Dr. Kevin Connington
- Ph.D. Department of Mechanical Engineering, The Johns Hopkins University, 2009
- M.S.E. Department of Mechanical Engineering, The Johns Hopkins University, 2006
- B.S. Department of Mechanical Engineering, The Johns Hopkins University, 2003
- Multiphase Flow, Fluid-Particle Interactions
- Computational Fluid Dynamics: The Lattice Boltzmann Method(LBM), Finite Element Method(FEM), Molecular Dynamics(MD)
- Parallel Computing with MPI, GPU’s
- Turbulence, Atmospheric Flows, Energy Production
- Biological Fluid Flows, Biomimetic Engineering
- Teaching Assistant Professor, Department of Mechanical Engineering, Stevens Institute of Technology, September 2014 - present
- Postdoctoral Research Associate, The Levich Institute for Physico-Chemical Hydrodynamics, The City College of New York, January 2010 - September 2014
- Visiting Scholar, Earth and Environmental Science(EES) Group, Los Alamos National Labs, January 2007 - December 2008
- Journal Reviewer: Computers & Fluids, International Journal of Heat and Mass Transfer, Computers and Mathematics with Applications, Communications in Computational Physics, Chemical Engineering Communications, European Physics Letters, International Journal of Multiphase Flow, International Journal of Thermal Sciences, Journal of Computational Physics, Journal of Fluids Engineering, Journal of Mechanical Science and Technology, Physics of Fluids, Journal of Fluid Mechanics
Honors & Awards
- Fellowship Recipient - Broader Impacts for Graduate Students Teaching Engineering Principles(BIGSTEP) Program, The Johns Hopkins University, 2005
- Member, American Physical Society(APS), Division of Fluid Dynamics(DFD), 2010 - present
- Member, American Society of Mechanical Engineers (ASME), 2016 - present
- H. Rezvantalab, K.W. Connington, and S. Shojaei-Zadeh (2016). "Shear-Induced Interfacial Assembly of Janus Particles", Phys. Review Fluids (1) 074205:1-14.
- K. Connington, M. Miskin, T. Lee, H. Jaeger, and J. Morris. (2015). "Lattice Boltzmann simulations of particle-laden liquid bridges: Effects of volume fraction and wettability", Int. J. Multiphase Flow. (76), 32-46.
- K. Connington, T. Lee, and J. Morris. (2015). "Interaction of fluid interfaces with immersed solid particles using the lattice Boltzmann method for liquid-gas-particle systems", J. Comput. Phys. (283) 453-477.
- H. Haddadi, S. Shojaei-Zadeh, K. Connington, and J. Morris. (2014). "Suspension flow past a cylinder: Particle interactions with recirculating wakes", J. Fluid Mech. (760), 1-12.
- K. Connington and T. Lee. (2013). "Lattice Boltzmann simulations of forced wetting transitions of drops on superhydrophobic surfaces", J. Comput. Phys. (250), 601-615.
- K. Connington and T. Lee. (2012). "A review of spurious currents in the lattice Boltzmann method for multi-phase flows", J. Mechanical Sci. and Tech. (26), 3857-3863.
- K. Connington, Q. Kang, H. Viswanathan, A. Abdel-Fattah, and S. Chen. (2009). "Lattice Boltzmann simulations of peristaltic particle transport", Phys. Fluids. (21), 1-16.
- Z. Xia, K. Connington, S. Rapaka, P. Yue, J.J. Fang, and S. Chen. (2009). "Flow patterns in the sedimentation of an elliptical particle", J. Fluid Mech. (625), 249-272.
- ME 225 Dynamics
- ME 342 Fluid Mechanics
- ME 594 Computer Methods in Mechanical Engineering
- ME 234 Mechanical Engineering Thermodynamics