Project duration: 2025-10-01 - 2029-09-30
Project duration: 2025-10-01 - 2028-09-30
Project duration: 2025-04-01 - 2027-03-31
Project duration: 2024-09-01 - 2027-08-31
Project duration: 2024-01-01 - 2026-06-30
Project duration: 2024-01-01 - 2025-05-31
Project duration: 2023-10-09 - 2023-12-31
Project duration: 2023-10-01 - 2026-09-30
Project duration: 2023-07-01 - 2026-06-30
Project duration: 2023-07-01 - 2026-06-30
FORest PEATland ecosystem assessment and targeted management for enhanced carbon sequestration, biodiversity and water quality
ForPeat researches the sustainable management of peatland forests through rewetting, AI-supported monitoring and climate protection. The project develops practical solutions for biodiversity, CO₂ storage and EU certification.
Project lead THRO:
Prof. Dr.-Ing. Sandra Krommes
Bioökonomie
Bioökonomie und Holztechnologie
Klimaschutz
Nachhaltigkeit
Produkte und Produktion
Umwelt
Project duration: 2025-10-01 - 2028-09-30
Cascade use of natural fiber-reinforced plastics
Development of a fiber-friendly recycling route for natural fiber-reinforced plastics (NFRP) in order to use long fibers for the production of NFRP mats and short fibers for the production of injection molding granulate in a closed loop.
Sub-project lead THRO:
Prof. Dipl.-Ing. Peter Karlinger,
Prof. Dipl.-Ing. Martin Würtele
Bioökonomie
Holztechnologie
Kunststoff und Holz
Nachhaltigkeit
Produkte und Produktion
Produktionstechnik
Recycling
Spritzgussverfahren
Project duration: 2025-04-01 - 2027-03-31
Development of energy- and resource-efficient circular sawing technology with innovative cutting technology to reduce cutting performance and adhesive wear
The energy input when cutting wood is influenced by cutting force and cutting edge wear. The aim is to achieve efficient circular sawing technology to reduce friction and adhesive wear.
Project lead THRO:
Prof. M.Eng. Christian Kortüm
Bioökonomie
Bioökonomie und Holztechnologie
Holztechnik
Holztechnologie
Nachhaltigkeit
Produktionstechnik
Prozess- und Verfahrenstechnik
Ressourceneffizienz
Project duration: 2024-09-01 - 2027-08-31
Strategies for the material utilization of bark-damaged silver fir - Subproject 1
The aim of the WeiTaRi project is to determine the potential for economically and ecologically long-term material use of silver fir wood with bark damage.
Project lead THRO:
Prof. Dr. Matthias Zscheile
Bioökonomie
Bioökonomie und Holztechnologie
holzbasierte Bioökonomie
Holztechnik
Holzverarbeitung
Nachhaltigkeit
Project duration: 2024-01-01 - 2026-06-30
Danubians Cradle-to-Cradle Architecture and construction processes
DECORATOR promotes the transformation of the construction sector towards a circular economy in the Danube region. This combines ecological, technical, social and economic aspects.
Project lead THRO:
Prof. Andreas Heinzmann
Bioökonomie
Bauen
Bautechnik
Bioökonomie und Holztechnologie
Holztechnologie
Kreislaufwirtschaft
nachhaltiges Bauen
Nachhaltigkeit
Planen und Energie
Project duration: 2024-01-01 - 2025-05-31
DBU_reversible wood-concrete composite ceilings
In this project, an attempt is being made to create a new type of bond between wood and concrete that requires few or no screw connections.
Project lead THRO:
Prof. Arthur Schankula,
Prof. Ulrich Grimminger,
Prof. Dr. Johann Pravida,
Prof. Dr.-Ing. Andreas Rabold
Bioökonomie
Bauen, Planen und Energie
Bioökonomie und Holztechnologie
Holz-Beton Verbunddecken
Holztechnik
Holztechnologie
Project duration: 2023-10-09 - 2023-12-31
Stärkung der praxisorientierten (Holzbau)-Lehre an der Technischen Hochschule Rosenheim im Rahmen der Holzbauinitiative Bayern
Project lead THRO:
Dr. Sebastian Hirschmüller
Bioökonomie
Bautechnik
Holzbau
Holztechnik
Lehre
Übergreifend
Project duration: 2023-10-01 - 2026-09-30
Injection molding of cellulose fibers - Development of the manufacturing process for paper applications for technical components that fall into tools
The overall aim of the research project is to enable the production of paper components using the injection molding process.
Overall lead for THRO input THRO:
Prof. Dr. Manuela List,
Prof. Dipl.-Ing. Martin Würtele
Bioökonomie
biologische Abbaubarkeit
Nachhaltigkeit
Prozesstechnik
Spritzgussverfahren
Übergreifend
Zellulosefasern
Project duration: 2023-07-01 - 2026-06-30
ROcycleTH - a university with a recycling loop
Reducing plastic waste, cutting GHG emissions and promoting sustainability - that's what ROcycleTH is all about.
Project lead THRO:
Prof. Dr. rer. nat. Dirk Muscat,
Prof. Dr.-Ing. Nicole Strübbe
Bioökonomie
Kreislaufwirtschaft
Kunststofftechnik
Nachhaltigkeit
Recycling
Project duration: 2023-07-01 - 2026-06-30
Collaborative project junior research group: Regionally occurring residues and renewable raw materials as peat substitutes: processing - use - evaluation; sub-project 2: processing and process optimization
The core topic of the junior research group is the testing of new peat substitutes based on regional waste materials and renewable raw materials, as well as the expansion of possible uses for materials already in use.
Project lead THRO:
Prof. Dr. Andreas Michanickl
Bioökonomie
Holztechnik
Holztechnologie
Klimaschutz
Nachhaltigkeit
Ressourceneffizienz
Centre for Research, Development and Transfer
Technische Hochschule Rosenheim
Hochschulstraße 1
83024 Rosenheim
Support of publications
M.A. Laura ScholzT +49 (0) 8031 / 805 - 2689
laura.scholz[at]th-rosenheim.de