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Performance+ - PV System Optimisation
- /en/research-topics/power-electronics-system-components/projects/performance-pv-system-optimisation
PV systems, thus serving to optimize and enhance the performance, reliability and lifetime of commercial PV systems. Means for a better integration of PV-generated electricity into the power system shall [...] management and storage control, PV system monitoring and control. The goal is to improve the competitiveness of PV on the system level. This will be achieved by optimising the system as a whole rather than the [...] Performance+ - PV System Optimisation Beyond Improving Components: System Level Optimisation For a continued decrease of levelised costs of electricity from photovoltaics (PV), the prices of modules, inverters
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IEA HPT Annex 61
- /en/themen/efficient-buildings-and-hvac-technologies/projekte/iea-hpt-annex-61
markiert. Name * E-Mail * Betreff * Nachricht * Send DI Dr. Christoph Reichl Sustainable Thermal Energy Systems +43(0) 50550-6605 +43(0) 50550-6679 christoph.reichl(at)ait.ac.at Eckdaten Projektstart: 01.11.2022
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Sinergy
- /en/research-topics/power-electronics-system-components/projects/sinergy
Betreff * Nachricht * Send DI Dr. Johannes Stöckl Senior Research Engineer / Power and Renewable Gas Systems +43 (0) 50 550-6032 +43 (0) 50 550-6390 johannes.stoeckl(at)ait.ac.at Key Facts Project start: January
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Projects
- /en/research-topics/efficient-buildings-and-hvac-technologies/projects
PowerPack Immobilie II metaTGA MetabuildingLabs IEA HPP Annex 43 IEA HPT Annex 60 Retrofitting Heat Pump Systems in Large Non-domestic Buildings HVAC Positioner The first App for selecting the most suitable heat
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IEA HPT Annex 59
- /en/research-topics/efficient-buildings-and-hvac-technologies/projects/iea-hpt-annex-59
Betreff * Nachricht * Send DI Dr. Michael Lauermann Research Engineer / Sustainable Thermal Energy Systems +43 50550 6414 Michael.Lauermann(at)ait.ac.at Key data Project start: 01.12.2022 Project duration:
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Sponge - Smart Grids Rapid Prototyping
- /en/research-topics/power-electronics-system-components/projects/sponge-smart-grids-rapid-prototyping
with regard to smart grid services and power electronics. Therefore, procedures and methods for system design as well as the development process itself will be evaluated with regard to their optimization [...] the methods and concepts for development support are validated in an overall view from concept to system verification. Project partners Schneider Electric Power Drives GmbH Tajfun-HIL (Serbia) Sponsor: [...] Betreff * Nachricht * Send DI Dr. Johannes Stöckl Senior Research Engineer / Power and Renewable Gas Systems +43 (0) 50 550-6032 +43 (0) 50 550-6390 johannes.stoeckl(at)ait.ac.at
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KAT-PAWS
- /en/research-topics/energy-conversion-and-hydrogen/projects/kat-paws
photocatalysts, employed in photoreactors for the production of green hydrogen. The investigated material system is complex, with interactions between the plasmon particles, the catalytic metal and the photocatalyst [...] Therefore, a conventional experimental design is not suitable for a comprehensive investigation of the system and must be replaced by a resource-saving approach. By using time-, material- and energy-saving [...] efficiency for hydrogen production, achieving an increase of over 30% compared to plasmon-free systems. Savings of critical raw materials (such as Pt) through the application of material-efficient deposition
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Cotevos - Developing Capacities for Interoperability Asse
- /en/research-topics/power-electronics-system-components/projects/cotevos-developing-capacities-for-interoperability-asse
Engineer / Power and Renewable Gas Systems +43 (0) 50 550-6032 +43 (0) 50 550-6390 johannes.stoeckl(at)ait.ac.at Publications M Nöhrer, F. Lehfuss, J. Stöckl: "Flexible Test System Architecture for Electric Vehicle [...] objective of WP3 is to analyse, define and develop the reference architecture to assess that EV/EVSE systems can interoperate and be used by the smart grid actors, as defined in M/468 (Standardization for road
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ABS4TSO
- /en/research-topics/power-electronics-system-components/projects/abs4tso
angle stability by means of converter-based generation and storage systems. Based on the analysis of expected future demand for such system services, several implementations are examined through comprehensive [...] achieving system stability, this investigation focuses on the following applications: Frequency stabilization via virtual inertia Provision of highly dynamic control power Damping of system oscillations [...] Betreff * Nachricht * Send Adolfo Anta , PhD Senior Research Engineer / Power and Renewable Gas Systems +43 50550 6031 +43 50550 6390 adolfo.anta(at)ait.ac.at
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Electrolyzer
- /en/loesungen/wasserstoff/wasserstoff-forschung-entwicklung/electrolyzer
are working on optimizing membranes in AEL systems to improve ion conductivity and reduce electrical resistance, which could boost system performance. System Integration: Another research focus is integrating [...] of materials, components and systems AIT offers comprehensive expertise in the development of new materials for electrolyzers as well as in the validation of complete systems. This includes the optimization [...] the alkaline environment. Higher System Complexity: AEL requires additional components for electrolyte management due to the use of liquid electrolytes, increasing system complexity and maintenance requirements
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Safety measures for flammable refrigerants
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knowledge regarding the safe future use of flammable refrigerants in heat pump and refrigeration systems up to 50 kW for room temperature control and hot water preparation will be developed and made available [...] contribute to the widespread and safe use of flammable refrigerants in heat pump and refrigeration systems up to 50 kW for room temperature control and domestic hot water heating in Austria. Specifically [...] 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: 01.12
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Energy logistics & transport optimisation
- /en/research-topics/integrated-energy-systems/energy-logistics-transport-optimisation
