graz a method had been developed for the coordinated use and management of shallow geothermal energy for heating and cooling as well as seasonal heat storage in urban regions. Ground water flow, different geologic conditions, heating and cooling demand, heat input from solar collectors and industrial waste heat and the possibilities of seasonal heat storage in the subsurface were considered.
EnergyCityConcepts - Methods and concepts for the implementation of sustainable energy systems in cities
Two concrete model regions (small city Gleisdorf and urban city quarter Salzburg-Schallmoos) will be developed and tested using new methodical approaches (interdisciplinary urban and regional energy planning, modeling and simulation). Therefore, it is aimed to substantiate scenarios and concepts for the implementation of defined targets on technical, ecological and economic criteria.