Boris N. Azarenok
RESUME
Title: Prof., Leading Researcher
(Ph.D.)
Place
of work: Department of
Continuum Mechanics,
Address: Dorodnicyn Computing
Vavilov 40, GSP-1,
Tel: (7) (495) 135 6498
Fax: (7) (495) 135 6159
E-mail: azarenok(at)ccas(dot)ru
Education:
-
Received Prof. (Doctor of Sciences) Diploma on Mathematical Modeling in 2009
with the title of thesis: “Variational Structured
Grid Generation Methods and their Application in Gas Dynamics”.
-
Mathematician, received Ph.D. on Computational Fluid Dynamics in 1995 with
title of thesis: "Calculation of 3-D Solar Wind-Earth Magnetic Field
Interaction",
Graduated
from:
-
-
in 1983.
Area
of scientific interest:
Computational
fluid dynamics, mesh generation, adaptive mesh generation, interpolation,
numerical conformal mapping
Employment:
2011 - present Prof., Leading researcher at Dorodnicyn Computing Center of Russian Academy of
Science,
Department of Continuous Mechanics.
2009 - 2011 Prof., Senior
researcher at Dorodnicyn Computing Center of Russian Academy
of
Science,
Department of Continuous Mechanics.
2002 - 2009 Senior researcher
at Dorodnicyn Computing Center of Russian
Department of Continuous Mechanics.
1995 - 2001 Junior researcher and researcher at
the Computing Center of Russian Academy of
Science,
Department of Continuous Mechanics.
1992 - 1995 Postgraduate student at Dorodnicyn Computing Center of Russian
Department of Continuous Mechanics.
1987 - 1992 Assistant of lecturer at Department of
Mathematics,
Dec. 2002 - March 2003
Visiting researcher scholar at
Department of Mathematics, Hong Kong
Jan. 2001 - Apr. 2002 Visiting researcher
scholar at Department of Mathematics, Hong Kong Baptist
University,
1999, July Visiting lecture at
Rechenzentrum, Universitaet
Karlsruhe: "Moving grid technology for
Godunov's type methods in gas dynamics".
Research
and project experience and interests:
Grid generation methods. Participation in the project of Russian Fund of Basic Research No. 09-01-00173 : "Theoretical
foundation and algorithms for generation of multi-dimensional grids.",
2009-2011.
Grid generation methods
and their applications in computational fluid dynamics. Participation in the project of Department of Mathematical Sciences of Russian
Academy of Science: “Up-to-date Computational Technologies of Solving Large
Problems”, 2005-20011.
Conservative remapping
on hexahedral meshes. Participation in the joint
project of the Russian Federal Nucliar Center
(VNIITF, Snezhinsk)
and Institute of Mathematic and Mechanics of Russian Academy of Science (Ekaterinburg) "Developing computer codes on constructing
structured 3-D meshes and conservative remapping of gas dynamics
parameters", 2001-2006.
Modeling of detonation
wave motion on moving adaptive meshes.
Project with Department of Mathematics,
Grid generation and
adaptive grid generation. Participation in the project
of Russian Fund of Basic Research No. 02-01-00236 : "Development
of up-to-date technologies on constructing multidimensional grids and their
application in the problems of mathematical physics", 2002-2004.
Moving grid technology
and high order solvers in modeling of gas dynamic flow. Participation in the project of Russian Fund of Fundamental Basic No.
99-01-00264 : "Development of algorithms on adaptive
grid generation based on the theory of harmonic mapping", 1999-2001.
Modeling of 3-D plasma
flow in magnetohydrodynamics approach. Ph.D. thesis and participation in the project of Russian Fund of of Basic Research No. 96-01-01928 :
"Nonlinear interaction of the discontinuities and flow past obstacles in
conducting medium with magnetic field for cosmic plasma", 1996-1998.
