Atomization and Sprays III

Presentations

• A quantitative analysis of atomization mechanisms from high-fidelity simulations

  ORAL

  Nov. 22, 2022, 8:00 AM – Nov. 22, 2022, 8:13 AM

  Presenters

  • Brendan V Christensen

    Montana State University

  Authors

  • Brendan V Christensen

    Montana State University

  • Mark F Owkes

    Montana State University

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• The fluid mechanics of medical sprays: physics-informed design of low-emissions metered dose inhalers

  ORAL

  Nov. 22, 2022, 8:13 AM – Nov. 22, 2022, 8:26 AM

  Publication: Duke, Rao, Marasini, Ong, Schmidt, Myatt, Cocks and Young. "In-Silico Prediction of pMDI performance with low-GWP propellants HFA-152a and HFO-1234ze(E)". Submitted to Drug Delivery to the Lungs 2022 conference, Edinburgh, Dec. 2022.

  Presenters

  • Daniel Duke

    Monash University

  Authors

  • Daniel Duke

    Monash University

  • Lingzhe Rao

    Monash University

  • Harry N Scott

    Monash University

  • Paul Young

    Monash University

  • Damon Honnery

    Monash University

  • David Schmidt

    University of Massachusetts-Amherst

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• Investigation of two-way coupled euler-lagrange spray simulations with swirl

  ORAL

  Nov. 22, 2022, 8:26 AM – Nov. 22, 2022, 8:39 AM

  Presenters

  • Jungyun Kim

    University of Florida

  Authors

  • Jungyun Kim

    University of Florida

  • Kai Liu

    Zhejiang University

  • Sivaramakrishnan Balachandar

    University of Florida, UNIVERSITY OF FLORIDA

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• An investigation on the influence of droplet deformation and internal circulation on drag coefficient

  ORAL

  Nov. 22, 2022, 8:39 AM – Nov. 22, 2022, 8:52 AM

  Publication: Lin, Y., Palmore Jr, J., 2022. The effect of droplet deformation and internal circulation on drag coefficient (No. arXiv:2207.00871). arXiv. https://doi.org/10.48550/arXiv.2207.00871

  Presenters

  • Yushu Lin

    Virginia Tech

  Authors

  • Yushu Lin

    Virginia Tech

  • John Palmore

    Virginia Tech

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• Data-driven surrogate modelling of drop-size distribution

  ORAL

  Nov. 22, 2022, 8:52 AM – Nov. 22, 2022, 9:05 AM

  Presenters

  • Tullio Traverso

    The Alan Turing Institute, Imperial College London

  Authors

  • Tullio Traverso

    The Alan Turing Institute, Imperial College London

  • Thomas Y Abadie

    Imperial College London

  • Omar K Matar

    Imperial College London, Imperial College London, The Alan Turing Institute

  • Luca Magri

    Imperial College London; Alan Turing Institute, Department of Aeronautics, Imperial College London; The Alan Turing Institute, Imperial College London, The Alan Turing Institute, Imperial College London, Imperial College London; The Alan Turing Institute, Imperial College London, Alan Turing Institute

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• Modeling spray atomization by a hybrid Volume-of-Fluid Lagrangian-Eulerian approach

  ORAL

  Nov. 22, 2022, 9:05 AM – Nov. 22, 2022, 9:18 AM

  Presenters

  • Mario F Trujillo

    University of Wisconsin-Madison, University of Wisconsin - Madison

  Authors

  • Mario F Trujillo

    University of Wisconsin-Madison, University of Wisconsin - Madison

  • Chia-Wei Kuo

    University of Wisconsin

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• Adjoint-based Flow Control of Liquid-Gas Flows Modeled with a Sharp Interface

  ORAL

  Nov. 22, 2022, 9:18 AM – Nov. 22, 2022, 9:31 AM

  Presenters

  • Lam X Vu

    Cornell University

  Authors

  • Lam X Vu

    Cornell University

  • Alexandru Fikl

    University of Illinois at Urbana-Champaign

  • Daniel J Bodony

    University of Illinois at Urbana-Champaign, University of Illinois at Urbana-Champai

  • Olivier Desjardins

    Cornell, Cornell University

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• The Bombardier Beetle Fire Extinguisher: Development of a CFD Model to Simulate a Novel Firefighting Mechanism

  ORAL

  Nov. 22, 2022, 9:31 AM – Nov. 22, 2022, 9:44 AM

  Presenters

  • Elijah P Yoder

    Liberty University

  Authors

  • Elijah P Yoder

    Liberty University

  • Wayne Strasser

    Liberty University

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• Supersonic Spray Combustion Modeling for a Turbulent 3D Rotating Detonation Engine Model

  ORAL

  Nov. 22, 2022, 9:44 AM – Nov. 22, 2022, 9:57 AM

  Presenters

  • HyeJin Oh

    Stony Brook University (SUNY), Stony Brook University

  Authors

  • HyeJin Oh

    Stony Brook University (SUNY), Stony Brook University

  • Foluso Ladeinde

    Stony Brook

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• CFD Modelling of Closed-Couple Gas Atomisation (CCGA) Process.

  ORAL

  Nov. 22, 2022, 9:57 AM – Nov. 22, 2022, 10:10 AM

  Publication: ANTIPAS, G. S. E. 2013. Review of gas atomisation and spray forming phenomenology. Powder Metallurgy, 56, 317-330.<br><br>CHANG, I. & ZHAO, Y. 2013. Advances in powder metallurgy: Properties, processing and applications, Elsevier.<br><br>DUNKLEY, J. J. 2019. Metal powder atomisation methods for modern manufacturing. Johnson Matthey Technology Review, 63, 226-232.<br><br>MOTAMAN, S., MULLIS, A. M., COCHRANE, R. F. & BORMAN, D. J. 2015. Numerical and Experimental Investigations of the Effect of Melt Delivery Nozzle Design on the Open- to Closed-Wake Transition in Closed-Coupled Gas Atomization. Metallurgical and Materials Transactions B, 46, 1990-2004.<br><br>MOTAMAN, S., MULLIS, A. M., COCHRANE, R. F., MCCARTHY, I. N. & BORMAN, D. J. 2013. Numerical and experimental modelling of back stream flow during close-coupled gas atomization. Computers & Fluids, 88, 1-10.<br><br>TING, J. A Pulsatile Atomization Model. 41st Aerospace Sciences Meeting and Exhibit, 2003. 1283.

  Presenters

  • Jo Samuel Joseph Subramanian

    University of Leeds

  Authors

  • Jo Samuel Joseph Subramanian

    University of Leeds

  • Andrew Mullis

    Supervisor - University of Leeds

  • Duncan Borman

    Co-supervisor - University of Leeds

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• Experimental investigation of spray from two-fluid nozzles: Universality of size distributions, dispersion of ethanol-water mixtures, and spray evaporation

  ORAL

  Nov. 22, 2022, 10:10 AM – Nov. 22, 2022, 10:23 AM

  Presenters

  • Moritz Sieber

    Technical University of Berlin

  Authors

  • Moritz Sieber

    Technical University of Berlin

  • Sebastian Schimek

    Technische Universität Berlin, Chair of Fluid Dynamics

  • Christian O Paschereit

    Technische Universität Berlin, Chair of Fluid Dynamics

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