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Contact
Prof. Dr.-Ing. Tobias Fieback
Professorship for Technical Thermodynamics
Institute of Thermal Engineering and Thermodynamics
Lampadius-Bau
Room 306
Gustav-Zeuner-Straße 7
09599 Freiberg
+49 3731 39-3960
Tobias [dot] Fieback [at] ttd [dot] tu-freiberg [dot] de
Professional career
period | activity |
---|---|
since 10/2023 | Vice-Rector for Research, International Affairs and Transfer at TU Bergakademie Freiberg |
06/2020 to 01/2023 | Founding Dean of Studies of the Bachelor's degree program in Engineering at TU Bergakademie Freiberg |
05/2019 to 09/2023 | Dean of the Faculty of Mechanical, Process and Energy Engineering at TU Bergakademie Freiberg |
06/2018 to 05/2019 | Chairman of the Examination Board for the “Mechanical and Process Engineering” degree program |
sind 01/2017 | Scientific Director of the Scientific Diving Center of the TU Bergakademie Freiberg |
05/2016 to 04/2019 | Vice Dean of the Faculty of Mechanical, Process and Energy Engineering at TU Bergakademie Freiberg |
since 10/2015 | TU Bergakademie Freiberg, holder of the professorship for Technical Thermodynamics |
08/2012 to 09/2015 | Ruhr University Bochum, Junior Professor for Experimental Thermodynamics of Process Engineering |
02/2009 to 08/2012 | Ruhr University Bochum, Chair of Thermodynamics, Group Leader for Process Engineering Materials Data Research |
08/2005 to 01/2009 | PhD at the Ruhr University Bochum, Dissertation on "Development and construction of a universal apparatus for measuring the selective sorption of gaseous and supercritical mixtures in solid and liquid sorbents" |
04/2007 to 01/2009 | Ruhr University Bochum, Chair of Process Engineering Transport Processes, research assistant |
01/2006 to 03/2007 | Fraunhofer Institute UMSICHT Oberhausen, Research Assistant |
08/2005 to 12/2005 | Ruhr University Bochum, Chair of Particle Design and Particle Technology, Research Assistant |
10/2001 to 07/2005 | Studied Mechanical Engineering at the Ruhr University Bochum, Faculty of Mechanical Engineering, specialising in Energy and Process Engineering |
Information on
- Technical Thermodynamics I
- Technical Thermodynamics II
- Principles of Heat Transfer
- Thermodynamics and Heat Transfer
- Applied Thermodynamics
- Heat and Mass Transfer
- Heat Transport in Porous Media
- Project Planning and Mass Transfer
- Heat Transport in Porous Media
- Project Planning of Heat Exchangers
- Heat Pumps and Refrigeration Systems
- Energy Self-Sufficient Buildings
Sorption measurement technology
- Gravimetric determination of sorption equilibria, kinetics and excess sorption heats from vacuum up to 40 MPa with pure substances, binary mixtures and multi-component mixtures
- Gravimetric determination of sorption data from vacuum up to 3 MPa at temperatures up to 1.200 °C
- Purification and storage of biogenic gases
- Sorption isotherms with toxic, corrosive and explosive media
- Combined measurement of swelling and sorption in liquids and melts
- Surface characterisation (BET method)
- Development of a nanogram magnetic suspension balance for the determination ofmagnetic suspension balance for determining the hydration of two-dimensional organic model surfaces
- Theoretical and instrumental developments in the field of sorption measurement technology
Substance properties in the high pressure range (20 MPa - 40 MPa)
- Adaptation of low-pressure concentration measurement methods for the high-pressure range
- Development of in-line IR & UV / VIS high-pressure sensors
- Development of in-situ high-pressure sensors for sonic velocity, thermal conductivity and impedance
- Measurement of thermophysical data for gases & gas mixtures
Substance properties in the high temperature range (800 °C - 1.200 °C)
- Thermophysical material data of solids
- Development of measuring equipment for the determination of thermal conductivity, heat capacity and thermal diffusivity of solids
- Development of measuring equipment for thermal accommodation coefficients
- Development of in-line IR & VIS & FTIR high-temperature sensors
- Development of in-situ high-temperature sensors for sound velocity, density and thermal conductivity
- Measurement of thermophysical data for gases & gas mixtures
Gas concentration determination
- Model development and extension for the determination of gas concentrations based on measured thermophysical material data in a wide pressure and temperature range
- . and temperature range
- Development of a software tool to implement the new model
Energy self-sufficiency and "green" energy supply
- Use of mine water for geothermal heat supply
- Monitoring and optimisation of energy self-sufficient houses
- Heat pipes and thermosyphons
2009
Rubitec Transfer Prize for the best transfer of knowledge to industry at Ruhr-Universität Bochum in 2008
2006
Adam Opel Prize for outstanding academic achievements in the mechanical engineering degree programme at Ruhr-Universität Bochum