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¡¾×ÊÔ´¡¿Advances in Catalysis: A Historical Perspective ÒÑÓÐ2È˲ÎÓë
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Advances in Catalysis: A Historical Perspective Burtron H. Davis Robert H. Davis Patten Professor, Department of Chemical Engineering Dean, College of Engineering and Applied Science Director, Biotechnology Program Email: robert.davis@colorado.edu 303-492-7006 Education: B.S., University of California at Davis (1978) M.S., Ph.D., Stanford University (1979, 1982) Awards: University Medalist, University of California at Davis, 1978 NATO Postdoctoral Fellowship in Science, 1982 NSF Presidential Young Investigator Award, 1985 University of Colorado Junior Faculty Development Award, 1985 Omega Chi Epsilon Outstanding Undergraduate Teaching in Chemical Engineering Award, 1989 Dow Outstanding Young Faculty Award, Rocky Mountain Section of ASEE, 1990 Guggenheim Fellowship, 1990 Outstanding Research Award, College of Engineering and Applied Science, 1993 AIChE Outstanding Paper Award, 1995 Outstanding Graduate Teaching Award, Department of Chemical Engineering, 1996 University of Colorado Faculty Fellowship, 1997 AIChE Excellence and Service Appreciation Award, 1999 Outstanding Service Award, College of Engineering and Applied Science, 1999 Outstanding Teaching Award, College of Engineering and Applied Science, 2000 Outstanding Research Award, Boulder Faculty Assembly, University of Colorado, 2000 Selected Publications: Rother, M. A., A. Z. Zinchenko, and R. H. Davis, ¡°Three-dimensional Boundary-integral Algorithm for Thermocapillary Motion of Deformable Drops,¡± J. Colloid Interf. Sci. 245, 358-364 (2002). Wilson, H. J. and R. H. Davis, ¡°Shear Stress of a Monolayer of Rough Spheres,¡± J. Fluid Mech. 452, (2002). Wu, Y., A. Z. Zinchenko, and R. H. Davis, ¡°Ellipsoidal Model for Deformable Drops and Application to NonNewtonian Emulsion Flows,¡± J. NonNewt. Fluid Mech. 102, 281-298 (2002). Zinchenko, A. Z. and R. H. Davis, "Shear Flow of Highly-Concentrated Emulsions by Numerical Simulation," J. Fluid Mechanics 455, 21-62 (2002). Knutsen, J. S. and R. H. Davis, ¡°Combined Sedimentation and Filtration Process for Cellulase Recovery During Hydrolysis of Lignocellulosic Biomass,¡± App. Biochem. Biotech 98-100, 1161-1172. Zhao, Y. and R. H. Davis, ¡°Interaction of Two Touching Spheres in a Viscous Fluid,¡± Chem. Eng. Sci. 57, 1997-2006 (2002). Mores, W. D. and R. H. Davis, "Direct Observation of Membrane Cleaning via Rapid Backpulsing," Desalination 146, 135-140 (2002). Davis, R. H., D. A. Rager, and B. T. Good, ¡°Elastohydrodynamic Rebound of Spheres from Coated Surfaces,¡± J. Fluid Mech. 468, 107-119 (2002).. Mores, W. D. and R. H. Davis, ¡°Yeast Foulant Removal by Backpulses in Crossflow Microfiltration,¡± J. Mem. Sci. 208, 389-404 (2002). Wu, Y., A. Z. Zinchenko, and R. H. Davis, "General Ellipsoidal Model for Deformable Drops in Viscous Flows," Ind. & Eng. Chem. Res. 41, 6270-6278 (2002). Zhao, Y., K. P. Galvin, and R. H. Davis, ¡°Motion of a Sphere Down a Rough Plane in a Viscous Fluid,¡± I. J. Multiphase Flow 28, 1787-1800 (2002).. Research Interests: Biotechnology and Biofuels, Complex Fluids, Membrane Separations The research program of his group is rooted in chemical engineering fundamentals of fluid mechanics, heat and mass transfer, and reaction engineering. However, many of their projects are motivated by practical applications from biotechnology, the environment, and materials processing. These projects are currently divided into three sub-groups: Biotechnology and Biofluidics: Their efforts have included cell aggregation and sedimentation and the controlled influence of these phenomena on improved bioreactor performance, with applications ranging from beer brewing to protein overexpression by recombinant bacteria to continuous mammalian cell culture. They have also studied reaction kinetics and novel bioreactor design for the enzymatic transcription of ribonucleic acids which have pharmaceutical potential due to their catalytic and selective binding properties. A current focus is on biofluidics for polymeric lab-on-a-chip devices. Complex Fluids: Suspensions of fine particles or emulsions of droplets dispersed in a fluid are found in many natural and industrial applications, including biological systems, raindrop growth, polymer processing, liquid-liquid extraction, mineral flotation, and the processing of composite materials. The physical mechanisms governing particle or droplet motion in suspensions include gravity, Brownian diffusion, van der Waals attraction, electrostatic repulsion, electrophoresis, thermocapillary and solutalcapillary migration, and convective motion due to stirring or imposed flow. Their analytical, computational and experimental research includes microphysical studies of the fundamental interactions between particles or droplets, and macrophysical studies of applications such as sedimentation, filtration, aggregation, coalescence, flotation, and phase separation. Membrane Separations: Microporous membranes provide low-energy means for performing critical separations in water treatment, beverage processing, biotechnology, and other industries. Their research on membrane separations has included mathematical modeling of crossflow microfiltration and the development of a rapid backpulsing technique for overcoming the detrimental effects of membrane fouling. Application areas have focused on biological suspensions and waste waters. http://d.namipan.com/d/528803b84 ... bdc4a46254adbdd2d00 [ Last edited by jinkai838 on 2010-12-23 at 06:27 ] |
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