mobility system. Railway systems and inland waterways as central elements of the mobility system Alongside roads and cars, rail and inland waterways play an important role in the mobility system. AIT is [...] resilient mobility system that meets growing demands and minimises environmental impact. Holistic view and sector coupling for a sustainable mobility system A holistic view of the mobility system is central to [...] Coupling with other sectors, such as the energy system, plays an equally important role. Drones (Unmanned Aerial Vehicles) as a supplement to the mobility system Drones, also known as Unmanned Aerial Vehicles
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Drive Testing Laboratory
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electrical drive trains can be tested. The test bench responds to the system based on (vehicle) model and the actual performance of the system. The services include the following aspects: Customer specific drive [...] and time-synchronous datalogging Efficiency Maps The automated measurement of efficiency maps at system level including the data acquisition of electrical, mechanical and thermal values: Freely definable [...] Testing and validation of power electronics for electric mobility on component level or within the system: Thermal and electrical validation of semiconductor modules Optimization of commutation by means
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ALRIGH2T
- /en/research-topics/hybrid-electric-aircraft-technologies/projects/alrigh2t
identify the most cost-effective and efficient solution. Using simulations in the TESCA (Techno-Economic System and Component Analysis) framework, AIT is investigating the economic viability of hydrogen supply [...] provide an in-depth understanding of the thermomechanical interactions between hydrogen and tank system and are supported by experimental data from sensor-equipped tanks. The goal is to create a “digital
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Controller Hardware-in-the-Loop Services
- /en/solutions/power-system-technologies/development-of-power-electronics/controller-hardware-in-the-loop-services
the development of new power electronic systems, particularly in the context of energy conversion and renewable energy. For components of energy supply systems, where high power and energy levels are involved [...] power electronics part of a system, represented as a real-time model, with the physical control hardware via a custom interface. This method allows testing of control systems under real and extreme con [...] CHIL, developers can design more efficient, robust, and grid-compliant systems that meet the challenges of modern energy systems. Controller Hardware-in-the-Loop offers: Risk-free testing under real and
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WBG - Wide-Bandgap Halbleiter
- /en/solutions/power-system-technologies/development-of-power-electronics/wbg-wide-bandgap-halbleiter
DC/AC converters for photovoltaic systems, wind turbines, EV charging applications, drivetrain systems, data center applications, aviation, aerospace, and maritime systems. Testing and Characterization of [...] electronic systems. They offer ultra-high power density (reduced heatsink volume due to lower losses and more compact passive components enabled by higher switching frequencies), reduced system complexity [...] tailored solutions. This extends to single-phase and three-phase systems as well as low- and medium-power applications. To optimize system power density, increase voltage ratings, or enhance current-carrying
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Medium-voltage power electronics
- /en/solutions/power-system-technologies/development-of-power-electronics/medium-voltage-power-electronics
application fields for DC systems, such as: Connecting photovoltaic and wind energy systems to public grids. Interfaces for electromobility (medium-voltage multi-megawatt charging systems). Integration with storage [...] storage systems (batteries, electrolysis, fuel cells). In industrial power supply systems, advanced DC technology also plays a key role in the energy transition, offering greater flexibility, energy efficiency [...] power demands across various applications. These include renewable energy sources, onboard power systems in vehicles, aircraft, and ships, as well as data centers for AI algorithms. Medium-voltage direct
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AIT HIL Controller
- /en/solutions/power-system-technologies/development-of-power-electronics/controller-hardware-in-the-loop-services/ait-hil-controller
mode. Customize the model for your power conversion application (grid-feed-in, microgrid, off-grid system, etc.). Execute various test cases using the HIL Control Center (or other open-source testing platforms) [...] Boot Flasher application (no JTAG required!). Test and validate your control design with your HIL system. Connect the controller to your target power converter and start it! Directly from HIL SCADA Create [...] einem * markiert. Name * E-Mail * Betreff * Nachricht * Send Anja Banjac Power and Renewable Gas Systems +43 50550 6359 anja.banjac(at)ait.ac.at HIL Software Package Version 1.0.1 This package contains
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Hydrogen research & development
- /en/solutions/hydrogen/hydrogen-research-development
electronics systems and topologies for hydrogen systems (rectifiers for electrolyzers, inverters for fuel cell systems) Development of hybrid system concepts (integration with PV, batteries, thermal systems, wind [...] develops tailored power electronics systems and topologies for hydrogen systems. This encompasses rectifiers for electrolyzers as well as inverters for fuel cell systems to ensure optimal integration and [...] and efficiency of these systems. Another focus of hydrogen research is the development of hybrid system concepts. These involve coupling hydrogen systems with renewable energy sources such as photovoltaics
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Energy Markets & Energy infrastructure
- /en/solutions/energy-markets-energy-infrastructure
Planning and development of hydrogen networks, CO₂ networks, and storage systems. Assessment and modeling of costs and incentive systems to support infrastructure planning. Scenario development: Creating future [...] energy system might look like. Impact analysis: Quantitative and qualitative evaluation of how innovative technologies and solutions influence CO₂ emission reductions and the economic system, providing [...] Development of storage and transport systems for energy carriers such as hydrogen, heat, batteries, and CO₂. Digital modeling and optimization of energy systems. A particular focus is placed on cost
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