Bibliography

Aliabadi92a:: S. Aliabadi and T.E. Tezduyar. Space-time finite element computation of compressible flows involving moving boundaries and interfaces. Computer Methods in Applied Mechanics and Engineering, 107(1-2):209-223, 1993.
Aliabadi93a:: S. Aliabadi, S.E. Ray, and T.E. Tezduyar. SUPG finite element computation of compressible flows with the entropy and conservation variables formulations. Computational Mechanics, 11:300-312, 1993.
Aliabadi94a:: S. Aliabadi and T.E. Tezduyar. Massively parallel compressible flow computations in aerospace applications. In Extended Abstracts of the Second Japan-US Symposium on Finite Element Methods in Large-Scale Computational Fluid Dynamics, Tokyo, Japan, 1994.
Aliabadi94b:: S.K. Aliabadi and T.E. Tezduyar. Parallel fluid dynamics computations in aerospace applications. International Journal for Numerical Methods in Fluids, 21:783-805, 1995.
Aliabadi94:: S.K. Aliabadi. Parallel Finite Element Computations in Aerospace Applications. PhD thesis, Department of Aerospace Engineering and Mechanics, University of Minnesota, 1994.
Aliabadi95a:: S.K. Aliabadi, W.L. Garrard, V. Kalro, S. Mittal, and T.E. Tezduyar. Parallel finite element computation of the dynamics of large ram air parachutes. In Proceedings of {AIAA} 13th Aerodynamic Decelerator Systems Technology, AIAA Paper 95-1581, Clearwater Beach, Florida, 1995.
Aliabadi97a:: S. Aliabadi and T. Tezduyar. 3D simulation of free-surface flows with parallel finite element method. In S.~Atluri and G.~Yagawa, editors, Computational Engineering Science, Proceedings of International Conference on Computational Engineering Science, San Jose, Costa Rica, 1997.
Aliabadi97b:: S. Aliabadi and T. Tezduyar. Stabilized-Finite-Element/Interface-Capturing Technique for parallel computation of unsteady flows with interfaces. in preparation, 1997.
Aliabadi98a:: S. Aliabadi and T. Tezduyar. Parallel computation of two-fluid interfaces with the finite element interface-capturing technique. In Pre-Conference Proceedings of the 4th Japan-US Symposium on Finite Element Methods in Large-Scale Computational Fluid Dynamics, Tokyo, Japan, 1998.
Baker79a:: A.J. Baker. Researchon numerical algorithms for the three-dimensional navier-stokes equations, I. Accuracy, convergence and efficiency. Technical Report AFFDL-TR-79-3141, Wright-Patterson Air Force Base, 1979.
Baldwin90a:: B.S. Baldwin and T.J. Barth. A one-equation turbulence transport model for high reynolds number wall-bounded flows. Technical Report 102847, NASA Ames Research Center, 1990.
Behr91a:: M. Behr, T.E. Tezduyar, and H. Higuchi. Wake interference behind two flat plates normal to the flow: A finite-element study. Theoretical and Computational Fluid Mechanics, 2:223-250, 1991.
Behr91b:: M. Behr, J. Liou, R. Shih, and T.E. Tezduyar. Vorticity-stream function formulation of unsteady incompressible flow past a cylinder: Sensitivity of the computed flow field to the location of the outflow boundary. International Journal for Numerical Methods in Fluids, 12:323-342, 1991.
Behr92:: M. Behr. Stabilized Finite Element Methods for Incompressible Flows with Emphasis on Moving Boundaries and Interfaces. PhD thesis, Department of Aerospace Engineering and Mechanics, University of Minnesota, 1992.
Behr92a:: M. Behr, L.P. Franca, and T.E. Tezduyar. Stabilized finite element methods for the velocity-pressure-stress formulation of incompressible flows. Computer Methods in Applied Mechanics and Engineering, 104(1):31-48, 1993.
Behr92b:: M. Behr, A. Johnson, J. Kennedy, S. Mittal, and T.E. Tezduyar. Computation of incompressible flows with implicit finite element implementations on the Connection Machine. Computer Methods in Applied Mechanics and Engineering, 108:99-118, 1993.
Behr92c:: M. Behr and T.E. Tezduyar. Galerkin/least-squares space-time finite element method for deforming domains -- recent developments. In J.J.H. Miller, editor, BAIL VI Proceedings of Sixth International Conference on Boundary and Interior Layers - Computational and Asymptotic Methods, pages 81-84, Copper Mountain, Colorado, 1992. Front Range Press.
Behr92d:: M. Behr and T.E. Tezduyar. Finite element solution strategies for large-scale flow simulations. Computer Methods in Applied Mechanics and Engineering, 112:3-24, 1994.
Behr95a:: M. Behr, D. Hastreiter, S. Mittal, and T.E. Tezduyar. Incompressible flow past a circular cylinder: Dependence of the computed flow field on the location of the lateral boundaries. Computer Methods in Applied Mechanics and Engineering, 123:309-316, 1995.
Behr97a:: M. Behr and T.E. Tezduyar. A note on Shear-Slip Mesh Update Method. In Lecture Notes of the Workshop on Parallel Computing in Applied Fluid Mechanics. Associazione Amici Scuola Normale Superiore, Pisa, Italy, 1997.
Behr97b:: M. Behr and J. Sahu. Parallelization of a zonal missile aerodynamics code. AHPCRC Bulletin, 7(1-2):9-12, 1997.
Behr98a:: M. Behr and T.E. Tezduyar. Shear-Slip Mesh Update Method. Computer Methods in Applied Mechanics and Engineering, 174:261-274, 1999.
Behr98b:: M. Behr and T.E. Tezduyar. Shear-slip mesh update method for computation of flow problems with spinning geometries. In S.~Idelsohn, E.~O\ {n}ate, and E.~Dvorkin, editors, Computational Mechanics - New Trends and Applications. CD-ROM, 1998.
Behr99a:: M. Behr and T.E. Tezduyar. Shear-slip mesh update in 3D computation of complex flow problems with rotating mechanical components. to appear in {\it Computer Methods in Applied Mechanics and Engineering}, 1999.
Behr99b:: M. Behr, D.M. Pressel, and Jr. W.B. Sturek. Comments on CFD code performance on scalable architectures. submitted to {\it Computer Methods in Applied Mechanics and Engineering}, 1999.
Benek85a:: J.A. Benek, P.G. Buning, and J.L. Steger. A 3-D Chimera grid embedding technique. Paper 85-1523, AIAA, 1985.
Brezzi84a:: F. Brezzi and J. Pitk\"aranta. On the stabilization of finite element approximations of the Stokes problem. In W.~Hackbusch, editor, Efficient Solutions of Elliptic Systems, volume~10 of Notes on Numerical Fluid Mechanics, pages 11-19. Vieweg, Wiesbaden, 1984.
Brooks82a:: A.N. Brooks and T.J.R. Hughes. Streamline upwind/Petrov-Galerkin formulations for convection dominated flows with particular emphasis on the incompressible Na\-vier-Stokes equations. Computer Methods in Applied Mechanics and Engineering, 32:199-259, 1982.