Modeling of gas flow in
channels. Participation in the project of Russian
Fund of Basic Research No. 93-01-00345 :
"Methods, algorithms and computer codes on solving multidimensional
problems of mathematical physics", 1993-1995.
LIST
OF PUBLICATIONS:
Books
B.N.Azarenok, Variational 3D grid generation method, in: Encyclopedia of low
temperature plasma. Mathematical Modeling in low temperature
plasma. Yanus-K.
B.N.Azarenok, Conservative remapping on hexahedral meshes. In: Advances in Grid Generation. (Ushakova O.V. ed.).
Nova Science.
Papers
and preprints
B. Azarenok, 2D structured grid
generation method producing a mesh with prescribed properties near boundary,
Engineering with Computers, (2011) DOI: 10.1007/s00366-011-0238-6/
B.N.Azarenok, Constructing the grid orthogonal and having the given nodal clustering near the boundary of
two-dimensional domain. Mathematical Models and Computer Simulations, 3 (5) (2011)
637–645.
B.N.Azarenok, On 2D structured mesh generation by using
mappings. Numerical Methods for Partial Differential Equations, 27 (2011)
1072-1091
B.N.Azarenok, Generation of structured difference grids in
two-dimensional nonconvex domains using mappings. Computational Mathematics and Mathematical Physics, 49(5) (2009) 797-809.
B.N.Azarenok, Variational method
for hexahedral grid generation with control metric. Mathematical Models and Computer Simulations, 1 (5) (2009) 573–590.
B.N.Azarenok, A Method for
conservative remapping on hexahedral meshes. Mathematical Models
and Computer Simulations, 1 (1) (2009) 51–63.
B.N.Azarenok, Variational method
for adaptive mesh generation.
Computational Mathematics and Mathematical Physics, 48(5) (2008) 831-850.
B.N.Azarenok, A method of constructing adaptive hexahedral moving
grids. J. Comp. Phys., 226 (2007) 1102-1121.
B.N.Azarenok, On adaptive moving mesh generation. Preprint, Dorodnicyn Computing
B.N.Azarenok, A variational hexahedral grid generator with control
metric. J. Comp. Phys., 218 (2006) 720-747.
B.N.Azarenok, On a mesh generation algorithm. Preprint, Dorodnicyn Computing
B.N.Azarenok, Conservative remapping algorithm on hexahedral
meshes. Preprint, Dorodnicyn
Computing
B.N. Azarenok and T.Tang, Second-order Godunov-type scheme for
reactive flow calculations on
moving meshes. J. of Comp. Phys., 206(2005) 48-80.
B.N.Azarenok, A scheme for
detonation wave computation on moving meshes. Computational Mathematics and Mathematical Physics, 45(12) (2005)
2174-2195.
B.N. Azarenok and T.Tang, Second-order Godunov-type scheme for reactive flow
calculations on moving meshes. Report (2003) (available
as preprint at http://www.math.ntnu.no/conservation/2003/043.html)
B.N. Azarenok, Application of the
variational barrier methods in hyperbolic gas dynamics problems. Computational
Mathematics and Mathematical Physics, 43 (7) (2003) 1025-1047.
B.N. Azarenok, Computation of
explosion on an adaptive moving grid. Computational Mathematics and
Mathematical Physics, 43 (6) (2003) 880-888.
B.N. Azarenok, S.A. Ivanenko, T.Tang, Adaptive mesh
redistribution method based on Godunov's scheme. Communications in Mathematical
Sciences, 1(1) (2003) 153-180.
B.N. Azarenok, Variational barrier
method of adaptive grid generation in hyperbolic problems of gas dynamics.
B.N. Azarenok and S.A. Ivanenko, Application of moving adaptive grids for
numerical solution of nonstationary problems in gas
dynamics. Int. J. for Numer. Meth. in Fluids, 3 (1) (2002), 1-22.
