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Alex Fedoseyev homepageUpdated: January 2000
Selected publications
by A. Fedoseyev
(some papers are online)
CHAPTERS IN BOOKS:
V. I. Polezhaev, A. Bune, A. I. Fedoseyev et al. Mathematical Modeling of Convective Heat and Mass Transfer Problems on the basis of the Navier-Stokes Equations, Nauka , Moscow, 1987, 272p.
V. I. Polezhaev, A. I. Prostomolotov, A. I. Fedoseyev. Finite Element Method in Viscous Fluid Mechanics Problems, In: Advances in Science and Technology. Fluid Mechanics series. v21, p.3-92, VINITI, Moscow, 1987.
SELECTED PAPERS
V. I. Polezhaev, Gryaznov V. L., Daykovsky A. G., Fedoseyev A. I. Numerical Models of Turbulent Convection Based on the Unsteady Navier-Stokes Equations. Lecture Notes in Physics, 90 (1978) 454-459.
A. G. Daykovsky, V. I. Polezhaev, A. I. Fedoseyev, Investigation of the Structure of Transient and Turbulent Convection Regimes in a Vertical Layer. Fluid Dynamics, 13 (1978) 846 - 854
A. G. Daykovsky, V. I. Polezhaev, A. I. Fedoseyev, Numerical Modeling of Transient and Turbulent Convection Regimes Based on the Unsteady Navier-Stokes Equations. Preprint N101 of the Institute for Problems in Mechanics of the USSR Academy of Sciences, Moscow, Russia, 1978, 66 pages.
A.G. Daikovsky, V. I. Polezhaev, A. I. Fedoseyev. Calculation of boundary conditions for non-steady state Navier-Stokes Equations in Stream Function, Vorticity Variables. Numerical Methods of Continuum Mechanics (Chislennye Metody v Mekhanike Sploshnoy Sredy), Vol. 10, 1979, 49-58 (in Russian).
A.G. Daikovsky, V. I. Polezhaev, A. I. Fedoseyev. Using the Finite Element Method in Viscous Fluid Mechanics. Numerical Methods of Continuum Mechanics (Chislennye Metody v Mekhanike Sploshnoy Sredy),Vol. 11, 1980, 37-50 (in Russian).
V.I. Polezhaev, A.I. Fedoseyev, Finite element method in hydrodynamics, heat and mass transfer problems, Preprint N160 of the Institute for Problems in Mechanics of the USSR Academy of Sciences, Moscow, Russia, 1980, 74 pages.
A. Fedoseyev, V. Gusev, M. Kaschiev, V. Kaschieva, V. Paramonov, MULTIMODE - a powerfull code for frequency spectrum computation of electromagnetic fields in axially symmetric cavities and longitudinally homogeneous waveguides of arbitrary shape. Nuclear Instrument and Methods in Physics Research, 227 (1984) 411-419
V. Polezhaev, V. Plakhotny, A.Prostomolotov A. Fedoseyev. Application of FEM in Viscous Fluid Mechanics and Elastisity, In: Problems of viscous fluid dynamics, Novosibirsk, 1985, p.249-255
V. Anikeeva, A. Fedoseyev. Solution Algorithm for Generalized Unsymmetric Eigenvalue problems. Preprint IHEP 85-24, Serpukhov, 1985, 11p.
V. M. Lobashev, A.I. Fedoseyev, O.V. Serdyuk, A. P. Solodukhin. Numerical Simulation of a Low - Energy Electron Electrostatic Integral Spectrometer with Adiabatic Collimation. Nuclear Instrument and Methods in Physics Research, Series A, 238 (1985) 496-499.
A. Fedoseyev. Subspace Iteration Method for Unsymmetric Eigenvalue problems. Preprint IHEP 85-25, Serpukhov, 1985, 11p.
I. V. Gonin, L. V. Kravchuk, V.V. Paramonov, A.I. Fedoseyev et al. Some Methods of the Stop-Band Width Evaluation in the Compensated Accelerating Structures, IEEE Transactions on Nuclear Science, 5, NS-32 (1985) 2918-2921.