Chalot92a:: F. Chalot and Z. Johan. Development of a finite element Navier-Stokes solver with applications to turbulent and hypersonic flows. In Proceedings of {AIAA} 30th Aerospace Sciences Meeting, AIAA Paper 92-0670, Reno, Nevada, 1983.
Christie76a:: I. Christie, D.F. Griffiths, A.R. Mitchell, and O.C. Zienkiewicz. Finite element methods for second order differential equations with significant first derivatives. International Journal for Numerical Methods in Engineering, 10:1389-1396, 1976.
Chu78a:: C.K. Chu. Numerical methods in fluid dynamics. Advances in Applied Mechanics, 18:285-331, 1978.
Coffee85a:: T.P. Coffee. A lumped parameter code for regenerative liquid propellant guns. Technical Report BRL-TR-2703, Ballistic Research Laboratory, 1985.
Coffee88a:: T.P. Coffee. One-dimensional modeling of liquid injection in a regenerator propellant gun. Technical Report BRL-TR-2897, Ballistic Research Laboratory, 1988.
Coffee88b:: T.P. Coffee. An updated lumped parameter code for regenerative liquid propellant in-line guns. Technical Report BRL-TR-2974, Ballistic Research Laboratory, 1988.
Coffee89a:: T.P. Coffee, G.P. Wren, and W.F. Morrison. A comparison between experiment and simulation for concept VIC regenerative liquid propellant guns. I. 30 mm. Technical Report BRL-TR-3072, Ballistic Research Laboratory, 1989.
Cometta57a:: C. Cometta. An investigation of the unsteady flow pattern in the wake of cylinder and spheres using a hot wire probe. Technical Report WT-21, Division of Engineering, Brown University, 1957.
Cousteix90:: J. Cousteix. Turbulence et Couche Limite. Cepadues Editions, 1990.
Das92a:: R. Das, D.J. Mavriplis, J. Saltz, S. Gupta, and R. Ponnusamy. The design and implementation of parallel unstructured Euler solver using software primitives. In Proceedings of {AIAA} 30th Aerospace Science Meeting, AIAA Paper 92-0562, 1992.
DeAlmeida99a:: V.F. De Almeida. Domain deformation mapping: Application to variational mesh generation. SIAM Journal on Scientific Computing, 20(4):1252-1275, 1999.
Dendy74a:: J.E. Dendy. Two methods of Galerkin type achieving optimum L$^2$ rates of convergence for first order hyperbolics. SIAM Journal of Numerical Analysis, 11:637-653, 1974.
Donea84a:: J. Donea. A Taylor-Galerkin method for convective transport problems. International Journal for Numerical Methods in Engineering, 20:101-120, 1984.
Engelman82a:: M.S. Engelman, R.L. Sani, and P.M. Gresho. The implementation of normal and/or tangential boundary conditions in finite element codes for incompressible fluid flow. International Journal for Numerical Methods in Fluids, 2:225-238, 1982.
Farhat88a:: C. Farhat. A simple and efficient automatic FEM domain decomposer. Computers \& Structures, 28:576-602, 1988.
Farhat89a:: C. Farhat. On the mapping of massively parallel processors onto finite element graphs. Computers \& Structures, 32(2):347-354, 1989.
Farhat92a:: C. Farhat, L. Fezoui, and S. Lanteri. Mixed finite volume / finite element massively parallel computations: Euler flows, unstructured grids, and upwind computations. In P.~Mehrotra, J.~Saltz, and R.~Voigt, editors, Unstructured Scientific Computation on Scalable Multiprocessors, pages 253-283. MIT Press, 1992.
Farhat92b:: C. Farhat and M. Lesoinne. Mesh partitioning algorithms for the parallel solution of partial differential equations. Report CU-CSSC-91-14, Center for Space Structures and Controls, University of Colorado, Boulder, Colorado 80309, June 1991. to appear in {\it International Journal for Numerical Methods in Engineering}.
Farhat93a:: C. Farhat, L. Fezoui, and S. Lanteri. Two-dimensional viscous flow computations on the CM-2: Unstructured meshes, upwind schemes and massively parallel computations. Computer Methods in Applied Mechanics and Engineering, 102:61-88, 1993.
Farhat94a:: C. Farhat and S. Lanteri. Simulation of compressible viscous flows on a variety of MPPs: Computational algorithms for unstructured dynamic meshes and performance results. Computer Methods in Applied Mechanics and Engineering, 119:35-60, 1994.
Farhat95a:: C. Farhat, M. Lesoinne, and N. Maman. Mixed explicit/implicit time integration of coupled aeroelastic problems: Three-field formulation, geometric conservation and distributed solution. International Journal for Numerical Methods in Fluids, 21:807-835, 1995.
Fletcher88:: C.A.J. Fletcher. Computational Techniques for Fluid Dynamics, Volume II. Springer-Verlag, New York, 1988.
Franca88a:: L.P. Franca and T.J.R. Hughes. Two classes of mixed finite element methods. Computer Methods in Applied Mechanics and Engineering, 69:89-129, 1988.
Franca92a:: L.P. Franca and S.L. Frey. Stabilized finite element methods: II. The incompressible Navier-Stokes equations. Computer Methods in Applied Mechanics and Engineering, 99:209-233, 1992.
Franca92b:: L.P. Franca, S.L. Frey, and T.J.R. Hughes. Stabilized finite element methods: I. Application to the advective-diffusive model. Computer Methods in Applied Mechanics and Engineering, 95:253-276, 1992.
Fujitsu93a:: Fujitsu Laboratories Ltd, Chiyoda-ku, Tokyo~100, Japan. {AP1000} Library Manual, 1993.
Ganjoo89a:: D.K. Ganjoo, T.E. Tezduyar, and W.D. Goodrich. A new formulation for numerical solution of electrophoresis separation process. Computer Methods in Applied Mechanics and Engineering, 75:515-530, 1989.
Garrard95a:: W.L Garrard, T.E. Tezduyar, S.K. Aliabadi, V. Kalro, J. Luker, and S. Mittal. Inflation analysis of ram air inflated gliding parachutes. In Proceedings of {AIAA} 13th Aerodynamic Decelerator Systems Technology, AIAA Paper 95-1565, Clearwater Beach, Florida, 1995.
Gresho91a:: P.M. Gresho. Incompressible fluid dynamics: Some fundamental formulation issues. Annual Review of Fluid Mechanics, 23:413-453, 1991.
Guler98a:: I. G\"uler, M. Behr, and T.E. Tezduyar. Parallel finite element computation of free-surface flows. Computational Mechanics, 23(2):117-123, 1999.
Gustafsson78a:: B. Gustafsson and A. Sundstrom. Incompletely parabolic problems in fluid dynamics. SIAM Journal of Applied Mathematics, 35:343-357, 1978.
Hauke94a:: G. Hauke and T.J.R. Hughes. A unified approach to compressible and incompressible flows. Computer Methods in Applied Mechanics and Engineering, 113(3-4):389-395, 1994.
Hecht90a:: F. Hecht and E. Satel. $\mboxEmc^2$ un logiciel d'\'edition de maillages et de contours bidimensionnels. RT ${\mbox n}^o$118, INRIA, April 1990.
