Eckehard Specht
Eckehard Specht | |
---|---|
Born |
Gelsenkirchen, North Rhine-Westphalia, Germany | April 20, 1952
Occupation | Professor, |
Years active | 1992 - present |
Spouse(s) | Dr. Brigitte Eschler |
Eckehard Specht [1] is a professor in Otto von Guericke University, Magdeburg, Germany. He belongs to Institute of Fluid Dynamics and Thermodynamics (ISUT) department. His specializations are Combustion technology, heat and mass transfer, chemical process engineering, global warming, and ceramic materials.
He has obtained his PhD in Heat transfer from TU Clausthal.[2] After that, he did the habilitation in the same university. He moved to OVG university, Magdeburg.
Background
Prof. Dr.-Ing. Eckehard Specht studied Chemical Engineering at the Technical University of Clausthal and was then Scientific Research Fellow at the Institute for Energy Engineering at the TU Clausthal (1977-1993). After his Ph.D. about the coal combustion (1984) and Habilitation in the field of high temperature process equipment (1993), he is professor from October 1, 1993 for thermodynamics and combustion at the Otto von Guericke University Magdeburg, Institute of Fluid Dynamics and Thermodynamics.
He is an appointed member of nine committees, including, the research community industrial furnaces of the Association of German Engineering Federation (VDMA), the Technical Commission of the German Ceramic Thermal Engineering Society (DKG) and the Committee of thermal processing technology by the German Iron and Steel Institute (VDEH). During his university career he was involved with a member of the Senate and Council of TU Clausthal (1983-1988), a member of the Senate of the University of Magdeburg (1994-2000) and since 1994 he is the Dean of teaching for the Faculty of Process and Systems Engineering of the Otto von Guericke University of Magdeburg.
On March of 14, 2003 he was awarded the Ludwig Mond Prize from the Institution of Mechanical Engineers, England.
Research Interest
Intensive cooling of metals [3]
- Simulation of microstructure, stress, hardness and delay in the cooling of steel bodies of complex geometry
- Determination of heat transfer conditions for low-distortion cooling
- Measurement of local heat transfer coefficients for water sprays and air flow panels using infrared technology
Dynamic simulation of heat treatment processes in industrial furnaces, for example,
- Heat transfer and reaction paths in shaft
- Influence of the transport rollers and cross-sectional dimensions on the temperature more uniform in roller kilns
- Influencing the bed motion and heat transfer in rotary kilns
Optimization of combustion chambers
- Simulation of flow, concentration and temperature fields with combustion reaction
Measurement of thermophysical material properties to 1600oC
- Thermal Conductivity
- Specific heat capacity
- Density and thermal expansion
Nominated Member of the Industrial Associations
- Research Association Industrial Furnaces (VDMA)
- Society of Chemical Process Engineering (ProcessNet):
- Working party of High Temperature Process Engineering
- Working party of Heat and Mass Transfer
- Scientific member and reviewer of German Industrial Research Foundation (AiF)
- Heat Technique Committee of the German Ceramics Society (DKG)
- Industrial Furnace Committee of the German Union of Ferrous Metallurgy (VdEh)
- Committee Continuous Casting of the German Society of Materials Science (DGM)
- Working Party Climate Change of the Federal State Saxonia-Anhalt
PhD & Post Doc. Guidances
He consistently maintains more than 15 PhD students. More than 20 students finished their research study successfully. In general, he likes to work with foreign students. The present PhD students are listed below:
Name | Country | Year | Topics |
---|---|---|---|
Dr.-Ing. Ashok Kumar Nallathambi | India | 2010–2012 | Development of hot tearing criteria |
Name | Country | Year | Topics |
---|---|---|---|
