37. |
V. Kappings, C. Grün, D. Ivannikov, I. Hebeiss, S. Kattge, I. Wendland, B. E. Rapp, M. Hettel, O. Deutschmann, U. Schepers (2018) vasQchip: A Novel Microfluidic, Artificial Blood Vessel Scaffold for Vascularized 3D Tissues, Adv. Mater. Technol. 1700246. (https://doi.org/10.1002/admt.201700246) |
36. |
Hettel, M., Daymo, E., Deutschmann, O. (2018) 3D modeling of a CPOX-reformer including detailed chemistry and radiation effects with DUO. Computers and Chemical Engineering, Vol 109, pages 166–178 |
35. |
Hettel, M., Denev, J., Deutschmann, O. (2016) Two-Zone Fluidized Bed Reactors for Butadiene Production: A Multiphysical Approach with Solver Coupling for Supercomputing Application, In: High Performance Computing in Science and Engineering ’16, W. E. Nagel et al. (eds.) (doi: 10.1007/978-3-319-47066-5_19) |
34. |
34. Hettel, M., C. Antinori, C., Deutschmann, O., (2016) CFD-Evaluation of In-situ Probe Techniques for Catalytic Honeycomb Monoliths, Emission Control Science & Technology, Volume 2, Issue 4, pp 188–203 |
33. |
Gossler, H.; Kee, B. J.; Zhu, H., Hettel, M., Deutschmann, O.; Kee, R. J., (2016) Flow and pressure characteristics in rectangular channels with internal cylindrical bodies, Chemical Engineering Science, Vol 149, Pages 296-305 |
32. |
Hettel, M., C. Diehm, C., Deutschmann, O., (2015). Numerical simulation of a structured catalytic methane reformer by DUO: the new computational interface for OpenFOAM and DETCHEM. Catalysis Today, Vol 258, Pages 230–240. (doi:10.1016/j.cattod.2015.02.011) |
31. |
Hettel, M., Diehm, C., Deutschmann, O., (2014). Answer to the Comment from Goguet et al. to the paper “The Critical evaluation of in situ probe techniques for catalytic honeycomb monoliths”. Catalysis Today, Vol 236, Part B, 1 November 2014, Pages 209-213 |
30. |
Diehm, C., Karadeniz, H., Karakaya, C., Hettel, M., Deutschmann, O., (2014). Spatial Resolution of Species and Temperature Profiles in Catalytic Reactors: In-Situ Sampling Techniques and CFD Modeling. In Anthony Dixon, editor: Modeling and Simulation of Heterogeneous Catalytic Processes, Vol 45, ACHE, UK: Academic Press, 2014, pp. 41-95. |
29. |
Hettel, M., Diehm, C., Torkashvand, B., Deutschmann, O., (2013). Critical Evaluation of In-situ Probe Techniques for Catalytic Honeycomb Monoliths. CatalysisToday, Vol 216, 2-10 (doi:10.1016/j.cattod.2013.05.005) |
28. |
Zhang, F., Habisreuther, P., Hettel, M., Bockhorn, H., (2012). Numerical computation of combustion induced noise using compressible LES and hybrid CFD/CAA methods.
