Projects

For the research and active development of the energy system, we are partners and leaders of numerous research projects. The Energieinstitut an der JKU Linz is involved in the further development of the energy system in about 100 R&D projects per year, which are carried out on a national and international level.

A selection of ongoing and completed projects can be found below.

Glühbirne
Energy communities & demand flexibility
Efficient design of grid capacity – Energy communities – Energy efficiency and energy saving
Hydrogen,
power-to-X
& CCU
Decarbonisation targets – Carbon capture and utilisation – Carbon sources and emissions
Energy behavior, engagement & acceptance
Energy system – Decision-making processes – Household surveys and field tests
Industrial processes & circular economy
Energy consumption – New processes – Energy efficiency
Market design & regulation
Transformation of the energy system – Energy market design – New technologies
Energy infrastructure
Further development of infrastructure – Different dimensions
Project Search
Projekt Datum
PEAKapp
Personal Energy Administration Kiosk application: an ICT-ecosystem for Energy Savings through Behavioural Change, Flexible Tariffs and Fun – PEAKapp
01.03.2016 - 30.06.2019
LEAFS – Leitprojekt
Integration of Loads and Electric Storage Systems into advanced Flexicility Schemes for LV Networks
01.11.2015 - 31.03.2019
Tiefengeothermie Potential OÖ
Nutzung tiefer Geothermie in industriellen Prozessen
01.01.2018 - 31.12.2018
Future District Heating System Linz
Sondierung neuer Konzepte für zukünftige Energietransformationen im Linzer Wärmesystem
01.04.2016 - 31.03.2017
Open Heat Grid
Offene Wärmenetze in urbanen Hybridsystemen
01.10.2014 - 31.03.2016
Flex-Tarif
Entgelte und Bepreisung zur Steuerung von Lastflüssen im Stromnetz
01.09.2013 - 31.08.2014
TeKaVe
Technology-neutral capacity mechanisms for a secure energy future
Danube Indeet
Integrated and decentralised concept rethinking energy and transport systems based on renewable energy in the Danube region
FLEDGED
Federated Learning in the low voltage Distribution Grid for Edge AI Applications
ReCycle
Reduction of environmental impact and related recycling capabilities
ReduzAb
CO2-Emissionen REDUZieren durch ABwärme
UrbEnPro
Policy and governance of urban energy prosumption models – examining and co-visioning a social transformation process
HyEfRe
Hydrogen Integration for efficient renewable energy Systems
CleanHeatSelector
Entwicklung eines Entscheidungsrahmens für Vorranggebiete zur Implementierung nachhaltiger Heizwärmetechnologien
NeoBlade
Sustainable development, optimisation methods and construction methods for noise-optimised drone propeller blades
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