Heinrich77a:: J.C. Heinrich, P.S. Huyakorn, O.C. Zienkiewicz, and A.R. Mitchell. An ``upwind'' finite element scheme for two-dimensional convective transport equation. International Journal for Numerical Methods in Engineering, 11:134-143, 1977.
Higuchi89a:: H. Higuchi, J. Liou, M. Behr, and T.E. Tezduyar. Finite element computations and experimental studies of flow past an array of plates. In W.K.~Liu et~al., editor, Computational Experiments, PVP-Vol.175, pages 45-54. ASME, New York, 1989.
Hirsch88:: C. Hirsch. Numerical Computation of Internal and External Flows. John Wiley \& Sons, New York, 1988.
Hughes78a:: T.J.R. Hughes and J. Atkinson. A variational basis for ``upwind'' finite elements. In IUTAM Symposium on Variational Finite Element Methods in the Mechanics of Solids, Evanston, Illinois, 1978.
Hughes79a:: T.J.R. Hughes and A.N. Brooks. A multi-dimensional upwind scheme with no crosswind diffusion. In T.J.R. Hughes, editor, Finite Element Methods for Convection Dominated Flows, AMD-Vol.34, pages 19-35. ASME, New York, 1979.
Hughes80a:: T.J.R. Hughes and A.N. Brooks. Galerkin/upwind finite element mesh partitions in fluid mechanics. In J.J.H. Miller, editor, Boundary and Interior Layers - {C}omputational and Asymptotic Methods. Boole Press, Dublin, 1980.
Hughes82a:: T.J.R. Hughes and A.N. Brooks. A theoretical framework for Petrov-Galerkin methods with discontinuous weighting functions: Application to the streamline upwind procedure. In R.H. Gallagher, editor, Finite Elements in Fluids, volume~4. J. Wiley \& Sons, New York, 1982.
Hughes84a:: T.J.R Hughes and T.E. Tezduyar. Finite element methods for first-order hyperbolic systems with particular emphasis on the compressible Euler equations. Computer Methods in Applied Mechanics and Engineering, 45:217-284, 1984.
Hughes86a:: T.J.R. Hughes, L.P. Franca, and M. Balestra. A new finite element formulation for computational fluid dynamics: V. Circumventing the Babu\vska-Brezzi condition: A stable Petrov-Galerkin formulation of the Stokes problem accommodating equal-order interpolations. Computer Methods in Applied Mechanics and Engineering, 59:85-99, 1986.
Hughes86b:: T.J.R. Hughes, L.P. Franca, and M. Mallet. A new finite element formulation for computational fluid dynamics: I. Symmetric forms of the compressible Euler and Navier-Stokes equations and the second law of thermodynamics. Computer Methods in Applied Mechanics and Engineering, 54:223-234, 1986.
Hughes86c:: T.J.R. Hughes, M. Mallet, and A. Mizukami. A new finite element formulation for computational fluid dynamics: II. Beyond SUPG. Computer Methods in Applied Mechanics and Engineering, 54:341-355, 1986.
Hughes86e:: T.J.R. Hughes and M. Mallet. A new finite element formulation for computational fluid dynamics: IV. A discontinuity-capturing operator for multidimensional advective-diffusive systems. Computer Methods in Applied Mechanics and Engineering, 58:329-339, 1986.
Hughes86f:: T.J.R. Hughes and M. Mallet. A new finite element formulation for computational fluid dynamics: III. The generalized streamline operator for multidimensional advective-diffusive systems. Computer Methods in Applied Mechanics and Engineering, 58:305-328, 1986.
Hughes87:: T.J.R Hughes. The Finte Element Method. {L}inear Static and Dynamic Finite Element Analysis. Prentice-Hall, Englewood Cliffs, New Jersey, 1987.
Hughes87a:: T.J.R. Hughes, L.P. Franca, and M. Mallet. A new finite element formulation for computational fluid dynamics: VI. Convergence analysis of the generalized SUPG formulation for linear time-dependent multi-dimensional advective-diffusive systems. Computer Methods in Applied Mechanics and Engineering, 63:97-112, 1987.
Hughes87b:: T.J.R. Hughes and L.P. Franca. A new finite element formulation for computational fluid dynamics: VII. The Stokes problem with various well-posed boundary conditions: Symmetric formulations that converge for all velocity/pressure spaces. Computer Methods in Applied Mechanics and Engineering, 65:85-96, 1987.
Hughes88a:: T.J.R. Hughes and G.M. Hulbert. Space-time finite element methods for elastodynamics: formulations and error estimates. Computer Methods in Applied Mechanics and Engineering, 66:339-363, 1988.
Hughes89a:: T.J.R. Hughes, L.P. Franca, and G.M. Hulbert. A new finite element formulation for computational fluid dynamics: VIII. the Galerkin/least-squares method for advective-diffusive equations. Computer Methods in Applied Mechanics and Engineering, 73:173-189, 1989.
Hughes95a:: T.J.R. Hughes. Multiscale phenomena: Green's functions, the Dirichlet-to-Neumann formulation, subgrid scale models, bubbles, and the origins of stabilized methods. Computer Methods in Applied Mechanics and Engineering, 127:387-401, 1995.
Hughes96a:: T.J.R. Hughes and J.R. Stewart. A space-time formulation for multiscale phenomena. to appear in {\it Journal of Computational and Applied Mathematics}, 1996.
Ise61:: Reports on Ise-Bay typhoon. Technical report 7, The Meteorological Agency, 1961. (in Japanese).
Jiang93a:: C.B. Jiang, M. Kawahara, K. Hatanaka, and K. Kashiyama. A three-step finite element method for convection-dominated incompressible flows. Computational Fluid Dynamics Journal, 1:443-462, 1993.
Johan91b:: Z. Johan, T.J.R. Hughes, and F. Shakib. A globally convergent matrix-free algorithm for implicit time-marching schemes arising in finite element analysis in fluids. Computer Methods in Applied Mechanics and Engineering, 87:281-304, 1991.
Johan92:: Z. Johan. Data Parallel Finite Element Techniques for Large-Scale Computational Fluid Dynamics. PhD thesis, Department of Mechanical Engineering, Stanford University, 1992.
Johan94a:: Z. Johan, K.K. Mathur, S.L. Johnsson, and T.J.R. Hughes. An efficient communications strategy for finite element methods on the Connection Machine CM-5 system. Computer Methods in Applied Mechanics and Engineering, 113:363-387, 1994.
Johan94b:: Z. Johan, K.K. Mathur, S.L. Johnsson, and T.J.R. Hughes. Scalability of finite element applications on distributed-memory parallel computers. Computer Methods in Applied Mechanics and Engineering, 119:61-72, 1994.
Johan95a:: Z. Johan, K.K. Mathur, S.L. Johnsson, and T.J.R. Hughes. A case study in parallel computation: Viscous flow around an Onera M6 wing. International Journal for Numerical Methods in Fluids, 21:877-884, 1995.
Johnson84a:: C. Johnson, U. Navert, and J. Pitk\"aranta. Finite element methods for linear hyperbolic problems. Computer Methods in Applied Mechanics and Engineering, 45:285-312, 1984.