I. Petrenko, S. Purtov, A. Fedoseyev. Solution of Large FEM Problems by Multigrid Method and Domain Decomposition Algorithm. Preprint IHEP 86-200, Serpukhov, 1986, 16p.
V. Polezhaev, A. Prostomolotov, A. Fedoseyev. Finite Element Method for Viscous Flows and Technology Applications, Proc. Fifth World Congress and Exhibition on Finite Element Methods, 5-9 Oct 1987, Salzburg, Austria. Finite Element News, 5 (1987)44-48.
V. Polezhaev, A. Prostomolotov, A. Fedoseyev. Finite Element Method for Viscous Flows and Technology Applications, Finite Element News, 5 (1987) 44-48.
I. Petrenko, S. Purtov, A. Fedoseyev. Solution of Large FEM Problems by Multigrid Method in Domains of Complicated Shapes. Preprint of the Institute for Problems in Mechanics of the Academy of Sciences of the USSR, No.364, 1988, 52p. (in Russian).
A. Fedoseyev, I. Petrenko, S. Purtov. Solution of large FEM problems solving by multi-grid methods in the domain of complicated shape. Computer Mechanics of Solids, 1 (1990) 75-108.
S. Purtov, E. Chernyaev, P. Lazarev, I. Petrenko, A. Fedoseyev, V.Sivozhelezov. Mathematical modelling of 3D protein molecule potential in nonlinear media. Proc. of European Conf. Physics en Herbe, Marseille, France, July 05-11, 1992, 8p.
C. Barta, V. Polezhaev, A. Prostomolotov, A. Fedoseyev et al.. Computation of thermal fields in space furnace ''CRYSTALLIZATOR'' (CSK-1). Int. Conf. on Hydromechanics and Heat and Mass Transfer in Microgravity, Perm-Moscow, July 10-17, 1991, Proc., Gordon and Breach Science Publishers, 1992
A. Roux, P. Bontoux, R. Sani, A. Fedoseyev. The problem of heat transfer simulation during the growth of a HgI2 from vapor phase at low temperatures. Proc. Int. Conf. on Hydromechanics and Heat and Mass Transfer in Microgravity, Perm-Moscow, July 10-17, 1991, Gordon and Breach Science Publishers, 1992.
A. Roux, A. Fedoseyev, B. Roux. Conductive-Radiative Model for Reducing the Shape of HgI2 Crystal Growth in the LTVG Furnace. Proceedings of VIIIth European Symp. on Materials and Fluid Sciences in Microgravity, Brussels, April 1992, ESA SP-333, 1992, 641-644.
A. Roux, A. Fedoseyev, B. Roux. Thermal Radiation and Low- Temperature- vapor growth of HgI2 Crystal in Production Furnace, J. Crystal Growth 130 (1993) 523-532.
A. Fedoseyev, J. I. D. Alexander, Numerical Modelling of Solidification under Microgravity Conditions, Proc. of the Int. Aerospace Congress IAC'94, Microgravity Science and Application Session (eds. R.K. Crouch, V.I. Polezhaev), Moscow, August 16-17, 1994, 135-140.
A.I. Fedoseyev, O.B. Bessonov, Efficient Solution of viscous fluid flow problems in finite element method. Proc. of seminar on Numerical Methods in Heat and Mass Transfer Problems, Moscow, Institute for Problem in Mechanics of the Russian Academy of Sciences, 1997, 67-86.
J.I.D. Alexander, Y.Zhang, S. Delafontaine and A.I.Fedosyev, Numerical simulation of liquid bridge dynamics and statics. Proc. of seminar on Numerical Methods in Heat and Mass Transfer Problems, Moscow, Institute for Problem in Mechanics of the Russian Academy of Sciences, 1997, 109-138.
A.I. Fedoseyev and J.I.D. Alexander, An inverse finite element method for pure and binary solidification problems. Journal of Computational Physics, 130 (1997) 243-255.
