K1MET Kompetenzzentrum für nachhaltige, digitalisierte Metallurgie - klimaneutral und ressourceneffizient "SusMet4Planet"

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Primary Data

Project Acronym Projekt Kurzbezeichnung
K1MET 2023-2027
 
Project Title (de) Projekttitel (de)
K1MET Kompetenzzentrum für nachhaltige, digitalisierte Metallurgie - klimaneutral und ressourceneffizient "SusMet4Planet"
 
Project Title (en) Projekttitel (en)
K1MET Competence Center of Sustainable Digitalized Metallurgy for a Climate Neutral and Resource Efficient Planet „SusMet4Planet”
 
Consortium Coordinator Koordinator des Konsortiums
 
Principal Investigator Projektleiter_in
 

Grants

Funder/Funding Agency Fördergeber
FFG - Österr. Forschungsförderungs- gesellschaft mbH
Grant number Förderkennnummer
892415
 

Publications

Results 1-12 of 12 (Search time: 0.003 seconds).

PreviewAuthor(s)TitleTypeIssue Date
1Kiss, Matthias ; Nanz, Thomas ; Bösenhofer, Markus Comparison of 1D and 3D models for the thermochemical conversion of carbonaceous pulverized particlesArticle Artikel Mar-2026
2Boesenhofer-2026-Chemical Engineering Journal-vor.pdf.jpgBösenhofer, Markus ; Nanz, Thomas ; Stocker, Hugo ; Feilmayr, Christoph ; Rieger, Johannes ; Harasek, Michael Thermochemical conversion of pulverized carbon carriers under super high heating rates and elevated pressuresArticle Artikel 15-Jan-2026
3Kiss-2025-Energies-vor.pdf.jpgKiss, Matthias ; Gruber, Christine ; Harasek, Michael ; Bösenhofer, Markus Modeling Biomass Conversion in Raceway Zone of Blast Furnace Using Resolved Lagrangian Particle ModelArticle Artikel Aug-2025
4Kiss, Matthias ; Nanz, Thomas ; Bösenhofer, Markus Comparison of 1D and 3D models for the thermochemical conversion of carbonaceous pulverized particlesInproceedings Konferenzbeitrag18-Jun-2025
5Zarabian Ghaeini, Golnaz ; Bösenhofer, Markus ; Harasek, Michael Parametric Analysis of Coke Conversion Characteristics in the Static Raceway Zone of Blast Furnace: Numerical InvestigationInproceedings KonferenzbeitragApr-2025
6Bösenhofer, Markus ; Nanz, Thomas ; Kiss, Matthias ; Gruber, Christine ; Rieger, Johannes ; Stocker, Hugo ; Feilmayr, Christoph ; Harasek, Michael Simulation-Aided Evaluation of Alternative Reducing Agent Conversion ExperimentsArticle Artikel Apr-2025
7Bösenhofer, Markus ; Nanz, Thomas ; Stocker, Hugo ; Feilmayr, Christoph ; Rieger, Johannes ; Harasek, Michael Thermochemical conversion of pulverized carbon carriers under high heating rates and elevated pressuresInproceedings KonferenzbeitragApr-2025
8Zarabian Ghaeini, Golnaz ; Bösenhofer, Markus ; Harasek, Michael Computational Study of Coke Combustion in Raceway Zone under Blast Furnace Conditions Golnaz Zarabian1, Markus Bösenhofer1, Michael Harasek1Presentation Vortrag12-Sep-2024
9Boesenhofer-2024-On the accuracy of operator splitting for reactive flows...-vor.pdf.jpgBösenhofer, Markus On the accuracy of operator splitting for reactive flows in OpenFOAMPresentation Vortrag 26-Jul-2024
10Nanz-2024-A novel high-heating rate, elevated pressure reactor for the th...-vor.pdf.jpgNanz, Thomas ; Bösenhofer, Markus ; Feilmayr, Christoph ; Stocker, Hugo ; Rieger, Johannes ; Gruber, Christine ; Harasek, Michael A novel high-heating rate, elevated pressure reactor for the thermochemical conversion of pulverized solidsPresentation Vortrag 26-Jul-2024
11Kiss-2024-Particleresolved simulation of char combustion in OpenFOAM-vor.pdf.jpgKiss, Matthias ; Bösenhofer, Markus ; Gruber, Markus ; Feilmayr, Christoph ; Stocker, Hugo ; Gruber, Christine ; Harasek, Michael Particle­resolved simulation of char combustion in OpenFOAMPresentation Vortrag 26-Jul-2024
12Harasek, Michael Green hydrogen for industry – Transport, storage, and upgradingPresentation Vortrag3-Apr-2024