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Project duration: 2025-01-01 - 2027-12-31

Simulation and validation of (surface) quality characteristics of large-area lightweight components in injection molding with gas-loaded plastic melts

The aim of the project is to reduce the energy consumption in the thermoplastic foam injection molding by replacing energy-intensive variothermy with the use of novel coating strategies. Energieeffizienz Produkte und Produktion Produktionstechnik Prozesstechnik Prozess- und Verfahrenstechnik Spritzguss Spritzgussverfahren Werkstofftechnik Werkstofftechnik und Materialwissenschaft
Project duration: 2024-05-01 - 2027-04-30

Data Science for Sustainability

In the face of global challenges such as climate change, environmental pollution and increasing resource consumption, identifying sustainable solutions is of the utmost importance. AI4GREEN is a future-oriented initiative. Energieeffizienz Automatisierung Digitale Transformation Effizientere Nutzung von Rohstoffen und Energie Energietechnik Nachhaltigkeit Werkstofftechnik
Project duration: 2024-01-01 - 2025-12-31

DBU_HELIOS - Predictive Spatial Analytics for Solar Energy Grid Integration: Enhancing Reliability and Efficiency

The "Helios" energy meteorology project is developing precise PV forecasts using cloud camera data in order to optimize the integration of solar power into electrical grids. Energieeffizienz Bauen, Planen und Energie Solarenergie
Project duration: 2023-11-01 - 2025-10-31

Climate neutrality through networking in neighborhoods

Analysis and tool development for the development of transformation pathways to climate neutrality with the help of low-temperature networks in neighborhoods.
Overall lead for THRO input THRO: Prof. Dr.-Ing. Isabell Nemeth, Prof. Dr. Jochen Stopper
Energieeffizienz Bauen, Planen und Energie energieeffiziente Gebäude Klimaschutz Klimawandel nachhaltiges Bauen Nachhaltigkeit
Project duration: 2023-05-01 - 2026-04-30

KICK-PV: AI-based characterization and classification of PV systems for predictive maintenance

Improvement the precision of remote maintenance of photovoltaic systems using AI methods. Fault patterns are to be assessed according to and cause in order to prevent damage at an early stage.
Sub-project lead THRO: Prof. Dr. Achim Schulze
Energieeffizienz Energietechnik KI Künstliche Intelligenz Photovoltaik Übergreifend
Project duration: 2023-04-01 - 2027-03-31

H2-Reallabor Burghausen / ChemDelta Bavaria

The aim of the H2-Reallabor Burghausen / ChemDelta Bavaria is to transform the industrial chemical value chain towards sustainable hydrogen-based chemistry. Energieeffizienz Bauen, Planen und Energie Energietechnik Prozesstechnik Wasserstoff Werkstofftechnik
Project duration: 2023-02-01 - 2026-01-31

KSK: Climate protection management Rosenheim Technical University of Applied Sciences - follow-up project

Within the framework of the BMWK-funded project, the measures described in the climate protection concept for achieving the climate protection goals of the Rosenheim Technical University of Applied Sciences are to be implemented or initiated. The overarching goal is to make the university to achieve climate neutrality by 2040.
Sub-project lead THRO: Prof. Dr. Harald Krause
Energieeffizienz Bautechnik Klimaschutz
Project duration: 2022-10-01 - 2023-03-30

LuScha: Untersuchung dezentraler Wohnraumlüftungsgeräte: Notwendiger Luftwechsel vs. Schallemission

Energieeffizienz Bauen, Planen und Energie Lüftungstechnik Schallschutz
Project duration: 2022-09-01 - 2024-02-29

Cool*Alps - TAB goes Green Deal

"Cool Alps" aims to improve adaptability to climate change and energy security in the Alpine region by supporting the spread of innovative thermally activated buildings.
Project lead THRO: Prof. Dr. Harald Krause
Energieeffizienz Alpines Bauen Bauen, Planen und Energie Energietechnik Klimaschutz Klimawandel
Project duration: 2022-01-01 - 2023-12-31

React-EU_Wärmepumpe: Klimaneutrale Gebäude mit Wärmepumpen

Energieeffizienz Bauen, Planen und Energie Energietechnik Klimaschutz Nachhaltigkeit Wärmepumpe

Centre for Research, Development and Transfer

Technische Hochschule Rosenheim

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83024 Rosenheim


FundE[at]th-rosenheim.de

Support of publications

M.A. Laura Scholz

T +49 (0) 8031 / 805 - 2689
laura.scholz[at]th-rosenheim.de