| Summary: | The International Conference on Multiphase Flow (ICMF) first was held in Tsukuba, Japan in 1991 and the second ICMF took place in Kyoto, Japan in 1995. During this conference, it was decided to establish an International Governing Board which oversees the major aspects of the conference and makes decisions about future conference locations. Due to the great importance of the field, it was furthermore decided to hold the conference every three years successively in Asia including Australia, Europe including Africa, Russia and the Near East and America. Hence, ICMF 1998 was held in Lyon, France, ICMF 2001 in New Orleans, USA, ICMF 2004 in Yokohama, Japan, and ICMF 2007 in Leipzig, Germany. ICMF-2010 is devoted to all aspects of Multiphase Flow. Researchers from all over the world gathered in order to introduce their recent advances in the field and thereby promote the exchange of new ideas, results and techniques. The conference is a key event in Multiphase Flow and supports the advancement of science in this very important field. The major research topics relevant for the conference are as follows: Bio-Fluid Dynamics; Boiling; Bubbly Flows; Cavitation; Colloidal and Suspension Dynamics; Collision, Agglomeration and Breakup; Computational Techniques for Multiphase Flows; Droplet Flows; Environmental and Geophysical Flows; Experimental Methods for Multiphase Flows; Fluidized and Circulating Fluidized Beds; Fluid Structure Interactions; Granular Media; Industrial Applications; Instabilities; Interfacial Flows; Micro and Nano-Scale Multiphase Flows; Microgravity in Two-Phase Flow; Multiphase Flows with Heat and Mass Transfer; Non-Newtonian Multiphase Flows; Particle-Laden Flows; Particle, Bubble and Drop Dynamics; Reactive Multiphase Flows Professor, Department of Civil and Environmental Engineering & Associate Director of the University Honors Program, Clarkson University EDUCATION National Taiwan University Mathematics B.S. University of Iowa Applied Mathematical Sciences Ph.D. Clarkson University Engineering Sciences Ph.D. SYNERGISTIC ACTIVITIES – Granular flows – Developed constitutive laws for inertia-dominated regimes and its evolution to contact-force-dominated regimes. Studied particle shape effects in dilute and dense systems and effect of grain properties on system rheology. Included electrostatic forces and molecular bonding force to simulate lunar regolith and macro-molecules. Currently studying coarsening laws for simulating systems with a large number of particles. Sea ice dynamics – Applied granular mechanics to marginal ice zone dynamics. Derived a rheological model for fragmented ice covers. Developed interaction models for ocean waves and fragmented ice covers in the marginal ice zone.
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