[36] “Extending (Molecular Tagging) Velocimetry to Microscales and Three-Dimension,” Keynote session, NURETH-20, Washington, DC, 2023/08/24.
[35] “Pushing the Limits of Velocimetry,” Invited lecture, SNH-34, Washington, DC, 2022/06/27.
[34] “Development of Microscopic Molecular Tagging Velocimetry,” Seminar, UCSB, Santa Barbara, CA, 2021/11/08.
[33] “Molecular Tagging Velocimetry: Pushing the Limits of Velocimetry,” Keynote session, NURETH-18, Portland, OR, 2019/08/21.
[32] “Molecular Tagging Velocimetry – MTV,” Rencontre Technique and Scientifique, CEA Cadarache, France, 2018/06/04.
[31] “Multi-spatio-temporal scales PIV applied to a turbulent buoyant jet in a stratified environment,” Virginia Tech, Aerospace and Ocean Engineering Department, Blacksburg, VA, 2017/12/04.
[30] “Advanced laser diagnostics development for Thermal Hydraulics,” Paul Scherrer Institute, Switzerland, 2018/10/16.
[29] “High-resolution single- and two-phase flow analysis and model development,” Workshop, NURETH-17, September 2017.
[28] “Perspectives on the future of Thermal-Hydraulics research,” Idaho National Laboratory, NSUF/GAIN Workshop, Idaho Falls, ID, 2017/07/13.
[27] “Multi-spatio-temporal scales PIV applied to a turbulent buoyant jet in a stratified environment,” Sandia National Laboratory, X4F Department, Albuquerque, NM, 2017/07/11.
[26] “Multi-spatio-temporal scales PIV applied to a turbulent buoyant jet in a stratified environment,” Los Alamos National Laboratory, X4F Department, Los Alamos, NM, 2017/07/10.
[25] “Challenges in the design of multi-physics validation experiments,” Panel Discussion, Multi-physics model validation workshop, NCSU, Raleigh, NC, 2017/06/28.
[24] “Laser diagnostics development for code benchmark and validation,” Plenary session, CFD4NRS, MIT, Cambridge, MA, 2016/09/15.
[23] “Data, Data Science, and Data-driven thermal hydraulics – Panel 1.” Panelist, NURETH 16, Chicago, IL, September 2016.
[22] “Seismic response of nuclear fuel bundles,” University of Wisconsin, Engineering Physics Department, Madison, WI, 03/08/2016.
[21] “Seismic response of nuclear fuel bundles,” University of Florida, Materials Science and Engineering Department, Gainesville, FL, 02/18/2016.
[20] “FSI measurements of nuclear fuel bundles during earthquakes,” AIAA SciTech conference, special session on Fluid-Structure Interaction diagnostics, January 2016.
[19] “Seismic response of nuclear fuel bundles,” Virginia Commonwealth University, Richmond, VA, 2015/10/02.
[18] “Validation data and model development for nuclear fuel assembly response to seismic loading,” University of Massachusetts, Amherst, MA, 2015/04/13.
[17] “Validation data and model development for nuclear fuel assembly response to seismic loading,” Idaho National Laboratory, Idaho Falls, ID, 2015/03/10.
[16] “Validation data and model development for nuclear fuel assembly response to seismic loading,” EDF R&D, Chatou, France, 2014/12/12.
[15] “Vorticity generation and air entrainment at Free surfaces,” University of Maryland, Aerospace Engineering, 2014/10/22.
[14] “Seismic response of fuel assemblies,” French Embassy, Washington, DC, 2014/03/24.
[13] “Validation datasets for high-fidelity simulations of seismic response of fuel assemblies,” Massachusetts Institute of Technology, Nuclear Science and Engineering, Cambridge, MA, 2014/02/27.
[12] “Research overview in the Thermo-Fluids Lab,” The George Washington University, Mechanical and Aerospace Engineering Department, Washington, DC, 2013/05/15.
[11] “Air entrainment and gas transfer in capillary waves”, Istituto Nazionale Per Studi Ed Esperienze Di Architettura Navale – INSEAN, Rome, Italy, 2013/07/05.
[10] “MicroPhysics of air entrainment”, Johns Hopkins University, 2013/03/01.
[9] “MicroPhysics of air entrainment”, Pennsylvania State University, 2013/02/26.
[8] “Free surface turbulence and CO2 absorption”, NASA Langley, 2012/09/27.
[7] “Dynamics of annular liquid swirling layers and spray generation”, Ohio State University, Mechanical Engineering Department, 2012/09/07.
[6] “Vorticity and air entrainment at a free-surface”, University of Maryland, Mechanical Engineering Department, College Park, MD, 2012/04/13.
[5] “Nuclear Crisis in Japan”, The George Washington University, Sigur Center for Asian Studies, Elliott School of International Affairs, 2012/03/28.
[4] “Mixing enhancement and high-pressure combustion kinetics”, Naval Research Lab, Washington, DC, 2011/10/07.
[3] “Panel Discussion: Nuclear Energy and Nuclear Non-Proliferation”, The George Washington University, leadership retreat, Cambridge, MD, 2011/06/24.
[2] “Nuclear Crisis in Japan”, The George Washington University, Sigur Center for Asian Studies, Elliott School of International Affairs, 2011/03/28 http://media.elliott.gwu.edu/video/209
[1] “Nuclear Crisis in Japan”, The George Washington University, School of Engineering and Applied Science, 2011/03/22