Suchergebnisse für "Factsheet: Energietechnologien gestalten, die für alle sinnvoll und nutzbar sind"
Integration of wind energy by load management
Simulation of optimal strategies to integrate wind energy in Austria and Germany under consideration of load management to maximize the resulting CO2-savings.
Integration by Cooperation
The aim of the project was to assess which forms and conditions of interaction can foster the integration of higher shares of distributed generation into the Austrian electricity grid.
Virtual Green Power Plant
Preparation and initiation of the implementation of a Virtual Green Power Plant based on renewable energy sources at the Program Responsible Party of oekostrom AG - The conception of a power utility within the Austrian power market.
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.
Virtual Biogas - Biogas-Upgrading and Grid-Injection
Production of natural gas substitute from biogas and grid-injection to the public natural gas grid on an industrial scale using the two-staged membrane separation process gaspermeation. Design and erection of the upgrading plant at the biogas plant Bruck/Leitha as well as monitoring and optimisation of the operational characteristics.
Indicators of social sustainability for energy regions of the future (SONAH)
Set of social sustainability indicators, oriented at practice needs, and concept for their use in energy strategy processes, regional energy concepts, planning and operation of plants generating renewable energy
Integral Resource Optimization Network Study
A robust, distributed control network for optimizing the resource "electrical energy". Consumers, producers and storages network in a self-organized way and coordinate autonomously their usage of electrical energy. Load-shaping, transparent flow of information, system-wide increase in efficiency.
Upgrading of biogas for the gas distribution system of Salzburg
Development of a cost-effective cleaning unit, free of waste-products, for the upgrading of biogas to natural gas quality. Elaboration of the basis for a demonstration project injecting biogas into the gas distribution system of Salzburg.
Design of pumped storage schemes
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.
Integral Resource Optimisation Network - Concept
An integral control network for optimizing the resource "electrical energy". Concept for new, innovative services for the power market based on the latest advances in the field of modern information- and communication technologies.
Field test of a virtual power Plant comprising 30 pellet-boiler fired micro-CHP modules
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.
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.
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.
Integration of renewable energy sources for district heating in cities
Portfolio of technologies and action plan for the integration of renewable energy sources for district heating in cities and for enhancing the total efficiency of the supply chain from energy input to energy service.
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.
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.
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.
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.
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.