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Farhad Jaberi |
| Professor and Director | |
| Michigan State University | |
| Mechanical Engineering | |
| 2240 Engineering Building | |
| East Lansing, MI 48824-1226 | |
| Ph:(517) 432-4678 | |
| Fax:(517) 353-1750 | |
| jaberi@egr.msu.edu | |
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Research Interests: -Advanced computational fluid dynamics -Turbulent mixing and reaction -Large eddy and direct numerical simulations -Combustion and propulsion -Complex fluids and multiphase transport Selected Publications: Filtered Mass Density Function for Large Eddy Simulation of Turbulent Reacting Flows, F.A. Jaberi, P.J. Colucci, S. James, P. Givi and S.B. Pope, Journal of Fluid Mechanics, 401, 85-121, 1999. Large Scale Simulations of Nonpremixed Methane Jet Flames, S. James and F. A. Jaberi, Combustion and Flame, 123, 456-487, 2000. Advances in Analytical Description of Turbulent Reacting Flows, Chapter in ``Advances in Chemical Propulsion'', Editor: Gabriel D. Roy, Taylor & Francis, Washington, DC., 2001. Characteristics of Chemically Reacting Compressible Turbulence, F.A. Jaberi, D. Livescu and C. K. Madnia, Physics of Fluids, 12(5), 1189-1209, 2000. Passive Scalar Wake Behind a Line Source in Grid Turbulence,'' D. Livescu, F.A. Jaberi and C.K. Madnia, Journal of Fluid Mechanics, 416, 117-149, 2000. Particle Dispersion in Forced Isotropic Low Mach Number Turbulence, F. Mashayek and F.A. Jaberi, International Journal of Heat and Mass Transfer, 42, 2823-2836, 1999. Honors/Awards: -National Science Foundation (NSF) CAREER Award -Office of Naval Research (ONR) Young Investigator Program Award Personal: Farhad Jaberi is Associate Professor of Mechanical Engineering at Michigan State University. He received his PhD from the State University of New York at Buffalo in 1996. He worked there for three years as a Research Assistant Professor. His teaching interests are in thermal-fluid science and engineering, turbulence, combustion, computational fluid dynamics, heat and mass transfer, applied mathematics, statistical analysis, gas dynamics, dynamics and vibration, systems and control, and acoustics. His research focuses on thermal-fluid science and engineering, computational fluid dynamics, turbulence, mixing and reaction, large-scale and high-performance computations, statistical modeling, multiphase transport, and propulsion. Most of his previous research programs have been sponsored by such governmental agencies as NASA, ONR, NSF, and ACS. He had some experience as a practicing engineer prior to his PhD studies. An important component of his current research is concerned with development of advanced computational models for "realistic" simulations of complex mixing and reacting systems. |
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