Lehrstuhlinhaber

Die Professur Transportprozesse in Hydrosystemen ist seit dem 01.08.2023 durch Prof. Dr.-Ing. Bernhard Vowinckel besetzt.

Bernhard Vowinckel © Sven Ellger /TUD

Lehrstuhlinhaber

Name

Prof. Dr.-Ing. Bernhard Vowinckel

E-Mail senden
Organisationsname

Professur für Transportprozesse in Hydrosystemen

Professur für Transportprozesse in Hydrosystemen

Adresse work

Besuchsadresse:

Chemie-Bau, P302 Bergstraße 66

01069 Dresden

Zeige Karte von diesem Ort.

work Tel.
fax Fax
+49 351 463-37204

Aufgaben und Forschungsschwerpunkte
  • Sediment Transport
  • Geophysikalische Strömungen
  • Numerische Modellierung
  • Computational Fluid Dynamics (CFD)
  • High Performance Computing
Projekte
  • 2022 – 2025 | DFG-Projekt an der TU Braunschweig: Rheology of inertial particles by
                              means of experimental observations and numerical simulations
                              (RHINOS)
  • 2020 – 2023 | DFG-Projekt an der TU Braunschweig: Particle-Resolving Simulations of
                              Cohesive Sediment Dynamics
  • 2018 – 2020 | BMBF-Projekt an der Bundesanstalt für Geowissenschaften und
                              Rohstoffe (BGR): GeomInt: Geomechanische Integrität von Wirts- und
                              Barrieregesteinen
  • 2016 – 2021 | NSF-Projekt an der University of California Santa Barbara (USA):
                              ISS: Quantifying Cohesive Sediment Dynamics for Advanced
                              Environmental Modeling
  • 2010 – 2015 | DFG-Projekt an der TU Dresden: Hochauflösende numerische und
                              experimentelle Untersuchung der turbulenzinduzierten
                              Sedimenterosion und des Geschiebetransports
Veröffentlichungen - Zeitschriftenartikel mit Begutachtungssystem
  • Kleischmann, F., Luzzatto-Fegiz, P., Meiburg, E., & Vowinckel, B. (2024). Pairwise interaction of spherical particles aligned in high-frequency oscillatory flow. Journal of Fluid Mechanics, 984, A57. https://doi.org/10.1017/jfm.2024.251
  • Zhao, K., Vowinckel, B., Hsu, T. J., Bai, B., & Meiburg, E. (2023). Cohesive sediment: intermediate shear produces maximum aggregate size. Journal of Fluid Mechanics, 965, A5. https://doi.org/10.1017/jfm.2023.380
  • Penaloza-Giraldo, J. A., Hsu, T. J., Manning, A. J., Ye, L., Vowinckel, B., & Meiburg, E. (2023). On the importance of temporal floc size statistics and yield strength for population balance equation flocculation model. Water Research, 233, 119780. https://doi.org/10.1016/j.watres.2023.119780
  • Schwarzmeier, C., Rettinger, C., Kemmler, S., Plewinski, J., Núñez-González, F., Köstler, H., U. Rüde & Vowinckel, B. (2023). Particle-resolved simulation of antidunes in free-surface flows. Journal of Fluid Mechanics, 961, R1. https://doi.org/10.1017/jfm.2023.262

  • E. Krahl, B. Vowinckel, L. Ye, T.-J. Hsu  & A.J. Manning  (2022) Impact of the Salt Concentration and Biophysical Cohesion on the Settling Behavior of Bentonites. Frontiers Earth Science, 10:886006. doi: 10.3389/feart.2022.886006

  • Y. Yao, E. Biegert, B. Vowinckel, T. Köllner, E. Meiburg, S. Balachandar, C. S. Criddle & O.B. Fringer (2022). Particle‐resolved simulations of four‐way coupled, polydispersed, particle‐laden flows. International Journal for Numerical Methods in Fluids.  2022; 1-31. doi: 10.1002/fld.5128

  • R. Zhu, Z. He, K. Zhao, B. Vowinckel, & E. Meiburg (2022). Grain-resolving simulations of submerged cohesive granular collapse. Journal of Fluid Mechanics, 942, A49. doi:10.1017/jfm.2022.404

  • C. Rettinger, S. Eibl, U. Rüde, B. Vowinckel (2022). Rheology of mobile sediment beds in laminar shear flow: Effects of creep and polydispersity. Journal of Fluid Mechanics, 932, A1 (PDF verfügbar).

