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Professor Tayfun E. Tezduyar

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Prof. Tayfun E. Tezduyar

Research Summary:
Dr. Tezduyar's areas of research expertise include computational fluid-structure interaction (FSI), cardiovascular FSI, heart valve computational flow analysis, spacecraft parachute FSI, bioinspired flapping-wing aerodynamics, aerodynamics of wind turbines, thermo-fluid analysis of ground vehicles, tires and disk brakes, flow analysis of turbochargers and other turbomachinery, and aerodynamics and structural mechanics of ram-air parachutes. His expertise also includes air circulation and contaminant dispersion, fluid-particle interaction, free-surface and two-fluid flows, moving boundaries and interfaces, computational fluid mechanics, finite element methods, stabilized formulations, multiscale methods, and parallel computing.

Selected Publications:
Book:
Yuri Bazilevs, Kenji Takizawa and Tayfun E. Tezduyar, Computational Fluid-Structure Interaction: Methods and Applications, John Wiley & Sons, 2013
Journal Articles, etc.:
Hughes TJR, Tezduyar TE. Finite elements based upon mindlin plate theory with particular reference to the 
four-node bilinear isoparametric element. Journal of Applied Mechanics 1981; 48:587-596.
Hughes TJR, Tezduyar TE (1984) Finite element method for first-order hyperbolic systems with particular emphasis on the compressible Euler equations. Comput Methods Appl Mech Eng 45:217–284
Tezduyar T, Park Y (1986) Discontinuity-capturing finite element formulations for nonlinear convection-diffusion-reaction equations. Comput Methods Appl Mech Eng 59(3):307–325.
Tezduyar, T. E., Shih, R., and Mittal, S. (1990). Time-accurate incompressible flow computations with quadrilateral velocity-pressure elements. University of Minnesota. Supercomputer Institute Research Report UMSI 90/143, August.
Tezduyar, T. E. (1992). Stabilized finite element formulations for incompressible flow computations. Advances in Applied Mechanics, 28:1–44.
Tezduyar TE, Behr M, Mittal S, Johnson AA (1992) Computation of unsteady incompressiblke flows and massively parallel implementations. New Methods Transient Anal 246:7–24
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