Johnson86a:: C. Johnson and J. Saranen. Streamline diffusion methods for the incompressible Euler and Navier-Stokes equations. Mathematics of Computation, 47:1-18, 1986.
Johnson87:: C. Johnson. Numerical Solution of Partial Differential Equations by the Finite Element Method. Cambridge University Press, Cambridge, England, 1987.
Johnson94a:: A.A. Johnson and T.E. Tezduyar. Mesh update strategies in parallel finite element computations of flow problems with moving boundaries and interfaces. Computer Methods in Applied Mechanics and Engineering, 119:73-94, 1994.
Johnson95:: A. Johnson. Mesh Generation and Update Strategies for Parallel Computation of Flow Problems with Moving Boundaries and Interfaces. PhD thesis, Department of Aerospace Engineering and Mechanics, University of Minnesota, 1995.
Johnson95a:: A.A. Johnson and T.E. Tezduyar. Mesh generation and update strategies for parallel computation of 3D flow problems. In Computational Mechanics '95, {P}roceedings of International Conference on Computational Engineering Science, Mauna Lani, Hawaii, 1995.
Johnson95b:: A.A. Johnson and T.E. Tezduyar. Numerical simulation of fluid-particle interactions. In Proceedings of the Ninth International Conference on Finite Elements in Fluids, Venice, Italy, 1995.
Johnson96a:: A.A. Johnson and T.E. Tezduyar. Simulation of multiple spheres falling in a liquid-filled tube. Computer Methods in Applied Mechanics and Engineering, pages 351-373, 1996.
Johnson96b:: A.A. Johnson and T.E. Tezduyar. Parallel computation of incompressible flows with complex geometries. International Journal for Numerical Methods in Fluids, 24:1321-1340, 1997.
Johnson97a:: A.A. Johnson and T.E. Tezduyar. 3D simulation of fuid-particle interactions with the number of particles reaching 100. Computer Methods in Applied Mechanics and Engineering, 145:301-321, 1997.
Johnson99a:: A.A. Johnson and T.E. Tezduyar. Advanced mesh generation and update methods for 3D flow simulations. Computational Mechanics, 23(2):130-143, 1999.
Kalro94a:: V. Kalro and T.E. Tezduyar. Parallel finite element computation of 3D incompressible flows. Research Report UMSI 94/177, University of Minnesota Supercomputer Institute, 1200 Washington Avenue South, Minneapolis, MN 55415, September 1994.
Kalro95a:: V. Kalro and T.E. Tezduyar. Parallel finite element computation of 3D incompressible flows on MPPs. In W.G. Habashi, editor, Solution Techniques for Large-Scale {CFD} Problems. John Wiley \& Sons, 1995.
Kalro96a:: V. Kalro, S. Aliabadi, W. Garrard, T. Tezduyar, S. Mittal, and K. Stein. Parallel finite element simulation of large ram-air parachutes. International Journal for Numerical Methods in Fluids, 24:1353-1369, 1997.
Kalro97a:: V. Kalro and T. Tezduyar. Parallel iterative computational methods for 3d finite element flow simulations. to appear in {\it Computer Assisted Mechanics and Engineering Sciences}, 1997.
Karypis95a:: G. Karypis and V. Kumar. Multilevel k-way partioning scheme for irregular graphs. Technical Report 95-064, Department of Computer Science, University of Minnesota, 1995.
Karypis96:: G. Karypis. Graph Partitioning and Its Applications to Scientific Computing. PhD thesis, Department of Computers Science, University of Minnesota, 1996.
Kashiyama92a:: K. Kashiyama and T. Okada. Automatic mesh generation method for shallow water flow analysis. International Journal for Numerical Methods in Fluids, 15:1037-1057, 1992.
Kashiyama94a:: K. Kashiyama, M. Behr, and T. Tezduyar. Massively parallel finite element computation of shallow water flows and contaminant transport. In A.~Peters {\it et al.}, editor, Computational Methods in Water Resources X, volume~2, Paris, France, 1994. Kluwer Academic Publishers.
Kashiyama94b:: K. Kashiyama, H. Ito, M. Behr, and T. Tezduyar. Three-step explicit finite element computation of shallow water flows on a massively parallel computer. International Journal for Numerical Methods in Fluids, 21:885-900, 1995.
Kashiyama94c:: K. Kashiyama, H. Ito, M. Behr, and T.E. Tezduyar. Massively parallel finite element strategies for large-scale computation of shallow water flows and contaminant transport. In Extended Abstracts of the Second Japan-US Symposium on Finite Element Methods in Large-Scale Computational Fluid Dynamics, Tokyo, Japan, 1994.
Kashiyama94d:: K. Kashiyama, H. Ito, M. Behr, and T.E. Tezduyar. Massively parallel finite element method for large-scale computation of shallow water flows. In Extended Abstracts of the Third World Congress on Computational Mechanics. IACM, Chiba, Japan, 1994.
Kashiyama94e:: K. Kashiyama and M. Sakuraba. Adaptive boundary-type finite element method for wave diffraction-refraction in harbors. Computer Methods in Applied Mechanics and Engineering, 112:185-197, 1994.
Kashiyama95a:: K. Kashiyama, S. Yoshikawa, M. Behr, and T.E. Tezduyar. Massively parallel finite element computation of storm surge. In Lecture Notes on Finite Element Simulation of Flow Problems. Japan Society of Computational Fluid Dynamics, Tokyo, Japan, 1995.
Kashiyama96a:: K. Kashiyama, K. Saitoh, and S. Yoshikawa. Massively parallel finite element method for large-scale computation of storm surge. In Proceedings of 11th International Conference on Computational Methods in Water Resources, Cancun, Mexico, 1996.
Kashiyama96b:: K. Kashiyama, K. Saitoh, M. Behr, and T.E. Tezduyar. Parallel finite element methods for large-scale computation of storm surges and tidal flows. International Journal for Numerical Methods in Fluids, 24:1371-1389, 1997.
Kashiyama99a:: K. Kashiyama, Y. Ohba, T. Takagi, M. Behr, and T.E. Tezduyar. Parallel finite element method utilizing the mode splitting and sigma coordinate for shallow water flows. Computational Mechanics, 23(2):144-150, 1999.
Kashiyama99b:: K. Kashiyama, S. Sugano, M. Behr, and T.E. Tezduyar. Space-time finite element method for shallow water flows considering moving boundaries. In Proceedings of 3rd ASME/JSME Joint Fluids Engineering Conference, San Francisco, California, 1999.
Kato91a:: C. Kato and M. Ikegawa. Large eddy simulation of unsteady turbulent wake of a circular cylinder using the finite element method. In I.~Celik, T.~Kobayashi, K.N. Ghia, and J.~Kurokawa, editors, Advances in Numerical Simulation of Turbulent Flows, FED-Vol.117, pages 49-56, New York, 1991. ASME.
Kawahara82a:: M. Kawahara, H. Hirano, K. Tsubota, and K. Inagaki. Selective lumping finite element method for shallow water flow. International Journal for Numerical Methods in Fluids, 2:89-112, 1982.