A.I. Fedoseyev, B.V. Alexeev. High Order Continuum Model for Incompressible Viscous Fluid Flow and Application to Numerical Modeling of Thermo-Vibrational Convection. In: Continuum Models and Discrete Systems (Eds. E. Inan, A. Markov), World Scientific, London,1998, 130-137.
L. A. Slobozhanin, J. I. D. Alexander, A.I. Fedoseyev, Stability of Doubly Connected Axisymmetric Free Surfaces in a Cylindrical Container, (Physics of Fluids, accepted).
A.I. Fedoseyev, M.J. Friedman, and E.J. Kansa, Continuation for Nonlinear Elliptic Partial Differential Equations Discretized by the Multiquadric Method, Int. J. Bifur. Chaos, Vol 10, No. 2, (2000 ) (to appear) http://uahtitan.uah.edu/alex/jbcaos99.ps
A.I. Fedoseyev, A Regularization approach to solving the Navier-Stokes for Problems with Boundary Layer, CFD Journal (accepted, in print). http://uahtitan.uah.edu/alex/cfd_journal_ns99.pdf
A.I. Fedoseyev, E.J. Kansa, C. Marin, and A.G. Ostrogorsky, Magnetic field suppression of semiconductor melt flow in crystal growth: comparison of three methods for numerical modeling, CFD Journal (accepted, in print). http://uahtitan.uah.edu/alex/cfd_journal_mag99.pdf
A.I. Fedoseyev and J.I.D. Alexander, Investigation of Vibrational Control of Convective Flows in Bridgman Melt Growth Configurations, J. of Crystal Growth (accepted, in print, )
A.I. Fedoseyev, J.I.D. Alexander, Vibrational control of heat and mass transfer in Bridgman melt growth configurations, AIAA Paper 99-0839, Proc. of 38th AIAA Aerospace meeting, 14th Annual Microgravity Science and Space Processing Symposium, Reno, NV, Jan. 10 -14, 2000.
SOME OTHER PUBLICATIONS
A.G. Daikovsky, Yu.I. Portugalov, A.I. Fedoseyev. Minimization of the Matrix Bandwidth in Finite Element Method. Preprint IHEP 80-152, Serpukhov, 1980, 16p. (in Russian).
V.Balbekov, L.Tkachenko, A. Fedoseyev. MULTIC code for Calculations of 3D-Magnetic Fields. Preprint IHEP 81-121,Serpukhov, 1981, 16p.
A. Fedoseyev, M. Kaschiev, V. Kaschieva, V. Kochin. Mathematical Modelling of Axiallly-symmetric Cavities by Finite Element Method. Preprint JINR 11-81-695, Dubna, 1981, 15p.
M. Kaschiev,V. Kaschieva,V. Kochin, A. Fedoseyev . MULTIMODE- a powerfull code for frequency spectrum computation of electromagnetic fields in axially symmetric cavities and longitudinally homogeneous waveguides of arbitrary shape. Preprint IHEP 82-92, Serpukhov, 1982, 24p.
V.Anikeyeva, I.Gonin, M. Kaschiev, V.Paramonov, A. Fedoseyev. Mathematical Modelling of Electromagnetic Fields with AzimuthalVariations in Axially Symmetric Cavities. Formulation of Problem and Solution Methods.Preprint IHEP 84-92, Serpukhov, 1984, 16p.
V. Victorov, I .Petrenko, S. Purtov, A. Fedoseyev. Numerical Solution of LAPLACE Equation and Optimization of Electrostatic Fields in Physics Devices. Preprint IHEP 85-16, Serpukhov, 1985, 12p.
S. Atabaev, V.Polezhaev, V. Plakhotny, A. Fedoseyev. FEMINA code: Examples of application to the solution hydrodynamics and elastisity problems. IPM AS USSR, (VINITI N2037-B86), Moscow, 1986, 40p
V. Polezhaev, V. Plakhotny, A. Prostomolotov, A. Fedoseyev, D.Tishaev. FEMINA code: Software for ES computer series, Users Guide. IPM AS USSR, (VINITI N1448-B86), Moscow, 1986, 76p.
