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Free-Surface Flows: Waves

ORAL · T32 · ID: 3582561

Presentations

  • Viscous decay of gravity-capillary waves around an oscillating body

    ORAL

    Presenters

    • Daisuke Takagi

      University of Hawaii at Manoa

    Authors

    • Daisuke Takagi

      University of Hawaii at Manoa

    • Ben P Weiss

      Cornell University

    • Yukun Sun

      Cornell University

    • Sungyon Lee

      University of Minnesota., University of Minnesota, Department of Mechanical Engineering, University of Minnesota.

    • Sunghwan Jung

      Cornell University

    • Chris Roh

      Cornell University

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  • DNS and Analytical Modeling of Wave Evolution under Opposing Currents

    ORAL

    Presenters

    • Lubna Abdelaal Arafa Hassan Margha

      Texas A&M University College Station

    Authors

    • Lubna Abdelaal Arafa Hassan Margha

      Texas A&M University College Station

    • Sharath S Girimaji

      Texas A&M University, Texas A&M University, College Station,TX,US, Texas A&M University College Station

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  • Direct numerical simulation of interfacial waves with surface rheological effects

    ORAL

    Presenters

    • Seungwon Shin

      Hongink Univesity, Hongik University

    Authors

    • Seungwon Shin

      Hongink Univesity, Hongik University

    • Debashis Panda

      Imperial College London

    • Lyes Kahouadji

      Imperial College London

    • Jalel Chergui

      CNRS

    • Damir Juric

      Université Paris Saclay, Centre National de la Recherche Scientifique (CNRS), Laboratoire Interdisciplinaire des Sciences du Numérique (LISN), 91400 Orsay, France

    • Omar K Matar

      Imperial College London

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  • Experimental visualisation of flow structures in the hydraulic jump region of circular jets

    ORAL

    Publication: Published:<br>Askarizadeh, H., Ahmadikia, H., Ehrenpreis, C., Kneer, R., Pishevar, A., & Rohlfs, W. (2019). Role of gravity and capillary waves in the<br>origin of circular hydraulic jumps. Physical Review Fluids, 4(11), 114002.<br>DOI: 10.1103/PhysRevFluids.4.114002<br><br>Askarizadeh, H., Ehrenpreis, C., Kneer, R., & Rohlfs, W. (2021). Assessment of the interface compression scheme in the volume-offluid<br>modeling of circular hydraulic jumps. Atomization and Sprays, 31(5).<br>DOI: 10.1615/AtomizSpr.2021034770<br><br>Askarizadeh, H.; Ahmadikia, H.; Ehrenpreis, C.; Kneer, R.; Pishevar, A.; Rohlfs, W. (2020). Heat transfer in the hydraulic jump region of<br>circular free-surface liquid jets. In International Journal of Heat and Mass Transfer 146, p. 118823.<br>DOI: 10.1016/j.ijheatmasstransfer.2019.118823<br><br>Planed:<br>This work will be submitted after the conference for publication.

    Presenters

    • Leon Wanitschek

      Institute of Heat and Mass Transfer, RWTH Aachen University, Augustinerbach 6, 52056 Aachen

    Authors

    • Leon Wanitschek

      Institute of Heat and Mass Transfer, RWTH Aachen University, Augustinerbach 6, 52056 Aachen

    • Wilko Rohlfs

      Institute of Heat and Mass Transfer, RWTH Aachen University, Augustinerbach 6, 52056 Aachen

    • Reinhold Kneer

      Institute of Heat and Mass Transfer, RWTH Aachen University, Augustinerbach 6, 52056 Aachen

    • Hossein Askarizadeh Ravizi

      Institute of Heat and Mass Transfer, RWTH Aachen University, Augustinerbach 6, 52056 Aachen

    View abstract →