Kawahara84a:: M. Kawahara and K. Kashiyama. Selective lumping finite element method for nearshore current. International Journal for Numerical Methods in Fluids, 4:71-97, 1984.
Kennedy94a:: J.G. Kennedy, M. Behr, V. Kalro, and T.E. Tezduyar. Implementation of implicit finite element methods for incompressible flows on the CM-5. Computer Methods in Applied Mechanics and Engineering, 119:95-111, 1994.
Kennedy94b:: J.G. Kennedy, V. Kalro, M. Behr, and T.E. Tezduyar. A strategy for implementing implicit finite element methods for incompressible fluids on the CM-5. In Extended Abstracts of the Second Japan-US Symposium on Finite Element Methods in Large-Scale Computational Fluid Dynamics, Tokyo, Japan, 1994.
Kim61a:: K.J. Kim and P.A. Durbin. Observation of the frequencies in a sphere wake and drag increase by acoustic excitation. Physics of Fluids, 31:3260-3265, 1961.
Kourta87a:: A. Kourta, H.C. Boisson, P. Chassaing, and H. Ha Minh. Nonlinear interaction and the transition to turbulence in the wake of a circular cylinder. Journal of Fluid Mechanics, 181:141-161, 1987.
Kulacki77:: F.A. Kulacki and A.A. Emara. Steady and transient thermal convection in a fluid layer with uniform volumetric energy sources. Journal of Fluid Mechanics, 55(2):271-278, 1977.
Launder74a:: B.E Launder and D.B. Spalding. The numerical computation of turbulent flows. Computer Methods in Applied Mechanics and Engineering, 3:269-289, 1974.
LeBeau91a:: G.J. Le Beau and T.E. Tezduyar. Finite element computation of compressible flows with the SUPG formulation. In M.N. Dhaubhadel, M.S. Engelman, and J.N. Reddy, editors, Advances in Finite Element Analysis in Fluid Dynamics, FED-Vol.123, pages 21-27, New York, 1991. ASME.
LeBeau91b:: G.J. Le Beau and T.E. Tezduyar. Finite element solution of flow problems with mixed-time integration. Journal of Engineering Mechanics, 117:1311-1330, 1991.
LeBeau92a:: G.J. Le Beau, S.E. Ray, S.K. Aliabadi, and T.E. Tezduyar. SUPG finite element computation of compressible flows with the entropy and conservation variables formulations. Computer Methods in Applied Mechanics and Engineering, 104:397-422, 1993.
Lemos96a:: C.M. Lemos. Higher-order schemes for free-surface flows with arbitrary configurations. International Journal for Numerical Methods in Fluids, 23:545-566, 1996.
Liepmann58:: H.W. Liepmann and A. Roshko. Elements of Gasdynamics. J.~Wiley \& Sons, New York, 1958.
Lingard95a:: J.S. Lingard. Ram-air parachute design. In {AIAA} 13th Aerodynamic Decelerator Conference, 2nd {ADS} Technology Seminar, Clearwater Beach, Florida, 1995.
Liou90a:: J. Liou and T.E. Tezduyar. Computation of compressible and incompressible flows with the clustered element-by-element method. Research Report UMSI 90/215, University of Minnesota Supercomputer Institute, 1200 Washington Avenue South, Minneapolis, MN 55415, October 1990.
Liou90b:: J. Liou and T.E. Tezduyar. Iterative adaptive implicit-explicit methods for flow problems. International Journal for Numerical Methods in Fluids, 11:867-880, 1990.
Liou90c:: J. Liou, H.A. Deans, and T.E. Tezduyar. Finite element simulation of deep-well wet oxidation reactor. Journal of Engineering Mechanics, 116:1780-1797, 1990.
Liou91a:: J. Liou and T.E. Tezduyar. A clustered element-by-element iteration method for finite element computations. In R.~Glowinski et~al., editor, Domain Decomposition Methods for Partial Differential Equations, chapter~13, pages 140-150. SIAM, 1991.
Liou92a:: J. Liou and T.E. Tezduyar. Clustered element-by-element computations for fluid flow. In H.D. Simon, editor, Parallel Computational Fluid Dynamics - Implementation and Results, Scientific and Engineering Computation Series, chapter~9, pages 167-187. MIT Press, Cambridge, Massachusetts, 1992.
Lomax74a:: H. Lomax and E.D. Martin. Fast direct numerical solution of the nonhomogenous Cauchy-Riemann equations. Journal of Computational Physics, 15(1):55-80, 1974.
Lomax81a:: H. Lomax. Some prospects for the future of computational fluid dynamics. In Proceedings of the 5th {AIAA} Computational Fluid Dynamics Conference, Palo Alto, California, 1981.
Magarvey61a:: R.H. Magarvey and R.L. Bishop. Wakes in liquid-liquid systems. Physics of Fluids, 4:800-805, 1961.
Mallet85:: M. Mallet. A Finite Element Method for Computational Fluid Dynamics. PhD thesis, Department of Civil Engineering, Stanford University, 1985.
Masud97a:: A. Masud and T.J.R. Hughes. A space-time Galerkin/least-squares finite element formulation of the Navier-Stokes equations for moving domain problems. Computer Methods in Applied Mechanics and Engineering, 146:91-126, 1997.
Mestreau95a:: E. Mestreau, M. Zhu, L.T. Kisielewicz, R. L\"ohner, and A. Goto. Finite element simulation of unsteady flow in complete turbomachines with rotating impellers using the ALE remeshing technique. In PUCA'95 Proceedings, Tokyo, Japan, 1995. Nihon ESI K.K.
Mittal91a:: S. Mittal and T.E. Tezduyar. A finite element study of incompressible flows past oscillating cylinders and airfoils. International Journal for Numerical Methods in Fluids, 15:1073-1118, 1992.
Mittal91b:: S. Mittal, A. Ratner, D. Hastreiter, and T.E. Tezduyar. Space-time finite element computation of incompressible flows with emphasis on flows involving oscillating cylinders. International Video Journal of Engineering Research, 1:83-96, 1991.
Mittal91c:: S. Mittal, H.A. Deans, and T.E. Tezduyar. Numerical simulation of deep-well wet oxidation reactor using steam. Journal of Engineering Mechanics, 117:798-819, 1991.
Mittal92:: S. Mittal. Stabilized Space-Time Finite Element Formulations for Unsteady Incompressible Flows Involving Fluid-Body Interactions. PhD thesis, Department of Aerospace Engineering and Mechanics, University of Minnesota, 1992.
Mittal94a:: S. Mittal and T.E. Tezduyar. Massively parallel finite element computation of incompressible flows involving fluid-body interactions. Computer Methods in Applied Mechanics and Engineering, 112:253-282, 1994.
Mittal94b:: S. Mittal and T.E. Tezduyar. Massively parallel finite element simulation of incompressible flows. In Extended Abstracts of the Second Japan-US Symposium on Finite Element Methods in Large-Scale Computational Fluid Dynamics, Tokyo, Japan, 1994.
