top of page
This site was designed with the
.com
website builder. Create your website today.Start Now

Publications 

 
Journal Papers

 

  1. Y. Ling, S. Zaleski, G. Tryggvason, "Turbulent multiphase flow characteristics in gas-assisted atomization," in pareparation. 

  2. S. Vincent, L. Osmar, J.-L. Estivalezes, S. Zaleski, F. Auguste, W. Aniszewski, Y. Ling, T. Ménard, J. Magnaudet, J.-P. Caltagirone, A. Berlemont, “A phase inversion benchmark for multiscale multiphase flows,” under review.

  3. Y. Ling, D. Fuster, G. Tryggvason, S. Zaleski, "Spray formation in a quasiplanar gas-liquid mixing layer at moderate density ratios: A numerical closeup," Physical Review Fluids (2017), in print.

  4. Y. Ling, J.-M. Fullana, S. Popinet, and C. Josserand, “Droplet migration in a Hele--Shaw microchannel: Effect of the lubrication film on the droplet dynamics,” Physics of Fluids 28, 062001 (2016). 

  5. Y. Ling, S. Balachandar, and M. Parmar, “Inter-phase heat transfer and energy coupling in dispersed multiphase flows,” Physics of Fluids 28, 033304 (2016).

  6. Y. Ling, S. Zaleksi, and R. Scardovelli, “Multi-scale simulation of atomization with small drops represented by Lagrangian point-particle model,” International Journal of Multiphase Flow 76, 122-143 (2015).

  7. S. Annamalai, M. Parmar, Y. Ling, and S. Balachandar, “Nonlinear Rayleigh-Taylor instability of a cylindrical interface in explosion flows,” Journal of Fluids Engineering-Transactions of ASME 136, 060910 (2014).

  8. Y. Ling, M. Parmar, and S. Balachandar, “A scaling analysis of added-mass and history forces and their coupling in dispersed multiphase flows,” International Journal of Multiphase Flow 57, 102-114 (2013).

  9. Y. Ling, A. Haselbacher, S. Balachandar, F. M. Najjar, and D. S. Stewart, “Shock interaction with a deformable particle: Direct numerical simulation and point-particle modeling,” Journal of Applied Physics 113, 013504 (2013).

  10. Y. Ling, J. L. Wagner, S. J. Beresh, S. P. Kearney, and S. Balachandar, “Interaction of a planar shock wave with a dense particle curtain: Modeling and experiments,” Physics of Fluids 24, 113301 (2012).

  11. Y. Ling, A. Haselbacher, and S. Balachandar, “Importance of unsteady contributions to force and heating for particles in compressible flows. Part 2: Application to particle dispersal by blast wave,” International Journal of Multiphase Flow 37, 1013-1025 (2011).

  12. Y. Ling, A. Haselbacher, and S. Balachandar, “Importance of unsteady contributions to force and heating for particles in compressible flows. Part 1: Modeling and analysis for shock-particle interaction,” International Journal of Multiphase Flow 37, 1026-1044 (2011).

  13. Y. Ling, A. Haselbacher, and S. Balachandar, “A numerical source of small-scale number-density fluctuations in Eulerian-Lagrangian simulations of multiphase flows,” Journal of Computational Physics 229,1828-1851 (2010). 

  14. Y. Ling, A. Haselbacher, and S. Balachandar, “Transient phenomena in    one-dimensional compressible gas-particle flows,” Shock Waves 19, 67-81 (2009).

  15. C. Wan, Y. Ling, Z. Shen, and S. Ma, “Numerical simulation of supersonic flow     structure in opposed jet mill,” China Powder Science and Technology 13, 23-25 (2007). 

  16. X. Zhao, M. Wang, Y. Ling, Z. Shen and Y. Xing, “Experimental investigation on improving the AO-resistant characteristics of epoxy resin of spacecraft filled with Nano-SiO2,” The Chinese Journal of Process Engineering z1, (2004).

 

Conference Papers & Presentations

 

  1. Y. Ling, T. Arrufat, D. Fuster, S. Zaleski, G. Tryggvasson, R. Scardovelli, "Turbulent Multiphase Flow Characteristics in Gas Assisted Atomization," Proceeding of 13th Triennial International Conference on Liquid Atomization and Spray Systems (Tainan, Taiwan, 2015).