  • H. Eyal, Y. Enzel, E. Meiburg, B. Vowinckel, N.G. Lensky. How does coastal gravel get sorted under stormy longshore transport?. Geophysical Research Letters, e2021GL095082, 2021 (https://doi.org/10.1029/2021GL095082).

  • O. Kolditz, T. Fischer, T. Frühwirt, U.-J. Görke, C. Helbig, H. Konietzky, J. Maßmann, M. Nest, D. Pötschke, K. Rink, A. Sattari, P. Schmidt, H. Steeb, F. Wuttke, K. Yoshioka, B. Vowinckel, G., Ziefle, T. Nagel. GeomInt: geomechanical integrity of host and barrier rocks–experiments, models and analysis of discontinuities. Environ Earth Sci 80, 509, 2021 (PDF verfügbar).

  • B. Vowinckel, E. Biegert, E. Meiburg, P. Aussillous, É. Guazzelli. Rheology of mobile sediment beds sheared by viscous, pressure-driven flows. Journal of Fluid Mechanics, 921, A20, 2021 (PDF verfügbar).

  • K. Zhao, F. Pomes, B. Vowinckel, T.-J. Hsu, B. Bai, E. Meiburg. Flocculation of suspended cohesive particles in homogeneous isotropic turbulence. Journal of Fluid Mechanics, 921, A17, 2021 (PDF verfügbar).

  • Vowinckel, B. Incorporating grain-scale processes in macroscopic sediment transport models. Acta Mech (2021). https://doi.org/10.1007/s00707-021-02951-4

  • K. Zhao, B. Vowinckel, T.-J. Hsu, T. Köllner, B. Bai, E. Meiburg. An effcient cellular flow model for cohesive particle flocculation in turbulence. Journal of Fluid Mechanics, 889, R3, 2020 (PDF verfügbar).

  • K. Papadopoulos, V. Nikora, B. Vowinckel, R. Jain, S. Cameron, M. Stewart, C. Gibbins, J. Fröhlich. Double-averaged kinetic energy budgets in flows over mobile granular beds: insights from DNS data analysis. Journal of Hydraulic Research, 58(4), 653-672, 2020.

  • B. Vowinckel, E. Biegert, P. Luzzatto-Fegiz, E. Meiburg. Consolidation of freshly deposited cohesive and non-cohesive sediment: particle-resolved simulations, Physical Review Fluids, 4(7), 074305, 2019 (PDF verfügbar).

  • B. Vowinckel, J. Withers, P. Luzzatto-Fegiz, E. Meiburg. Settling of cohesive sediment: particle-resolved simulations, Journal of Fluid Mechanics, 858, 5-44, 2019 (PDF verfügbar).

  • L. Zhao, R. Ouillon, B. Vowinckel, E. Meiburg, B. Kneller, Z. He. Transition of a hyperpycnal flow into a saline turbidity current due to differential diffusivities. Geophysical Research Letters, 45(21), 11-875, 2018.

  • E. Biegert, B. Vowinckel, R. Ouillon, E. Meiburg. High-resolution simulations of turbidity currents. Progress in Earth and Planetary Science, 4(1), 33, 2017.

  • R. Jain, B. Vowinckel, J. Fröhlich. DNS of particle cluster motion influenced by hydraulic roughness: implications for sediment transport. Flow, Turbulence and Combustion, 99(3-4), 973-990, 2017.

  • E. Biegert, B. Vowinckel, E. Meiburg. A collision model for grain-resolving simulations of flows over dense, mobile, multidisperse granular sediment. Journal of Computational Physics, 340, 105-127, 2017 (PDF verfügbar).

  • B. Vowinckel, V. Nikora, T. Kempe, J. Fröhlich. Momentum balance in flows over mobile granular beds: Application of Double-Averaging Methodology to DNS data. Journal of Hydraulic Research, 55(2), 190-207, 2017.

  • B. Vowinckel, V. Nikora, T. Kempe, J. Fröhlich. Spatially-averaged momentum fluxes and stresses in flows over mobile granular beds: A DNS-based study. Journal of Hydraulic Research, 55(2), 208-223, 2017.

  • B. Vowinckel, R. Jain, T. Kempe, J. Fröhlich. Entrainment of single particles in a turbulent open-channel flow: a numerical study. Journal of Hydraulic Research, 54(2), 158-171, 2016.

  • B. Vowinckel, T. Kempe, J. Fröhlich. Fluid-particle interaction in turbulent open channel flow with fully-resolved mobile beds. Advances in Water Resources, 72, 32-44, 2014.