Mittal94c:: S. Mittal and T.E. Tezduyar. Parallel finite element simulation of 3d incompressible flows - Fluid-structure interaction. International Journal for Numerical Methods in Fluids, 21:933-953, 1995.
Mittal97a:: S. Mittal, V. Kumar, and A. Raghuvanshi. Unsteady incompressible flows past two cylinders in tandem and staggered arrangements. International Journal for Numerical Methods in Fluids, 25:1315-1344, 1997.
Mittal98a:: S. Mittal and T.E. Tezduyar. A unified finite element formulation for compressible and incompressible flows using augmented conservation variables. Computer Methods in Applied Mechanics and Engineering, 161:229-243, 1998.
Mittal99a:: S. Mittal, S. Aliabadi, and T.E. Tezduyar. Parallel computation of unsteady compressible flows with the EDICT. Computational Mechanics, 23(2):151-157, 1999.
Miyazaki62a:: M. Miyazaki, T. Ueno, and S. Unoki. Theoretical investigations of typhoon surges along the Japanese coast (II). Oceanographical Magazine, 13:103-117, 1962.
Moin93a:: P. Moin and J. Jimen\'ez. Large eddy simulation of complex turbulent flows. In Proceedings of {AIAA} 24th Fluid Dynamics Conference, AIAA Paper 93-3099, 1993.
Moller38a:: W. M\"oller. Experimentelle Untersuchung zur Hydromechanick der Hugel. Physics Zeitshrift, 35:57-80, 1938.
Moretti81a:: G. Moretti. A physical approach to the numerical treatment of boundaries in gas dynamics. In Proceedings of Numerical Boundary Condition Procedures Symposium, Moffet Field, California, 1981. NASA Ames Research Center.
Morgan92a:: K. Morgan, J. Peraire, and J. Peir\'o. Unstructured grid methods for compressible flows. In Special Course on Unstructured Grid Methods for Advection Dominated Flows, pages 5-1 - 5-39. Advisory Group for Aerospace Research and Development, 1992.
Morton80a:: K.W. Morton and J.W. Barrett. Optimal finite element methods for diffusion-convection problems. In J.J.H. Miller, editor, Boundary and Interior Layers - {C}omputational and Asymptotic Methods, pages 134-148. Boole Press, Dublin, 1980.
Nakazawa82:: S. Nakazawa. PhD thesis, University of Swansea, 1982.
Navier23a:: C.L.M.H. Navier. Sur les lois du mouvement des fluides. Memoires de l'Acad\'{e}mie royale des Sciences de l'Institut de France, 6:389-440, 1823.
Ohmi91a:: K. Ohmi, M. Coutanceau, O. Daube, and T.P. Loc. Further experiments on vortex formation around an oscillating and translating airfoil at large incidences. Journal of Fluid Mechanics, 225:607-630, 1991.
Oliger78a:: J. Oliger and A. Sundstrom. Theoretical and practical aspects of some initial boundary value problems in fluid dynamics. SIAM Journal of Applied Mathematics, 35:419-446, 1978.
Ozturan94a:: C. \"Ozturan, H.L. deCougny, M.S. Shephard, and J.E. Flaherty. Parallel adaptive mesh refinement and redistribution on distributed memory computers. Computer Methods in Applied Mechanics and Engineering, 119:123-137, 1994.
Papanastasiou92a:: T.C. Papanastasiou, N. Malamataris, and K. Ellwood. A new outflow boundary condition. International Journal for Numerical Methods in Fluids, 14:587-608, 1992.
Park90a:: Y.J. Park, H.A. Deans, and T.E. Tezduyar. Finite element formulation for transport equations in a mixed coordinate system: an application to determine temperature effects on the single-well chemical tracer test. International Journal for Numerical Methods in Fluids, 11:769-790, 1990.
Peyret83:: R. Peyret and T.D. Taylor. Computational Methods for Fluid Flow. Springer-Verlag, New York, 1983.
Ray95:: S.E. Ray. Large-scale computational strategies for solving compressible flow problems. PhD thesis, Department of Aerospace Engineering and Mechanics, University of Minnesota, 1995.
Ray96a:: S.E. Ray, G.P. Wren, S.K. Aliabadi, and T.E. Tezduyar. High performance computation of fluid-structure interaction and two-phase flow problems. In Proceedings of the 20th Army Science Conference, Norfolk, Virginia, 1996.
Raymond76a:: W.H. Raymond and A. Garder. Selective damping in a Galerkin method for solving wave problems with variable grids. Monthly Weather Review, 104:1583-1590, 1976.
Richtmyer67:: R.D. Richtmyer and K.W. Morton. Difference Methods for Initial-Value Problems. Interscience Publishers, New York, 1967.
Saad81a:: Y. Saad. Krylov subspace methods for solving large unsymmetric linear systems. Mathematics of Computation, 37(155):105-126, 1981.
Saad86a:: Y. Saad and M. Schultz. GMRES: A generalized minimal residual algorithm for solving nonsymmetric linear systems. SIAM Journal of Scientific and Statistical Computing, 7:856-869, 1986.
Saad91a:: Y. Saad. A flexible inner-outer preconditioned GMRES algorithm. SIAM Journal on Scientific Computing, 14(2):461-469, 1993.
Sakamotto90a:: H. Sakamotto and H. Haniu. A study on vortex shedding from spheres in a uniform flow. Journal of Fluid Engineering, 112:386-392, 1990.
Salinger94a:: A.G. Salinger, Q. Xiao, Y. Zhou, and J.J. Derby. Massively parallel finite element computations of three-dimensional, time-dependent, incompressible flows in materials processing systems. Computer Methods in Applied Mechanics and Engineering, 119:139-156, 1994.
Schlichting79:: H. Schlichting. Boundary-Layer Theory. McGraw-Hill, New York, 7 edition, 1979.
Shakib88:: F. Shakib. Finite Element Analysis of the Compressible {E}uler and {N}avier-{S}tokes Equations. PhD thesis, Department of Mechanical Engineering, Stanford University, 1988.
Shakib89a:: S. Shakib, T.J.R. Hughes, and Z. Johan. A multi-element group preconditionined GMRES algorithm for nonsymmetric systems arising in finite element analysis. Computer Methods in Applied Mechanics and Engineering, 75:415-456, 1989.
Shephard91a:: M.S. Shephard and M.K. Georges. Automatic three-dimensional mesh generation by the finite octree technique. International Journal for Numerical Methods in Engineering, 32:709-749, 1991.
Simo94a:: J. Simo and F. Armero. Unconditional stability and long-term behavior of transient algorithms for the incompressible Navier-Stokes and Euler equations. to appear in {\it Computer Methods in Applied Mechanics and Engineering}, 1994.
Slikkerveer96a:: P.J. Slikkerveer, E.P. van Lohuizen, and S.B.G. O'Brien. An implicit surface tension algorithm for Picard solvers of surface-tension-dominated free and moving boundary problems. International Journal for Numerical Methods in Fluids, 22:851-865, 1996.
Smagorinsky63a:: J. Smagorinsky. General circulation experiments with the primitive equations. Monthly Weather Review, 91(3):99-165, 1963.
