Details

Dr.-Ing. Dmitry Safronov

Dr.-Ing. Dmitry Safronov


Group CFD-modeling of high-temperature processes (VIRTUHCON)

Zimmer DBI 305

Telefon +49 (0) 3731 39 4805
Dmitry [dot] Safronovatvtc [dot] tu-freiberg [dot] de



Background
1995 - 2000
Study at the State Technical University Perm (Russia) with specialization in Thermal and Chemical Process Engineering
2000
Engineer Diploma for Thermal and Chemical Engineering, diploma with Award
2000 - 2004
Ph.D. coursework with specialisation in Thermal Process Engineering, Technische Universität Bergakademie Freiberg, Germany
2004 - 2005
Institute of Thermal Process Engineering, Technische Universität Bergakademie Freiberg, Germany
19.07.2005
Defense of Ph.D.: "Heat and Mass Transfer in Chemicaly Hardening Molding Materials". Supervisors: Professor K. Kohler, Professor J. Bast, Professor B. Platzer
2006 - 2009
Ferchau Engineering GmbH (Frankfurt, Wiesbaden) - Process Engineer
Since 2009
Research Associate at the Centre for Innovation Competence Virtuhcon (Interphase phenomena group), Technische Universität Bergakademie Freiberg, Germany
Research topics

Fields of research:

  • Thermal and Chemical Process Engineering
  • Numerical Modeling of Heat and Mass Transfer in Multiphase systems
  • Numerical study of coal gasification including variable properties of coal particles

Lectures:

  • Technische Universität Bergakademie Freiberg: "Heat Transfer"
  • Technische Universität Bergakademie Freiberg: "Thermal Process Engineering"
Publications

Ph.D.

D. Safronov: Durchströmung und Stoffübergang in chemisch härtenden Formstoffen.

Reports

D. Safronov: Durchströmung und Stoffübergang in chemisch härtenden Formstoffen.
In: Bericht über die bisherige Arbeit des DFG-Graduiertenkollegs "Transportvorgänge in porösen Systemen der Verfahrens- und Geotechnik". Freiberg, TU Bergakademie Freiberg, August 2002

Article

Safronov, D., Förster, T., Schwitalla, D., Nikrityuk, P., Guhl, S., Richter, A., Meyer, B., 2017. Numerical study on entrained-flow gasification performance using combined slag model and experimental characterization of slag properties. Fuel Processing Technology 161 (2017), pp. 62-75.