  2. J-M. Fullana, Y. Ling, S. Popinet and C. Josserand, “Droplet in micro-channels: a numerical approach using an adaptive two phase solver,” 1st Pan American Congress on Computational Mechanics - PANACM 2015 (Buenos Aires, Argentina, 2015).

  3. Y. Ling and S. Zaleski, “Multi-scale simulation of primary breakup in gas-assisted atomization,” AIAA Paper 2015–0420, AIAA SciTech 2015: 53rd AIAA Aerospace Sciences Meeting (Kissimmee, Florida, 2015).

  4. Y. Ling and S. Zaleski, “Multi-scale simulation of atomization with small drops represented by Lagrangian Point-Particle Model,” American Physi- cal Society 67th Annual Meeting of the Division of Fluid Dynamics (San Francisco, California, 2014)

  5. Y. Ling and S. Zaleski, “Numerical investigation of spray formation and evolution in gas-assisted atomization,” Proceeding of ILASS-Europe 2014, 26th Annual Conference on Liquid Atomization and Spray Systems (Bremen, Germany, 2014)

  6. Y. Ling and S. Zaleski, “Atomization simulations by the Volume-of-Fluid method coupled with a Lagrangian point-particle model,” 2nd International Conference on Numerical Methods in Multiphase Flows (Darmstadt, Germany, 2014).

  7. Y. Ling, M. Parmar, A. Haselbacher, and S. Balachandar, “Point-particle approach for compressible particle-laden flows with shock waves,” Proceeding of European Mechanics Society Colloquium 555: Small-Scale Numerical Methods for Multi-Phase Flows (Pessac, France, 2013).

  8. Y. Ling, M. Parmar, A. Haselbacher, and S. Balachandar, “Shock interaction with dilute and dense particle distributions: Theory, modeling, and validation,” Proceeding of 8th International Conference on Multiphase Flow (Jeju, Korea, 2013).

  9. Y. Ling, M. Parmar, S. Annamalai, S. Balachandar, and D. L. Frost, Towards rigorous modeling of extreme compressible multiphase flows,” Minisymposium Session of High-Speed, High-Energy, and Multi-Material Flows, American Physical Society 65th Annual Meeting of the Division of Fluid Dynamics (San Diego, California, 2012)

  10. B. Lieberthal, D. S. Stewart, J. B. Bdzil, F. M. Najjar, S. Balachandar, and Y. Ling, “Simulation of deformation, momentum and energy coupling particles deformed by intense shocks,” American Physical Society 64th Annual Meeting of the Division of Fluid Dynamics (Baltimore, Maryland, 2011) 

  11. Y. Ling, A. Haselbacher, and S. Balachandar, “Importance of unsteady force and heating to particle dispersal by shock/detonation waves,” Proceeding of 17th Biennial International Conference of the APS Topical Group on Shock Compression of Condensed Matter (Chicago, Illinois, 2011).

  12. Y. Ling, A. Haselbacher, and S. Balachandar, Particle dispersal in rapid expanding gas flow: Importance of unsteady force and heat transfer,” American Physical Society 63th Annual Meeting of the Division of Fluid Dynamics (Long Beach, California, 2010). 

  13. Y. Ling, A. Haselbacher, and S. Balachandar, “Compressibility and unsteady effects on particles in explosions,” Proceeding of 7th International Conference on Multiphase Flow (Tampa, Florida, 2010).

  14. Y. Ling, A. Haselbacher, and S. Balachandar, Numerical investigation of particle dispersal in multiphase explosions,” AIAA Paper 2010--768, 48th AIAA Aerospace Sciences Meeting (Orlando, Florida, 2010).

  15. Y. Ling, A. Haselbacher, and S. Balachandar, “Modeling and simulation of explosive dispersal of particles in a multiphase explosion,” AIAA Paper 2009--1532, 47th AIAA Aerospace Sciences Meeting (Orlando, Florida, 2009).  

  16. Y. Ling, A. Haselbacher, and S. Balachandar, Simulation of explosive dispersion from compressed particle-gas suspension,” American Physical Society 61st Annual Meeting of the Division of Fluid Dynamics (St Antonio, Texas, 2008).

  17. A. Haselbacher, F. M. Najjar, S. Balachandar and Y. Ling, “Lagrangian simulations of shock-wave diffraction at a right-angled corner in a particle-laden gas,” Proceeding of 7th International Conference on Multiphase Flow (Leipzig, Germany, 2007).

bottom of page