Inhaltstyp
Kategorien
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DEDAluS
- /en/research-topics/wire-based-additive-manufacturing/projects/dedalus
approaches to material design, taking into account the specific characteristics. First, promising alloy systems and strategies for further development will be investigated. On this basis, an experimental development [...] investigated. The project is divided into four main objectives: Identification of promising alloy systems and further development strategies. Experimental alloy development of aluminium wires for the DED-AM [...] economic potential of the new alloy. Thermodynamic simulations were used to identify promising alloy systems and further development strategies. This was followed by the experimental development of aluminium
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LH2-WAM-Tank
- /en/research-topics/wire-based-additive-manufacturing/projects/lh2-wam-tank
Initial situation and project goals Stainless steel is too heavy a tank material for aviation mobility systems. Aluminium offers itself as a suitable structural material to reduce weight and significantly increase [...] significantly more advantageous than all currently known LH2 storage solutions for today's mobility systems. Results As part of the design studies, both the conceptual tank interconnection for operation with [...] christian.schneider-broeskamp(at)ait.ac.at Project partners Dr. Ryll Lab GmbH TEST-FUCHS Aerospace Systems GmbH TEST-FUCHS GmbH Peak Technology GmbH Funding organization Österreichische Forschungsförderu
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HELENA
- /en/themen/solid-state-batteries/projects/helena
realistic use cases from automotive and aeronautic applications will be evaluated with numerical system simulation. Artur Tron, battery expert at AIT, highlights that solid-state battery technology is
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SELFIE
- /en/research-topics/electric-powertrains/projects/selfie
charging or excessive discharging of the battery. In this context, an efficient thermal management system that regulates the temperature of the battery in a targeted manner and thus significantly optimizes [...] energy-efficient concept for battery thermal management was developed. An adaptive design of the battery system allows flexible expansion of battery capacity and voltage. This novel solution has been thoroughly
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NextETRUCK
- /en/research-topics/electric-powertrains/projects/nextetruck
for truck cabins, such as the implementation of infra-red heating panels, the re-design of the HVAC system with heat recovery or the development of a digital-twin based control strategy for thermal management [...] developments on three pilot sites to validate their feasibility and performance compared to existing systems for medium-duty trucks. In this way, we want to make a significant contribution to decarbonization
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DigiCell
- /en/themen/battery-materials-characterization/projects/digicell
performance at cell level. Thus, the project addresses key challenges in the context of novel battery systems. AIT: Research for the future of battery technology The AIT Austrian Institute of Technology plays