There are 40 results.
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.
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.
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.
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.
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.
Production of natural gas substitute with a newly developed gas permeation technology. Optimization of the process with biogas from energy crops fermentation. Screening of new methods of online product gas quality control.
Co-operative merging of the energy supply for the Region of Micheldorf within an operating scheme and supply of energy produced through renewable resources. Sustainable, autarkic, economic energy park. Energy supply by renewable resources for the building of the energy autarkic region Micheldorf-Hirt
Concept development for the implementation of efficient energy services as part of grid connected energy supply to increase energy end-use efficiency.
Analysis of technical, economical and regulatory conditions to get fair terms under competition in the liberalised market for virtual power plants on renewable energy basis.
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.
A virtual biomass plant comprising 30 micro-CHP-Modules, each of them integrated into an existing pellets-boiler in the Austrian region of eastern Styria is to be tested. The goal of this project is to gain experience and to introduce a new sustainable technology.
Further enhancement of biogas production in Vorarlberg with the possible use over the natural gas grid; analysis of the potential availability of fermentation substrates; scenarios for the increase of production capacities in combination with existing plants; technical blueprint of realistic scenarios; economic feasibility of the described scenarios.
Proof of the technical and economic feasibility of the utilization of fermentation gas from agricultural fermentation gas facilities by means of local micro grids.
Together with experts from 11 countries, the EI-JKU has analysed cost-benefit models and developed proposals for their adaptation and further development. In the course of the work, the EI-JKU dealt in particular with two questions: how such an evaluation model can be adapted to Austrian conditions and which socio-economic factors influence the question of whether an end consumer emerges as a winner or loser from Smart Grid-based functionalities.
IEA ISGAN Annex 5: Smart Grids International Research Facility Network (SIRFN). (Working period 2013-2018)
The Smart Grids International Research Facility Network (SIRFN) aims at improving the implementation of Smart Grids technologies by collaboration between smart grid testing facilities, test beds, and large-scale demonstrations. By active participation, Austria’s position and leading role on the forefront of international Smart Grids development has been strengthened.
IEA ISGAN Annex 5: Smart Grids International Research Facility Network (SIRFN). (Working period 2019-2020)
The Smart Grids International Research Facility Network (SIRFN) aims at creating and sharing a comprehensive knowledge-base of smart grid testing facilities, test beds and important demonstration projects. Furthermore the project seeks to improve current smart grid testing and evaluation capabilities and to establish a framework for stakeholders to gain from sharing nonproprietary results, advice and assistance.
IEA ISGAN Annex 5: Smart Grids International Research Facility Network (SIRFN). (Working period 2021-2022)
The Smart Grids International Research Facility Network (SIRFN) aims at improving the implementation of Smart Grids technologies by collaboration between smart grid testing facilities, test beds, and large-scale demonstrations. In the working period 2021-2022, the focus will be laid on the development of extended interoperability tests for decentralised energy resources and micro grids.
In liberalized grids the requirements for pumped storage equipment rise dramatically. The development of a controllable pump turbine to help stabilize the grid is one of the possible solutions to this problem.