V. Polezhaev, V. Plakhotny, A. Prostomolotov, A. Fedoseyev. FEMINA code: FEM formulation in continuum mechanics, IPM AS USSR, (VINITI N1447-B86), Moscow, 1986, 65p.
A. Fedoseyev. Improvement of the efficiency of FEM for continuum mechanics problems, Proc., Sixth USSR Congress on Theoretical and Applied Mechanics Tashkent, 1986, 612.
A. Fedoseyev , V. Polezhaev, A. Prostomolotov, C. Barta et al.. Analysis of thermal fields in space furnace "CRYSTALLIZATOR" (CSK-1) using the multigrid domain decomposition method. Preprint No. 496, Institute of Problems of Mechanics, Russian Academy of Sciences, Moscow, 1991, 36p.
S. Purtov, A. Fedoseyev, B. Delaport, 3D Analysis of Cylinder-Valve-Port Flow by Numerical Simulation, Research report, DANIELSON Inc., December 1992, Le Parise des Chatelle, France, 42p.
O. Bessonov, A. Fedoseyev, B. Roux, Methods for Achieving Peak Performance Rates for Linear Algebra Operations on Superscalar Pipelined Microprocessors, First SouthEastern Linear Algebra Conference, Chattanooga TN, May 27-28, 1994.
S. Purtov, A. Fedoseyev, B. Delaport, Multigrid Domain Decomposition Analysis of 3D Cylinder-Valve-Port Flow. Workshop on Domain based Parallelism and problem decomposition in computational science and engineering, April 25-26, Supercomputer institute, Minneapolis, Minnesota, 1994.
A. I. Fedoseyev, B.V. Alexeev, Kinetic Coefficient Calculation in Reacting Gases and Modeling of Turbulent Flow. Sixth Int. Conf. on numerical Combustion, SIAM, March 4-6, 1996, New Orleans, Lousiana, 1996, 65.
A.I. Fedoseyev, Alexander J., I., D., and Zhang Y. "Numerical simulation of transient and quasi-steady directional solidification using IFEM and Chebyshev spectral methods", 2nd International workshop on Modelling in Crystal Growth, Durbuy, Belgium, October 1996.
A.I. Fedoseyev, Alexander J.I.D, "Inverse Finite Element Method for Problem with Unknown Moving Boundaries", 3rd Mississippi State Conference on Differential Equations and Computational Simulations, Abstracts, May 16-17, Mississippi State University, 1997.
A.I. Fedoseyev and J.I.D. Alexander. An Efficient Method for Modeling of Incompressible Viscous Flow and Vibrational Convection. Abstracts, 173-174, 19th Int. Conf. on Numerical Methods in Fluid Dynamics, July 6-10, 1998, Arcachon, France.
A.I. Fedoseyev, B.V. Alexeev. Mathematical Model For Viscous Incompressible Fluid flow using Alexeev equations and comparison with experimental data. Proc. IMACS’98, Advances in Scientific Computing and Modeling (Eds. S.K. Dey, J. Ziebarth, and M. Ferrandiz), University of Alicante, Spain, 1998, 158-163.
A.I. Fedoseyev, J.I.D. Alexander, Thermovibrational flow in Bridgman melt growth configurations, AIAA Paper 99-0839, Proc. of 37th AIAA Aerospace meeting, 13th Annual Microgravity Science and Space Processing Symposium, Reno, NV, Jan.11 -14, 1999.
L. A. Slobozhanin, J. I. D. Alexander, A.I. Fedoseyev, Doubly Connected Axisymmetric Free Surfaces in a Cylindrical Container: Shape, Stability and Application, AIAA Paper 99-1029, Proc. of 37th AIAA Aerospace meeting, 13th Annual Microgravity Science and Space Processing Symposium, Reno, NV, Jan.11 -14, 1999.
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