Yogesh Sonavane | India | 2006–2010 | Influence of the Wall on Heat Transfer Process in Rotary Kiln |
Nadine Lorenz | Germany | 2007–2010 | Global warming |
Duc Hai Do | Vietnam | 2007–2012 | Mathematical modeling of Shaft kiln lime calcination |
Khalid H M Abdalrahman | Egypt | 2008–2012 | Spray cooling of nonferrous metals |
Magda El-Fakharany | Egypt | 2008–2011 | Coal combustion |
Fabian Herz | Germany | 2009–2012 | Heat transfer in rotary kiln |
P C Gourisankar Sandaka | India | 2009–2012 | Modeling of Shaft kiln |
Koteswara rao Sunkara | India | 2009–2012 | CFD analysis of rotary kiln |
Hassanein Refaey | Egypt | 2009–2013 | CFD |
Mohammed Al-Fakheri | Iraq | 2009–2012 | CFD analysis of Shaft kiln |
Pavan Kumar Penumakala | India | 2010–2013 | Modeling of hot cracking in DC casting |
Sabariman Sabariman | Indonesia | 2012–2015 | Heat transfer in metal quenching |
Publications
S.No | Year | Authors | Paper title | Journal |
---|---|---|---|---|
1 | 2010 | Nallathambi, A.K., Kaymak, Y., Specht, E., Bertram, A. | Sensitivity of material properties on distortion and residual stresses during metal quenching processes | Journal of Materials Processing Technology 210 (2), pp. 204–211 |
2 | 2010 | Specht, E., Shi, Y.-C., Woche, H., Knabbe, J., Sprinz, U. | Experimental investigation of solid bed depth at the discharge end of rotary kilns | Powder Technology 197 (1-2), pp. 17–24 |
3 | 2010 | Yan Liu, X., Specht, E. | Predicting the fraction of the mixing zone of a rolling bed in rotary kilns | Chemical Engineering Science (In Press) |
4 | 2009 | Nallathambi, A.K., Specht, E., Bertram, A. | Computational aspects of temperature-based finite element technique for the phase-change heat conduction problem | Computational Materials Science 47 (2), pp. 332–341 |
5 | 2009 | Nallathambi, A.K., Specht, E. | Estimation of heat flux in array of jets quenching using experimental and inverse finite element method | Journal of Materials Processing Technology 209 (12-13), pp. 5325–5332 |
6 | 2009 | Nallathambi, A.K., Kaymak, Y., Specht, E., Bertram, A. | Optimum strategies to reduce residual stresses and distortion during the metal quenching process | Journal of ASTM International 6 (4) |
7 | 2009 | Liu, X.Y., Zhang, J., Specht, E., Shi, Y.C., Herz, F. | Analytical solution for the axial solid transport in rotary kilns | Chemical Engineering Science 64 (2), pp. 428–431 |
8 | 2008 | Telljohann, U., Junge, K., Specht, E. | Moisture diffusion coefficients for modeling the first and second drying sections of green bricks | Drying Technology 26 (7), pp. 855–863 |
9 | 2008 | Alam, U., Krol, J., Specht, E., Schmidt, J. | Enhancement and local regulation of metal quenching using atomized sprays | Journal of ASTM International 5 (10) |
10 | 2008 | Nallathambi, A.K., Kaymak, Y., Specht, E., Bertram, A. | Distortion and Residual Stresses during Metal Quenching Process | Micro-Macro-Interactions in Structured Media and Particle Systems, pp. 145–157. Bertram A., and Thomas J. (Eds), Springer, Berlin Heidelberg 10.1007/978-3-540-85715-0-12 |
11 | 2008 | Agustini, S.S., Queck, A., Specht, E. | Modeling of the regenerative heat flow of the wall in direct fired rotary kilns | Heat Transfer Engineering 29 (1), pp. 57–66 |
12 | 2007 | Kaymak, Y., Specht, E. | Strategies for controlled quenching to reduce stresses and distortion | Heat Processing, 5 (3), pp. 1–4. |
13 | 2009 | Herz, Fabian, Sonavane, Yogesh; Specht, Eckehard; Bensmann, S.; Walzel, P | Mixing behaviour of granular material in the agitated bad of rotating drums | Bulk solids & powder, science & technology Würzburg: Vogel Transtech Publ., Bd. 4.2009, 3, S. 109-116 |
References
- ↑ http://www.forschung-sachsen-anhalt.de/index.php3?option=projektleiter_detail&pid=4497&perform=1&menu_link_active=&PHPSESSID=8d227&lang=1
- ↑ http://www.tu-clausthal.de
- ↑ http://www.forschung-sachsen-anhalt.de/index.php3?option=projektleiter_detail&lang=&perform=1&menu_link_active=726&pid=4497&PHPSESSID=8d227