Acta Acustica united with Acustica, 98, 120-134. (doi:10.3813/AAA.918498). |
27. |
Zhang, F., Habisreuther, P., Hettel, M., Bockhorn, H., (2011). Numerical simulation of noise emission from a non-premixed flame. Gaswärme International, 3/2011, 1-6. |
26. |
Hettel, M., Seidelt, S., Haußmann, M., Bockhorn H., (2011). Modellierung der Holzverbrennung: Pyrolysekinetik und Partikelmodell, 25. Deutscher Flammentag, VDI-Berichte 1890, Verein Deutscher Ingenieure (ed.), p. 87-93. |
25. |
Zhang, F, Habisreuther, P, Hettel, M., Bockhorn, H., (2011). A newly developed unified TFC combustion model for numerical simulation of turbulent gas flames, 25. Deutscher Flammentag, VDI-Berichte 1890, Verein Deutscher Ingenieure (ed.), p. 177-182. |
24 |
Zhang, F., Habisreuther, P., Hettel, M., Bockhorn, H., (2010). Application of a Unified TFC Model to Numerical Simulation of a Turbulent Non-Premixed Flame, in Proceedings of the 8th International ERCOFTAC Symposium on Engineering Turbulence Modelling and Measurements - ETMM8, vol. 2, European Research Collaboration on Flow Turbulence and Combustion, ERCOFTAC, June, 9-11, Marseilles, France, p. 681-686. |
23. |
Bockhorn, H., Habisreuther, P., Hettel, M., (2009) Numerical Modelling of Technical Combustion. In 100 Volumes of “Notes on numerical Fluid Mechanics”, Hirschel, E. H., Krause, E. (ed.). |
22. |
Zhang, F., Habisreuther, P., Hettel, M., Bockhorn, (2009). Numerical Investigations of the Noise Sources Generated in a Swirl Stabilized Flame. Acta Acustica united with Acustica, 95, 418-427.(doi:10.3813/AAA.918166) |
21. |
Zhang, F., Habisreuther, P., Hettel, M., Bockhorn, H., (2009). Modelling of a Premixed Swirl-stabilized Flame Using a Turbulent Flame Speed Closure Model in LES. Flow, Turbulence and Combustion, 82, 537-551.(doi:10.1007/s10494-008-9175-x) |
20. |
Zhang, F., Habisreuther, P., Hettel, M., Bockhorn, H., (2008). Numerical investigations of the noise sources generated in a swirl stabilized flame. , in Fortschritte der Akustik - DAGA 08, DEGA. |
19. |
Zhang, F., Habisreuther, P., Hettel, M., Bockhorn, H., (2007). Modelling of a Premixed Swirl-Stabilized Combustor using a Turbulent Flame Speed Closure Model in LES, in Computational Combustion 2007, Proc. 2nd ECCOMAS Thematic Conference, ECCOMAS, Delft, Netherland, 18./20. Juli. |
18. |
Hettel, M., Wetzel, F., Habisreuther, P., Bockhorn, H., (2007). Numerical Verification of the Similarity Laws for the Formation of Laminar Vortex Rings. Journal of Fluid Mechanics, 590, 35-60. |
17. |
Zhang, F., Habisreuther, P., Hettel, M., Bockhorn, H., (2007). Computational Method on Prediction of Combustion Noise, in Proc. of the 19th International Congress on Acoustics, International Commission for Acoustics, ICA, Madrid, Spain, 2.-7. September. |
16. |
Hettel, M., (2006), Analytische und numerische Untersuchungen der Dynamik von Vormischflammen sowie deren Interaktion mit Ringwirbelstrukturen, Dissertation, Universität Karlsruhe. |
15. |
Hettel, M., Habisreuther, P., Weiß, M., Büchner, H., Bockhorn, H., Zarzalis, N., (2005). URANS-Modelling of Pulsed Turbulent Jets and Premixed Jet Flames. Progress in Computational Fluid Dynamics (PCFD), 5, 386-397. |
14. |
Hettel, M., Habisreuther, P., Bockhorn, H., (2005). Unsteady Reynolds-Averaged Navier-Stokes (URANS) - Modeling of Flame Transfer Functions of Turbulent Premixed Jet Flames (Paper: 670) , in Proceedings of Twelfth International Congress on Sound and Vibration (ICSV12) , vol. CD-ROM, International Institute of Acoustics and Vibration. |
13. |
Hettel, M., Bockhorn, H., (2005). Rückkoppelung Flamme-Strömungsfeld bei der Entstehung von Brennkammerschwingungen. in Freiberger Forschungshefte , vol. C505, 56. Berg- und Hüttenmännischer Tag, Technische Universität Bergakademie Freiberg, p. 36-41. |
