There are 132 results.
In three Austrian regions, which call themselves "energy regions", the processes leading to the formulation of common visions or "leitbilder" is analysed and the impact is assessed such "leitbilder" can have on technical change on the regional scale. On this basis and with help of external consulters adapted communication and network strategies are developed and examined with regard to transferable elements.
AR-HES-B – Energy storage, production and recovery of valuable substances in wastewater treatment plants
AR-HES-B develops technologically based concepts of municipal wastewater treatment plants in order to convert them from energy consumers into a hybrid energy provider, energy storage and a provider of resources. The concept enables wastewater plants to turn into an important platform in the regional energy and mass transfer.
Active operation of electrical distribution networks with high share of decentralised power generation
Conceptual design, preparation and development networks areas with active grid operation and a high share of distributed generation. Create the premises for the implementation of innovative demonstration networks by involving of all relevant players.
Agriculture will become an important supplier of sustainable energy services for society. However, this sector can only fulfil this role if it operates on the base of sustainable energy provision itself. The project will determine the necessary measures to achieve this state for a concrete regional setting (eastern Styria) by the year 2020.
BIM4BEMS explores use cases that represent the usage of building information models (BIM) in combination with building energy management systems (BEMS) during operation. This enables the interaction between BIM and building management systems (BMS) which improves the analysis and visualization of inefficiencies in facilities.
BioShip - Potentials of Inland Waterways in Securing the Supply of the Austrian Bio-based Energy Industry
BioShip analyses the potentials to optimise and secure the supply chains of the austrian bio-energy plants (forest fuel, biofuel and biogas) with inland water navigation as an environmental friendly way of transport
The main objectives of this project are to discuss the economic feasibility of the production and distribution of biogas used as transportation fuel and to identify those types of local distribution systems that are already economically feasible under the present economic conditions in Austria.
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.
The project CiQuSo aimed to develop, evaluate and optimize concepts for solar energy systems to provide energy for buildings and cities. The applicability of the developed methods and concepts were shown as an example at Itzling, a part of Salzburg city.
Development of an intelligent district cooling concept and alternative solutions for heat rejection from central absorption chillers at the example of the neighbourhood TownTown in Vienna.
To assess the energy performance of urban planning projects in early design stages with low input and evaluation effort within the project CityCalc, an easily applicable planning and evaluation tool has been developed.
Conception of innovative business models for active integration into network of decentraliced units for consumers and producers
Conception of economically and technically reasonable business models for network operators, producers as well as end users who have the chance to come into operation in active distribution networks until 2050.
Construction of a local biogas grid in Güssing - Technical and economical concept for the implementation
Decentralized energy supply systems are a very important contribution for the use of regional potentials as these technical solutions are always fitted to specific conditions. Local biogas grids should complement already existing technologies and be analyzed accordingly.
Evaluation of requirements and framework conditions for the implementation and the operation of a Contracting Platform for SME´s in Austria for the cost efficient identification and realisation of energy efficiency measures.
Development of a new surge tank system for pumped storage schemes (PSS) for the governing of the changing requirements in electricity networks due to integration of renewable, volatile energy sources.
Developing of a application for central visualisation of the energy and resource demand in a private household "ZENVIS"
The main focus of the research project ZENVIS is set on the analysis of the benefits provided by a "visualization device", which gathers the readings of energy and resource consumption (electricity, gas, water, heat energy and fuel consumption). This device ought to find its use in households and to allow the consumer to observe and to control his energy consumption.
Development of agitation systems in biogas plants in order to optimize mixing-behaviour and to reduce energy demand with the help of Computational Fluid Dynamics (CFD) simulation
The purpose of this project is the investigation of the mixing-behaviour and performance of the agitation systems in biogas plants, and to present them through Computational Fluid Dynamics (CFD) simulation. This EDP-tool can model and predict the actual fluid dynamics in a closed system. Thus it may help to plan optimal reactor geometries, position and combination of agitation systems as well as to minimize the energy requirements.
Development of an innovative service system to increase the efficiency of public street lighting in municipalities.
The aim is to develope a innovative street lighting service system in order to increase energy efficiency: quick-checks.energy monitoring.best-practise-catalogue.benchmarking.excursions.information.training.info-point.attendant process.congress.preparation efficient street lighting model region
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.
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.