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BI-FACE

• /en/research-topics/photovoltaics/projects/bi-face

that influence the energy yield (e. g. tilt and distance between modules, reflecting surfaces, shading, cell spacing, materials used and weather conditions). A holistic approach to energy performance needs

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hub.connect

• /en/research-topics/transport-optimisation-energy-logistics/projects/hubconnect

MSc Research Engineer / Integrated Energy Systems +43 50550-6649 +43 50550-6439 martin.reinthaler(at)ait.ac.at Project partners IESTA - Institute for Advanced Energy Systems & Transport Applications Automobil

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Novel recycling technologies for European aluminium

end-of-life (EoL) and production waste has enormous potential and requires only five percent of the energy needed to produce primary material. Given its crucial role in global decarbonization, the RecAL project [...] and contributes significantly to industrial and technological symbiosis on a large scale by linking energy, resource and data cycles at regional and European level. Innovative cooperation between research

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RESTINA: Sustainable anode materials for the batteries of tomorrow

the Si/SnS2 composites: the solvothermal process using environmentally friendly solvents and high-energy ball milling.  In addition, to improve environmental compatibility, carbon-based protective [...] battery generations. The project shows how materials research can make a concrete contribution to the energy transition – from the idea to the pilot cell," explains Dr. Damian Cupid, Senior Scientist at the

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AIT appoints new Principal Scientist for its 6G research focus

technological developments are required. High resilience, top functionality, Security by Design and high energy efficiency according to established standards are imperative to ensure further networking. For this [...] latency (maximum 100 microseconds delay) and high reliability (over 99.999%). 6G systems also reduce energy consumption and increase competitiveness - in line with the European Green Deal goals of improved

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AIT AND ERICSSON AUSTRIA START COOPERATION IN THE FIELD OF THE MOST MODERN RADIO COMMUNICATION SYSTEMS

technological solutions for radio communication of the future. Maximum reliability and security, energy efficiency, use of distributed multiple antennas and effective use of the existing radio frequency [...] Safety & Security. The aim is to develop new radio technologies for highly secure, reliable and energy-efficient radio-based communication systems - for the most modern industrial applications, new mobility

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Semi-Solid Casting

• /en/research-topics/casting-technologies/semi-solid-casting

casting integrity and minimizing porosity. In addition, it offers cost and energy efficiency: the reduced melt temperature decreases energy consumption in the holding furnace and lowers thermal fatigue on the

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Open radio access networks (O-RAN)

• /en/research-topics/enabling-digital-technologies/solutions-services/wireless-communications/projects-1/open-radio-access-networks-o-ran

speed, lower consumer prices through greater competition and better quality, some trade-offs such as energy efficiency or cyber security are still questionable, especially from the viewpoint of European t

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InnoSens

• /en/research-topics/crisis-disaster-management/translate-to-english-projekte/innosens

systems in the future. This will lead also to more precise traffic flow optimization, pollution and energy reduction. In order to evaluate and demonstrate the research results a prototype shall be realized

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fit4power2heat

• /en/themen/integrated-energy-systems/projects/fit4power2heat

months PROJECT PARTNERS AIT Austrian Institute of Technology GmbH ENGIE Building Services GmbH ENGIE Energy GmbH FUNDING City of the Future 4th call for proposals PUBLICATIONS Electricity market options for

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ReFlex

• /en/research-topics/societal-futures/projects/reflex

with a high level of flexibility. The focus will be on grids with expectedly high level of renewable energy production which shall be effectively and efficiently used locally through a mix of measures in voltage

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InnoSens

• /en/research-topics/crisis-and-disaster-management/projects/innosens

systems in the future. This will lead also to more precise traffic flow optimization, pollution and energy reduction. In order to evaluate and demonstrate the research results a prototype shall be realized

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PlanGridEV - Integration of Electric Vehicles into Distri

• /en/plangridev

different network topologies and with different levels of DER penetration such as PV, wind and solar energy and micro CHP. Highlights Planning rules and operational principles for the optimal integration of

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Post-Mortem-Analysis

• /en/labs/post-mortem-analysis

dispersive X-ray fluorescence analysis (WD-XRF) X-ray diffraction (XRD) Scanning electron microscope with energy dispersive X-ray fluorescence analysis (SEM/EDAX) BET measurements to determine the specific surface

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Heat Treatments

• /en/labs/heat-treatments

Treatments At LKR alloys can be adjusted to strength ultimate values, optimizing of heat treatments and energy savings can be carried out on laboratory base. Our Services Inert gas heat treatments Heat treatment

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Data driven performance and failure diagnosis of PV syste

• /en/solutions/photovoltaic/data-driven-performance-and-failure-diagnosis-of-pv-systems

Betreff * Nachricht * Send DI Christoph Mayr Business Manager for Photovoltaic Systems & Battery Energy Storage +43 50550-6633 +43 50550-6390 christoph.mayr(at)ait.ac.at

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DELIVER

• /en/solutions/plan/deliver

E-Mail * Betreff * Nachricht * Send DI (FH) Martin Reinthaler , MSc Research Engineer / Integrated Energy Systems +43 50550-6649 +43 50550-6439 martin.reinthaler(at)ait.ac.at Download the factsheet Factsheet

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Electra - Voltage and frequency control for future power

• /en/research-topics/power-system-planning-operation/projects/electra-voltage-and-frequency-control-for-future-power

Electra - Voltage and frequency control for future power The whole-sale deployment of Renewable Energy Sources (RES) connected to the network at all voltage levels will require radically new approaches

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BIM parameters for building materials

• /en/research-topics/efficient-buildings-and-hvac-technologies/projects/bim-parameters-building-materials

E-Mail * Betreff * Nachricht * Send DI Dr. Gerhard Zucker Senior Scientist / Sustainable Thermal Energy Systems +43 50550-6591 gerhard.zucker(at)ait.ac.at Key Facts Project Duration: 9/21 - 8/23 Project

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Safety measures for flammable refrigerants

• /en/research-topics/efficient-buildings-and-hvac-technologies/projects/safety-measures-for-flammable-refrigerants

Name * E-Mail * Betreff * Nachricht * Send DI Bernd Windholz Research Engineer / Sustainable Thermal Energy Systems +43 (0) 50 550-6385 +43 (0) 50 550-6679 bernd.windholz(at)ait.ac.at Key data Project start:

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