12. |
Hettel, M., Habisreuther, P., Bockhorn, H., (2005). URANS-Modellierung von Frequenzgängen vorgemischter turbulenter Axialstrahlflammen. , in Verbrennung und Feuerungen - 22. Deutscher Flammentag, VDI-Berichte 1888, Verein Deutscher Ingenieure (ed.), Düsseldorf, p. 395-400. |
11. |
Hettel, M., Habisreuther, P., Büchner, H., Bockhorn, H., Zarzalis, N., (2004). URANS-Modelling of Flame Transfer Functions of Turbulent Premixed Jet Flames (Paper: 2004-GT-53808) , in Proceedings of ASME Turbo Expo 2004, Gas Turbine & Aeroengine Congress, ASME, June 14th-17th, Vienna, Austria. |
10. |
Hettel, M., Habisreuther, P., Büchner, H., Bockhorn, H., Zarzalis, N., (2004). Modeling of Turbulent Ring Vortices and Their Interaction with Turbulent Premixed Flames. Combustion Science and Technology, 176, 835-850. |
9. |
Hettel, M., Habisreuther, P., Büchner, H., Bockhorn, H., Zarzalis, N., (2003). Modelling of Ring-Vortices and their Interaction with Turbulent Premixed Flames, in Proceedings of the Third Mediterranean Combustion Symposium, June 8.-13., Marrakech, Morocco, p. 1015-1026. |
8. |
Hettel, M., Habisreuther, P., Büchner, H., Bockhorn, H., Zarzalis, N., (2003). Modelling of Flame Frequency Response of Turbulent Premixed Flames. , in Proceedings of the European Combustion Meeting 2003 (ECM2003), Federation of the European Sections of the Combustion Institute, Orleans. |
7. |
Hettel, M., Habisreuther, P., Büchner, H., Bockhorn, H., Zarzalis, N., (2003). Modellierung des Übertragungsverhaltens von turbulenten, vorgemischten, freibrennenden Axialstrahlflammen. , in Verbrennung und Feuerungen - 21. Deutscher Flammentag, VDI-Berichte 1750, Verein Deutscher Ingenieure (ed.), Düsseldorf, p. 733-738. |
6. |
Zarzalis, N., Ripplinger, T., Hohmann, S., Hettel, M., Merkle, K., Leuckel, W., Klose, G., Meier, R., Koch, R., Wittig, S., Carl, M., Behrendt, T., Hassa, C., Meier, U., Lückerath, R., Stricker, W., (2002). Low-NOx Combustor Development national research program in a cooperative effort among engine Manufacturer MTU, University of Karlsruhe and DLR German Aerospace Research Center. Aerospace Science and Technology, 6, 531-544. |
5. |
Klose, G., Hettel, M., Zarzalis, N., Schmehl, R., Meier, R., Maier, G., Koch, R., Leuckel, W., Wittig, S., (2001). Evaluation of Advanced Two-Phase Flow and Combustion Models for Predicting Low Emission Combustors. Transactions of the ASME, Journal of Engineering for Gas Turbines and Power, 123, 817-823. |
4. |
Hettel, M., Leuckel, W., Klose, G., Schmehl, R., Meier, R., Maier, G., Koch, R., Wittig, S., Zarzalis, N., Hohmann, S., (2000). Evaluierung fortschrittlicher Modelle zur Berechnung von Zweiphasenströmungen, in DGLR-Jahrbuch 2000, Deutscher Luft- und Raumfahrtkongress, 18.-21.9. 2000, Leipzig. |
3. |
Klose, G., Hettel, M., Zarzalis, N., Schmehl, R., Meier, R., Maier, G., Koch, R., Leuckel, W., Wittig, S., (2000). Evaluation of Advanced Two-Phase Flow and Combustion Models for Predicting Low Emission Combustors (Paper: 2000-GT-0133), in Proceedings of ASME Turbo Expo 2000, 45th ASME Gas Turbine & Aeroengine Congress, ASME, May 8th-11th, Munich, Germany. |
2. |
Zajadatz, M., Hettel, M., Leuckel, W., (1998). Burning Velocity of High-Turbulence Natural Gas Flames for Gas Turbine Application, in Prodeedings of the International Gas Research Conference, 8.-11.11.98, San Diego, CA, p. 793 - 803. |
1. |
Hettel, M., Schmid, H.-P., Lenze, B., (1997). Flame Structures of Highly Turbulent Premixed Flames: Measurements and Numerical Calculations, in Proceedings of the First Asia-Pacific Conference on Combustion (ASPACC97), 12.-15. 5.97, Osaka, Japan. |