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Klimaneutrale Stadt

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.

Klimaneutrale Stadt

Thannhausen 2.0 - Thannhausen energy district: a role model and testbed for a renewable energy supply for neighbourhoods

Evaluation and testing of different energy distribution approaches in a neighbourhood using direct lines, storage or new legal options through the ElWG (Electricity Industry Act). The project builds on the existing direct line system in Thannhausen and will test different use cases for the (climate-neutral) supply of neighbourhoods there.

Stadt der Zukunft

Urban MoVe - Private law contracts as innovative instruments for city and mobility planning.

The research project Urban MoVe investigated to what extent private-law contracts (e.g. mobility contracts, funds, urban development contracts) are suitable as municipal planning and steering instruments for mobility at residential locations based on best practice analyzes and implemented national practical examples.

Stadt der Zukunft

UrbanEnergyCells - Requirements for the implementation of energy cells in future energy system designs

The transformation of the currently hierarchical electricity system into a renewable, decentralized electricity system poses major challenges for the actors in the energy industry and society. Most of the installed decentralized renewable energy sources are installed in rural areas, due to easier legal implementation and shorter decision-making pathways. However, the energy density in urban areas is significantly higher, resulting in a transport of electrical energy to the consumption centers.

Stadt der Zukunft

Urbane GmbA - Urban potential of greenable area in the obscured stock

Urbane GmbA aims to explore and assess the potential of greenable area from building and obscured stock (vertical and horizontal areas) in Vienna, to apply currently available survey instruments and to show research and development needs.

Stadt der Zukunft

VERTICALurbanFACTORY

The project researches possibilities and potentials of highly efficient use of space through modern concepts of "stacked" functions and vertical production.

Stadt der Zukunft

VITALITY - Energy optimised design rules and integral planning approach for building-integrated photovoltaics in urban areas

The VITALITY project aims to provide supporting tools, design rules and robust information in the early decision and design phase of building projects. By providing the right information at the right time, building-integrated photovoltaics (BIPV) is part of the discussion in the concept phase and the implementation is strongly prepared and supported.

Klimaneutrale Stadt

WISE - Extension of the safety concept for heat pumps with flammable refrigerants for gas boiler replacement

In the project "WISE", safety concepts are being developed for the event of a leak in which flammable refrigerant escapes from the refrigeration circuit. These concepts aim to ensure a higher level of safety for residential installations than is currently required by the safety standard.

Klimaneutrale Stadt

sewageENERGYrecovery - Performance comparison of different wastewater heat recovery systems for renewable heat generation

Independent detailed testing of the performance and efficiency of different wastewater heat recovery systems in actual operation by analysing measurement data. Evaluation of the analysed systems with regard to their optimal application possibilities.

Haus der Zukunft

solSPONGEhigh - High solar fraction by thermally activated components in an urban environment

Within this project the intensive use of thermally activated building elements (TABs) as an additional thermal storage in different buildings, with solar technologies (thermal, PV) preferred for energy supply, was investigated. The aim was to activate and use the thermal storage potential that is immanent in the building elements and thereby achieve solar coverage of the building's heat demand of nearly 100 %.