Project duration: 2024-07-01 - 2026-06-30

Efficiency and air quality assurance of demand-controlled domestic ventilation systems - ensuring energy efficiency and air quality through quality assurance measures

Airflow Excellence aims to ensure the quality of domestic ventilation systems in order to prevent heat loss.
Project lead THRO: Prof. Dr. Harald Krause

Bauen, Planen und Energie Lüftungssysteme Lüftungstechnik Raumluftqualität


Project duration: 2024-04-01 - 2026-06-30

Investigation of powder-bed-based melting of injection mold inserts with a focus on innovative cooling geometries, new simulation approaches and novel post-processing methods for the targeted adjustment of molded part properties in optical injection molding

The aim of the project is to investigate the powder-bed-based melting of injection mold inserts with a focus on innovative cooling channel geometries, simulation approaches and post-processing methods for adjusting molded part properties.

Produkte und Produktion Prozesstechnik Prozess- und Verfahrenstechnik Werkstofftechnik Werkstofftechnik und Materialwissenschaft


Project duration: 2024-04-01 - 2026-03-31

digi.peer - Digital peer mentoring in the context of a literature and research workshop in the Bachelor's degree program in Social Work

In the digital teaching project digi.peer, students in peer groups are to learn how to use digital future skills when writing their academic theses.
Project lead THRO: Prof. Dr. Edeltraud Botzum

Digitale Transformation Lehre Übergreifend


Project duration: 2024-04-01 - 2026-03-31

Freiraum 2023_Feedback based on Analytics of Teaching and Studying meets Individual Coaching (FANTASTIC)

The FANTASTIC project combines AI-generated feedback with the pedagogy of learning and teaching and the didactics as three essential levels of support in order to improve the learning behavior and thus the and thus the academic success of students in a forward-looking way.

Digitale Transformation Lehre Pädagogik Übergreifend


Project duration: 2024-03-01 - 2029-02-28

Prozess- und Anlagentechnologie für die multifunktionale Imprägnierung von flächigen Faserhalbzeugen aus nachwachsenden Rohstoffen

Bioökonomie und Holztechnologie Produkte und Produktion Prozess- und Verfahrenstechnik Werkstofftechnik und Materialwissenschaft


Project duration: 2024-01-01 - 2028-12-31

Spitzenprofessuren

Project lead THRO: Prof. Dr. Amber Schneeweis

3D Druck Additive Fertigung Materialwissenschaft Produkte und Produktion ROCkET


Project duration: 2024-01-01 - 2028-12-31

RO-BERTA4: Continuation of RO-BERTA

The RO-BERTA project supports the Rosenheim hail defense by processing weather data from the German Weather Service as a "hail navigator" for the pilots.
Project lead THRO: Prof. Dr. M.Sc. Peter Zentgraf

Digitale Transformation Hagelabwehr Hagelflieger


Project duration: 2024-01-01 - 2027-12-31

Climate-resilient bioeconomy in the value-added cycle of wood and other renewable raw materials

The Rosenheim Technical University of Applied Sciences is researching the material use of climate-resilient wood and biomass. The focus here is on on the processing of new types of wood and waste wood as well as the recycling of the products obtained from them and their recyclability using digital methods and digital methods and AI.

Bioökonomie und Holztechnologie Holztechnik Kreislaufwirtschaft Nachhaltigkeit


Project duration: 2024-01-01 - 2026-07-31

Opti-Zent: Investigation of pomace digestion in centrifugation via experiment and simulation with innovative screw geometry to increase the yield

When producing vegetable oils or fruit juices with 2-phase decanters, approx. 80-90% of the oil or juice can be extracted in high quality. To significantly reduce the loss, the processes involved in dehydrating the marc, the rheological behavior of the liquid and the powder flow of the pile will be investigated. Simulations of the discrete element method coupled with flow simulation and thus a new screw geometry for improved extraction of the marc.
Project lead THRO: Prof. Dr. Johannes Lindner

Produkte und Produktion Prozesstechnik


Project duration: 2024-01-01 - 2025-12-31

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

In the energy meteorology project "Helios", precise PV forecasts are being developed by using cloud camera data to optimize the integration of solar power into electrical grids.

Bauen, Planen und Energie Energieeffizienz Solarenergie


Centre for Research, Development and Transfer

Technische Hochschule Rosenheim

Hochschulstraße 1
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