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Energiesysteme der Zukunft

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.

Energiesysteme der Zukunft

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.

Energiesysteme der Zukunft

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.

Stadt der Zukunft

Itz Smart – Carbon neutral city district development Itzling – Implementing innovation and technology via co-operative process design

The goal of the project “Itz Smart” is to tie in with existing activities and to consistently develop Itzling as a residential location further. In the test and demonstration area, sustainable residential quarters with trendsetting solutions for mobility are developed in the zone of the transport axis (railway and Schillerstraße) and along the local supply axis (Itzlinger Hauptstraße). The consideration of housing and mobility with regard to the aspect of “city of short ways“ also entails a discussion of determined mixed utilisation and the development of such residential quarters.

Haus der Zukunft

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.

Energiesysteme der Zukunft

KOMEOS - Konzeption von Modellen multifunktionaler Energiezentren für die Ost-Steiermark

Within the region of East-Styria a variety of so-called regional multifunctional energy centers have been designed for selected location which can be characterized by generating renewable energy and additional products or services. Identification of optimum set-up of energy centers. General recommendation for implementation.

Haus der Zukunft

LTS Flywheel - Long Term Storage-Flywheel: New approaches for increasing the economically usable storage time and safety

Development of the fundamentals for a Long Term Storage (LTS)-flywheel for decentralized storage of electrical energy (e.g. from wind or PV power plants), with a significant increase in storage time (goal: 12 hours) and safety, featuring low system costs. Therefore, the LTS-Flywheel is an essential contribution to the building of the future.

Energiesysteme der Zukunft

Legal, economical and technical preconditions for the feed-in of biogas into the Austrian natural gas grid

Legal, economical and technical preconditions for a successful introduction and market development of fermentation gas feed-in to the Austrian natural gas grid. Appropriate legal and financial support regulations. Calculation basis for demonstration plants.

Energiesysteme der Zukunft

Long-term scenarios of the austrian electricity system

Economic analyses and scenarios of the evolution of the Austrian electricity supply system until 2050 in consideration of various technology options in order to provide energy services optimally from society's point of view.

Haus der Zukunft

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.

Energiesysteme der Zukunft

Manual to realise initiatives for energy regions of tomorrow

Compilation of the manual to realise initiatives for energy regions of tomorrow; integrating the experiences generated in the winner projects, outcomes of representative energy-projects and the know-how of scientific works; distribution by multiplicators, realization of distribution activities

Nachhaltig Wirtschaften

Market survey of energy storage technologies in Austria (MSSP2020)

Stationary battery storage devices for the maximisation of the private consumption in PV-systems, large heat storage for local and district heating systems, thermal activation of buildings and the area of innovative storage systems have been chosen for the first market survey within this project. The historical market diffusion of these technologies is surveyed empirically and documented up to 2020.

Energiesysteme der Zukunft

Multifunctional Energy Centre Kötschach-Mauthen - model-system to achieve energy-self-sufficiency

Development of concepts for a multifunctional Energy Centre (biomass district heating und biogas polygeneration for the supply of heat, electricity, process heat, cooling and biofuels) and for a "Öko-Energietourismus" for the community of Kötschach-Mauthen on the way to energy-self-sufficiency

Energiesysteme der Zukunft

Multifunctional energy solutions in tourism

Multifunctional energy solutions for the tourism-region Alpendorf: Increasing energy efficiency, use of renewables, organisation measures considering existing cooperations.

Haus der Zukunft

OPEN HEAT GRID - Open Heat Grids in urban hybrid systems

The primary research topic of OPEN HEAT GRID was to investigate the possibilities of enforcing the feed-in of industrial waste heat into existing district heating networks. The project results show that excess heat is not for free: despite minimal variable costs, the investment costs need to satisfy usual payback periods. The analysis shows that there is no need for a regulation in the sense of a feed-in obligation or market liberalization. However, from an economic point of view, information asymmetries exist, which may lead to irrational decisions.

Energiesysteme der Zukunft

Open up Austria's biomass potential till 2050

Development of an optimal strategy to open up Austria's biomass potential until the year 2050. The optimal strategy maximizes the reduction of GHG emissions. Provision of an action plan for a temporal dynamic implementation of this strategy.

Energiesysteme der Zukunft

Options needed to achiece energy-self-sufficiency in the district Güssing

Based on the results of the concept "Energy-self-sufficient district Güssing", in this project feasibility studies for a self-sufficient energy- (model) -system on the basis of regional renewable energy sources in the district Güssing will be elaborated. Thereby the second step towards implementation will be done.

Energiesysteme der Zukunft

Organisation and initiation of a multfunctional energy - centre in the community Deutschlandberg

Conception and implementation of a multfunctional energy - centre considering as exemple "Model Güssing", where different possibilities concerning the production- and consumerside are optimised together in order to achieve the aim of an energy - self-sustaining community Deutschlandsberg.

Haus der Zukunft

P2H-Pot - Potentials, economic feasibility and system solutions for Power-to-Heat

P2H-Pot has identified economically feasible potentials for Power-to-Heat (P2H) in urban regions. The suitability of different technical system configurations were investigated using thermodynamic simulation and considering experiences from Scandinavian cases. The assessment of short, medium and long term relevance and economic feasibility of P2H were accomplished by simulating model-based scenarios up to 2050 of the Austrian and German electricity and heat market. In cooperation with a district heating company three case studies have been carried out.

Haus der Zukunft

PEAR – Test facility for energy efficient automation and control of buildings

The energy demand calculated in the design phase often differs from measured values in the actual building operation. This projects reviews building automation and operation by presenting a solution how to assess energy efficiency of control strategies in the fields of air conditioning systems, concrete core activation and free cooling. The results are implemented in the demonstration building "Post am Rochus".