Smith81a:: J.B. Smith. Shape instabilities and pattern formation is solidification: A new method for numerical solution of the moving boundary problems. Journal of Computational Physics, 39:112-127, 1981.
Speziale91a:: C.G. Speziale. Analytical methods for the development of Reynolds-stress closures in turbulence. Annual Review of Fluid Mechanics, 23:107-157, 1991.
Sturek70a:: W.B. Sturek. An experimental investigation of the supersonic turbulent boundary layer in a moderate adverse pressure gradient. Part I. A detailed, description of the experiment and data tabulation. Technical Report BRL-TR-1506, Ballistic Research Laboratory, 1970.
Sturek98a:: W. Sturek, D.M. Pressel, and M. Behr. Comments on CFD code performance on scaleable architectures. In Proceedings of the 4th Japan-US Symposium on Finite Element Methods in Computational Fluid Dynamics, pages 81-84, Tokyo, Japan, 1992.
Tezduyar82a:: T.E. Tezduyar and T.J.R. Hughes. Development of time-accurate finite element techniques for first-order hyperbloic systems with particular emphasis on the compressible Euler equations. Report prepared under NASA-Ames University Consortium Interchange, No. NCA2-OR745-104, 1982.
Tezduyar83a:: T.E. Tezduyar and T.J.R. Hughes. Finite element formulations for convection dominated flows with particular emphasis on the compressible Euler equations. In Proceedings of AIAA 21st Aerospace Sciences Meeting, AIAA Paper 83-0125, Reno, Nevada, 1983.
Tezduyar86a:: T.E. Tezduyar and Y.J. Park. Discontinuity capturing finite element formulations for nonlinear convection-diffusion-reaction problems. Computer Methods in Applied Mechanics and Engineering, 59:307-325, 1986.
Tezduyar88a:: T.E. Tezduyar, R. Glowinski, and J. Liou. Petrov-Galerkin methods on multiply-connected domains for the vorticity-stream function formulation of the incompressible Navier-Stokes equations. International Journal for Numerical Methods in Fluids, 8:1269-1290, 1988.
Tezduyar89a:: T.E. Tezduyar and J. Liou. Grouped element-by-element iteration schemes for incompressible flow computations. Computer Physcis Communications, 53:441-453, 1989.
Tezduyar89b:: T.E. Tezduyar. Finite element formulation for the vorticity-stream function form of the incompressible Euler equations on multiply-connected domains. Computer Methods in Applied Mechanics and Engineering, 73:331-339, 1989.
Tezduyar90a:: T.E. Tezduyar, J. Liou, D.K. Ganjoo, and M. Behr. Solution techniques for the vorticity-stream function formulation of two-dimensional incompressible flows. International Journal for Numerical Methods in Fluids, 11:515-539, 1990.
Tezduyar90b:: T.E. Tezduyar, J. Liou, and D.K. Ganjoo. Incompressible flow computations based on the vorticity-stream function and velocity-pressure formulations. Computers \& Structures, 35(4):445-472, 1990.
Tezduyar90c:: T.E. Tezduyar and J. Liou. Adaptive implicit-explicit finite element algorithms for fluid mechanics problems. Computer Methods in Applied Mechanics and Engineering, 78:165-179, 1990.
Tezduyar90d:: T.E. Tezduyar and J. Liou. Computation of spatially periodic flows based on the vorticity-stream function formulation. Computer Methods in Applied Mechanics and Engineering, 83:121-142, 1990.
Tezduyar91a:: T.E. Tezduyar, M. Behr, S.K. Aliabadi, S. Mittal, and S.E. Ray. A new mixed preconditioning method for finite element computations. Computer Methods in Applied Mechanics and Engineering, 99:27-42, 1992.
Tezduyar91b:: T.E. Tezduyar, S. Mittal, and R. Shih. Time-accurate incompressible flow computations with quadrilateral velocity-pressure elements. Computer Methods in Applied Mechanics and Engineering, 87:363-384, 1991.
Tezduyar91c:: T.E. Tezduyar. Stabilized finite element formulations for incompressible flow computations. Advances in Applied Mechanics, 28:1-44, 1991.
Tezduyar91d:: T.E. Tezduyar and R. Shih. Numerical experiments on downstream boundary of flow past cylinder. Journal of Engineering Mechanics, 117(4):854-871, 1991.
Tezduyar91e:: T.E. Tezduyar and J. Liou. On the downstream boundary condition for the vorticity-stream function formulation of two-dimensional incompressible flows. Computer Methods in Applied Mechanics and Engineering, 85:207-217, 1991.
Tezduyar92a:: T.E. Tezduyar, M. Behr, and J. Liou. A new strategy for finite element computations involving moving boundaries and interfaces - the deforming-spatial-domain/space-time procedure: I. The concept and the preliminary tests. Computer Methods in Applied Mechanics and Engineering, 94(3):339-351, 1992.
Tezduyar92b:: T.E. Tezduyar, M. Behr, S. Mittal, and J. Liou. A new strategy for finite element computations involving moving boundaries and interfaces - the deforming-spatial-domain/space-time procedure: II. Computation of free-surface flows, two-liquid flows, and flows with drifting cylinders. Computer Methods in Applied Mechanics and Engineering, 94(3):353-371, 1992.
Tezduyar92c:: T.E. Tezduyar, S. Mittal, S.E. Ray, and R. Shih. Incompressible flow computations with stabilized bilinear and linear equal-order-interpolation velocity-pressure elements. Computer Methods in Applied Mechanics and Engineering, 95:221-242, 1992.
Tezduyar92d:: T.E. Tezduyar, M. Behr, S. Mittal, and A.A. Johnson. Computation of unsteady incompressible flows with the finite element methods - space-time formulations, iterative strategies and massively parallel implementations. In P.~Smolinski, W.K. Liu, G.~Hulbert, and K.~Tamma, editors, New Methods in Transient Analysis, AMD-Vol.143, pages 7-24, New York, 1992. ASME.
Tezduyar92e:: T. Tezduyar, S. Aliabadi, M. Behr, A. Johnson, and S. Mittal. Massively parallel finite element computation of three-dimensional flow problems. In Proceedings of the 6th Japan Numerical Fluid Dynamics Symposium, pages 15-24, Tokyo, Japan, 1992.
Tezduyar92f:: T.E. Tezduyar, J. Liou, D.K. Ganjoo, M. Behr, and R. Glowinski. Unsteady incompressible flow computations with the finite element method. In T.J. Chung, editor, Finite Elements in Fluids, Vol.8, pages 177-209. Hemisphere Publishing, 1992.
Tezduyar93a:: T. Tezduyar, S. Aliabadi, M. Behr, A. Johnson, and S. Mittal. Parallel finite-element computation of 3D flows. IEEE Computer, 26(10):27-36, October 1993.
Tezduyar93b:: T. Tezduyar, S. Aliabadi, M. Behr, A. Johnson, and S. Mittal. Massively parallel finite element computation of 3D flows - mesh update strategies in computation of moving boundaries and interfaces. In A.~Ecer, J.~Hauser, P.~Leca, and J.~Periaux, editors, Parallel Computational Fluid Dynamics - New Trends and Advances, pages 21-30. Elsevier, 1995.
