Projects
There are 70 results.
TANZ - Exploration of a regional living lab: Tourism as an opportunity for the energy transition in Pinzgau
Exploration for a regional living lab to accelerate Austria's climate neutrality in 2040 in the tourism region of Pinzgau. Based on numerous preliminary works, model solutions (“Realtests”) for the innovation fields of sector coupling, energy communities and sustainable heating solutions were designed, the organisational structure of the living lab is developed and stakeholders were actively involved.
Tariffs4all - Participation of the citizens from Bruck in the energy transition for all
The project responds to the challenges of participation in the energy transition in the municipality of Bruck/Mur by exploring the possibilities of Power Purchase Agreements (PPAs), Peer to Peer Trading (P2P Trading) and virtual metering points for generation plants be developed and implemented as a basis for new tariff/financing models.
Twin2Share - Digital twins for energy optimization in energy communities (ECs)
Digital twins to support energy communities over their life cycle. The project focuses on optimizing energy efficiency and costs, dynamic load management and the integration of users to promote sustainable energy use and the stabilization of the electricity grid.
Urban Sky - Satellite-based planning and analysis applications for climate-neutral and resilient cities
The project investigates how satellite data can support cities and municipalities (e.g. urban development, spatial energy planning, mobility transition). Based on demand and potential analyses, service concepts will be derived that integrate existing data and tools with satellite applications. The results will be presented in a study and a Space4Cities implementation roadmap.
Vision4Voitsberg - Climate neutrality plan 2040 for the municipality of Voitsberg
Voitsberg aims to support the achievement of national climate goals by developing a tailored roadmap that builds on existing projects and targets climate neutrality by 2040. This roadmap will be created in close collaboration with the city administration, key interest groups, and decision-makers from politics and business.
Wood.TAB - Investigation of thermally activatable timber components incorporating phase‑change materials for heating and cooling
Wood.TAB develops thermally activatable timber components with biogenic phase‑change materials for efficient heat and cold storage. The technology uses the building mass as a thermal storage system, reduces peak loads, and improves indoor comfort.
Wärmezukunft Steyr - Innovative Models for Climate-Neutral Heat Supply in Steyr
The project aims to establish the foundation for a climate-neutral, socially inclusive, and economically viable heating and cooling system in a pioneer city. It combines technical planning with governance approaches and the development of business and operator models. A special focus is placed on anergy networks, which - despite high upfront investments - offer strong potential for low-temperature, dual-purpose heating and cooling supply.
ecoRegeneration: Development of a "Merit-Order" in order to assess regeneration heat for geothermal probes within urban residential neighbourhoods
In urban residential areas there are not enough active-cooled usages, to use the waste heat of the cooling process as required regeneration heat for geothermal probes; free cooling of the apartments is not sufficient. The project is developing various options (waste heat from commercial uses in the ground floor zones of residential buildings, by using waste heat of data centres, additional installation of heat generation systems for regeneration) within the urban settlement area, business models and is calculating life-cycle-costs of all solutions. The result should be a kind of "merit order" for regeneration heat.
scaleFLEX - Scalable method for optimizing the energy flexibility of districts
Development of a decentrally organized automation method for improving the demand-side flexibility options of buildings and districts. The utilized data-driven algorithm promise high scalability and therefore low installation and operating costs. The developed method will be validated using different building types (high-tech office buildings, low-tech office buildings, residential buildings).
ÖKO-OPT-QUART - Economically optimized control and operating mode of complex energy networks of future city districts
In the project ÖKO-OPT-QUART energy-based, economic and control-orientated models will be developed in order to simulate the operating mode of complex, sustainable energy networks in city districts. For an exemplary configuration these models will be combined to an overall model which allows a realistic economic comparison of different control strategies. The final goal of the project is the development of a method for the systematic design of cost-optimized, predictive control strategies for complex energy networks in city districts.