Contact
Dr.-Ing. Ingo Riehl
Professorship for Technical Thermodynamics
Institute of Thermal Engineering
Lampadius-Bau
Room 307
Gustav-Zeuner-Straße 7
09599 Freiberg
+49 3731 39-2193
Ingo [dot] Riehl [at] ttd [dot] tu-freiberg [dot] de
Professional background
| Time period | Activity |
|---|---|
| since 2002 | TU Bergakademie Freiberg, Professorship for Technical Thermodynamics, research assistant |
| 1992 to 2002 | TU Bergakademie Freiberg, Professorship for Fluid Mechanics and Fluid Machinery (Prof. P. Költzsch/Prof. F. Obermeier), research assistant |
| 1991 - 1992 | Lecturer at the Data Technology and Training Centre Hohenschönhausen/Berlin |
| 1988 - 1991 | Academy of Sciences of the GDR (AdW) Berlin, Central Institute for Physical Chemistry, research assistant |
| 1990 | Doctorate (Dr.-Ing.) at the TU Bergakademie Freiberg on the subject of "Particle motion in stationary and unsteady fluid flows" |
| 1985 - 1988 | TU Bergakademie Freiberg, Chair of Fluid Mechanics and Fluid Machinery (Prof. P. Költzsch), research assistant |
| 1983 - 1985 | Study of Mechanical Engineering/Energy Technology at the TU Bergakademie Freiberg, graduated as Diplom-Ingenieur (Dipl.-Ing.) |
| 1980 - 1983 | Studied thermal engineering at the Markkleeberg School of Engineering for Energy Technology, graduated with a degree in engineering (Dipl.-Ing.) FH |
Information
- Lectures and exercises for the courses
- Numerical Methods of Thermofluid Dynamics I
- Numerical Methods of Thermofluid Dynamics III
- Project Engineering of Heat Transfer
- Heat and Mass Transfer
- Internship for the course "Heat and Mass Transfer"
- Computer Administration (LINUX, PC pool, workstation)
- Numerical calculation of flows with coupled heat and mass transfer
- Thermofluid dynamics with phase change (liquid/solid)
- Heat transfer of structured silicon carbide (SiSiC) heat exchanger surfaces
- Gas-heated jacketed radiant tubes (simulation and optimisation)
- Aluminothermic welding
- Simulation of thermoheat exchanger surfaces
- Gas-heated jacketed radiant tubes (simulation and optimisation)
- Aluminothermic welding
- Simulation of geothermal probes
- Initial heating of refractory concrete