Tezduyar94a:: T.E. Tezduyar, M. Behr, S.K. Aliabadi, S. Mittal, and S.E. Ray. A new mixed preconditioning method based on the clustered element-by-element preconditioners. In A.~Quarteroni, J.~Periaux, Y.A. Kuznetsov, and O.~Widlund, editors, Domain Decomposition Methods in Science and Engineering, volume 157 of Contemporary Mathematics, pages 215-222. American Mathematical Society, Providence, RI, 1994.
Tezduyar94b:: T.E. Tezduyar, S.K. Aliabadi, M. Behr, and S. Mittal. Massively parallel finite element simulation of compressible and incompressible flows. Computer Methods in Applied Mechanics and Engineering, 119:157-177, 1994.
Tezduyar95a:: T.E. Tezduyar, M. Behr, and T.J.R. Hughes. Finite element methods. In J.A. Schetz and A.E. Fuhs, editors, Handbook of Fluid Dynamics and Fluid Machinery, pages 1272-1282. John Wiley \& Sons, 1996.
Tezduyar95b:: T.E. Tezduyar, S. Aliabadi, M. Behr, A. Johnson, V. Kalro, and C. Waters. 3D simulation of flow problems with parallel finite element computations on the Cray T3D. In Computational Mechanics'95, Proceedings of International Conference on Computational Engineering Science, Mauna Lani, Hawaii, 1995.
Tezduyar95c:: T.E. Tezduyar, M. Behr, and T.J.R. Hughes. High performance finite element computation of fluid dynamics problems. In M.~Hafez and K.~Oshima, editors, Computational Fluid Dynamics Review 1995, pages 300-321. John Wiley \& Sons, 1995.
Tezduyar96a:: T.E. Tezduyar, S. Aliabadi, M. Behr, A. Johnson, V. Kalro, and M. Litke. High performance computing techniques for flow simulations. In M.~Papadrakakis, editor, Solving Large-Scale Problems in Mechanics: {P}arallel Solution Methods in Computational Mechanics, pages 363-398. John Wiley \& Sons, 1996.
Tezduyar96b:: T.E. Tezduyar, S. Aliabadi, M. Behr, A. Johnson, V. Kalro, and M. Litke. Flow simulation and high performance computing. Computational Mechanics, 18:397-412, 1996.
Tezduyar96c:: T.E. Tezduyar, S. Aliabadi, M. Behr, A. Johnson, and M. Litke. Parallel 3D finite element computation of contaminant dispersion. In S.N. Atluri and G.~Yagawa, editors, Advances in Computational Engineering Science, pages 1002-1008. Tech Science Press, Forsyth, Georgia, 1997.
Tezduyar96d:: T.E. Tezduyar, S. Aliabadi, M. Behr, A. Johnson, V. Kalro, and M. Litke. High performance computing in flow simulation. In L.~Dekker, W.~Smit, and J.C. Zuidervaart, editors, Eurosim '96 HPCN Challenges in Telecomp and Telecom: Parallel Simulation of Complex Systems and Large-Scale Applications, pages 27-34. North Holland, 1996.
Tezduyar97a:: T.E. Tezduyar, S. Aliabadi, and M. Behr. Enhanced-Discretization Interface-Capturing Technique. In Y.~Matsumoto and A.~Prosperetti, editors, Proceedings of the ISAC '97 High Performance Computing on Multiphase Flows, pages 1-6. Japan Society of Mechanical Engineers, 1997.
Tezduyar97b:: T.E. Tezduyar, S. Aliabadi, and M. Behr. Parallel finite element computing methods for unsteady flows with interfaces. In M.~Hafez and K.~Oshima, editors, Computational Fluid Dynamics Review 1998, pages 643-667. John Wiley \& Sons, 1998.
Tezduyar97c:: T.E. Tezduyar, S. Aliabadi, and M. Behr. Enhanced-Discretization Interface-Capturing Technique (EDICT) for computation of unsteady flows with interfaces. Computer Methods in Applied Mechanics and Engineering, 155:235-248, 1998.
Tezduyar97d:: T.E. Tezduyar, S. Aliabadi, M. Behr, I. G\"uler, A. Howard, and M. Ellis. Parallel computing methods for free-surface flows. In Proceedings of the 7th International Conference on Computing in Civil and Building Engineering, pages 1617-1624, Seoul, Korea, 1997.
Tezduyar98a:: T.E. Tezduyar and S. Aliabadi. 3d computation of free-surface flows with the edict. In Pre-Conference Proceedings of the 4th Japan-US Symposium on Finite Element Methods in Large-Scale Computational Fluid Dynamics, Tokyo, Japan, 1998.
Tezduyar98b:: T.E. Tezduyar, S. Aliabadi, M. Behr, and I. G\"uler. Finite element formulations for unsteady flows with interfaces. In M.~Hafez and J.C. Heinrich, editors, Proceedings of the Tenth International Conference on Finite Elements in Fluids, Tucson, Arizona, 1998.
Tezduyar99a:: T.E. Tezduyar and Y. Osawa. Finite element stabilization parameters computed from element matrices and vectors. to appear in {\it Computer Methods in Applied Mechanics and Engineering}, 1999.
Tuncer90a:: I.H. Tuncer, J.C. Wu, and C.M. Wang. Theoretical and numerical studies of oscillating airfoils. AIAA Journal, 28(9):1615-1624, September 1990.
Verboom82a:: G.K. Verboom, G.S. Stelling, and M.J. Officier. Boundary Conditions for the Shallow Water Flows, volume~1 of Engineering Applications of Computational Hydraulics, chapter~11, pages 230-262. Pitman Publishing, Marshfield, Massachusetts, 1982.
Westerink92a:: J.J. Westerink, R.A. Luettich, A.M. Baptista, N.W. Sheffner, and P. Farrar. Tide and storm surge predictions using finite element model. Journal of Hydraulic Engineering, 118:1373-1390, 1992.
Wahlbin74a:: L.B. Wahlbin. A dissipative Galerkin method for the numerical solution of first order hyperbolic equations. In C.~de~Boor, editor, Mathematical Aspects of Finite Elements in Partial Differential Equations. Academic Press, New York, 1974a.
Wren95a:: G.P. Wren, S.E. Ray, S.K. Aliabadi, and T.E. Tezduyar. Space-time finite element computation of compressible flows between moving components. International Journal for Numerical Methods in Fluids, 21:981-991, 1995.
Wren97a:: G. Wren, S. Ray, S. Aliabadi, and T. Tezduyar. Simulation of flow problems with moving mechanical components, fluid-structure interactions and two-fluid interfaces. International Journal for Numerical Methods in Fluids, 24:1433-1448, 1997.
Xiao95a:: Q. Xiao, A.G. Salinger, Y. Zhou, and J.J. Derby. Massively parallel finite element analysis of coupled, incompressible flows: A benchmark computation of baroclinic annulus waves. International Journal for Numerical Methods in Fluids, 21:1007-1014, 1995.
Yee81a:: H.C. Yee. Numerical approximation of boundary conditions with applications to inviscid equations of gas dynamics. Technical Manual 81265, NASA, 1981.