  • T. Kempe, B. Vowinckel, J. Fröhlich. On the relevance of collision modelling for interface-resolving simulations of sediment transport in open-channel flow. International Journal of Multiphase Flow, 58:214-235, 2014.

  • B. Vowinckel, T. Kempe, J. Fröhlich, V. Nikora. Numerical simulation of sediment transport in open channel flow. In Murillo, R., editor, River Flow, pages 507-514, ISBN 978-0-415-62129-8, 2012.

  • R. Kindler, J. Siemens, K. Kaiser, D.C. Walmsley, C. Bernhofer, N. Buchmann, P. Cellier, W. Eugster, G. Gleixner, T. Grunwald, A. Heim, A. Ibrom, S.K. Jones, M. Jones, K. Klumpp, W. Kutsch, K.S. Larsen, S. Lehuger, B. Loubet, R. McKenzie, E. Moors, B. Osborne, K. Pilegaard, C. Rebmann, M. Saunders, M.W. Schmidt, M. Schrumpf, J. Seyferth, U. Skiba, J.-F. Soussana, M.A. Sutton, C. Tefs, B. Vowinckel, M. Zeeman, M. Kaupenjohann. Dissolved carbon leaching from soil is a crucial component of the net ecosystem carbon balance, Global Change Biology, 17(2):1167-1185, 2011.

Veröffentlichungen - Monographien und Buchkapitel

  • B. Vowinckel, K. Zhao, L. Ye, A.J. Manning, T. Hsu, E. Meiburg, B. Bai (2022). Physics of Cohesive Sediment Flocculation and Transport: State-of-the-Art Experimental and Numerical Techniques. In (Ed.), Sediment Transport - Recent Advances [Working Title]. IntechOpen. doi.org/10.5772/intechopen.104094

  • B. Vowinckel, T. Frühwirt, J. Maßmann, T. Nagel, M. Nest, D. Pötschke, C. Rölke, A. S. Sattari, P. Schmidt, H. Steeb, K. Yoshioka, G. Ziefle, O. Kolditz. Model–Experiment-Exercises (MEX). In: Kolditz O. et al. (eds) GeomInt–Mechanical Integrity of Host Rocks. Terrestrial Environmental Sciences. Springer, Cham. (PDF verfügbar), 2021.

  • A.S. Sattari, T. Frühwirt, J. Maßmann, M. Nest, D. Naumann, D. Pötschke, M. Ruf, T. Kneuker, B. Vowinckel, M. Furche, G. Ziefle. Experimental Platform. In: Kolditz O. et al. (eds) GeomInt–Mechanical Integrity of Host Rocks. Terrestrial Environmental Sciences. Springer,
    Cham. (PDF verfügbar), 2021.

  • C. Helbig, U.-J. Görke, M. Nest, D. Pötschke, A.S. Sattari, P. Schmidt, B. Vowinckel, K. Yoshioka, O. Kolditz. Data Management. In: Kolditz O. et al. (eds) GeomInt–Mechanical Integrity of Host Rocks. Terrestrial Environmental Sciences. Springer, Cham. (PDF verfügbar), 2021

  • B. Vowinckel. Highly-resolved numerical simulations of bed-load transport in a turbulent open-channel flow. Dissertation, TU Dresden, 2015.

Beruflicher Werdegang
  • 2020 – 2023 | Nachwuchsgruppenleiter am Leichtweiß-Institut für Wasserbau,
                              Abt. Wasserbau und Gewässermorphologie
  • 2018 – 2020 | Wissenschaftlicher Mitarbeiter an der Bundesanstalt für
                              Geowissenschaften und Rohstoffe
  • 2018 – 2018 | Rückkehrstipendium am Leichtweiß-Institut für Wasserbau,
                              TU Braunschweig
  • 2015 – 2018 | Postdoc an der University of California Santa Barbara (USA)
  • 2010 – 2015 | Doktorand am Institut für Strömungsmechanik, TU Dresden
  • 2006 – 2009 | Hauptstudium Hydrologie, TU Dresden
  • 2003 – 2006 | Grundstudium Hydrologie, Albert-Ludwigs-Universität Freiburg
Mitgliedschaften
  • American Physical Society (APS)
  • International Association of Hydro-Environment Engineering and Research (IAHR)
  • European Geophysical Union (EGU)
  • European Mechanics Society (EUROMECH)

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Letzte Änderung: 16.10.2023