(available as
preprint at http://www.math.ntnu.no/conservation/2001/043.html/)
B.N. Azarenok and S.A. Ivanenko, Application of moving adaptive grids for
simulation of supersonic gas flow. Comput. Fluid Dynamics
B.N. Azarenok, Realization of a
second-order Godunov's scheme. Comput. Methods in Applied Mechanics and Engineering, 189(2000)
1031-1052.
B.N. Azarenok and S.A. Ivanenko, Application of adaptive grids in numerical
analysis of time-dependent problems in gas dynamics. Computational Mathematics and Mathematical Physics, 40 (9) (2000)
1330-1349.
B.N. Azarenok, Solving
stationary problems of magnetohydrodynamics. Mathematical Modeling, 11 (11) (1999) 91-108. (in
B.N.Azarenok, On a realization of high-order Godunov's scheme.
Preprint, Computing Center of
B.N.Azarenok, On some aspects of computing magnetosheath. Preprint, Computing Center
of
B.N.Azarenok and V.M.Borisov, On spatial
interaction of Earth magnetosphere with solar wind. Preprint,
Computing Center of
B.N.Azarenok, M.M.Golomazov, V.I.Kostin, Numerical modeling
of Solar wind flow around Earth magnetopause. Preprint, Computing
Center of
Proceedings
of conferences
B.N. Azarenok, On
algorithm of conservative interpolation on hexahedral meshes. Proceedings of the Conference "Numerical geometry, grid
generation and scientific computing", Dorodnicyn
Computing Center RAS,
B.N. Azarenok, Mesh construction
with prescribed properties near boundary. Proceedings of the 19th International Meshing Roundtable. (S.Shontz ed.).
Springer. 2010, 35-49.
B.N. Azarenok, Mesh consctruction
in 2D multiply connected domain, Proceedings of the 10th International
Conference “Zababakhin Scientific Talks-
B.N. Azarenok, A method of
generating 2D structured grids. In: Soni B., Hauser J.,
Eisman P., and Thompson J., eds. Proceedings of the
11th International Conference on Numerical Grid Generation, Montreal, Canada ,
May 25-28, 2009.
B.N. Azarenok, B.N. On 3D adaptive grid generation, Proc. of International conference
"Numerical geometry, grid generation and scientific computing", Dorodnicyn Computing Center RAS,
B.N. Azarenok, B.N. A variational approach to hexahedral mesh generation. In: Soni B., Hauser J., Eisman P.,
and Thompson J., eds. Proceedings of the 10th International
Conference on Numerical Grid Generation, Forth, Crete, Greece, 16-20 September,
2007.
B.N. Azarenok, First-Order Algorithm
of Conservative Interpolation on Hexahedral Meshes. In: Papadopolous
P., Soni B., Hauser J., Eisman
P., Thompson J. (eds.) Proceedings of the 9th International Conference on
Numerical Grid Generation, San Jose, California, 12-15 June 2005.
B.N. Azarenok, Calculation of gas
flow with detonation waves on moving adaptive meshes, Proceedings of the
Russian conference "Applied geometry, grid generation and highly
productive
computations", Dorodnicyn Computing Center of RAS, 28
June -
B.N. Azarenok, Application of moving
adaptive meshes in hyperbolic problems of gas Dynamics, Grid Generation: Theory
and Applications, Proceeding of the Workshop,
B.N.Azarenok, Adaptive moving grids in problems of gas dynamics, Grid Generation:
New Trends and Applications in Real-World Simulations, S.A.Ivanenko
et al. (Eds.), Proceedings of the minisimposium in Intern.
Confer. "Optimization of finite-element approximations, splines and wavelets", St.-Petersburg, June 25-29
(2001) 30-44 (available at http://www.ccas.ru/gridgen).
B.N. Azarenok, Adaptive Moving Grids
in Supersonic Flow Simulation, Numerical Grid Generation in Computational Field
Simulations, B.K.Soni, J.Haeuser,
J.F.Thompson, P.Eiseman,
(Eds.), Proceedings of the 7th International Conference, Whistler, British
Columbia, Canada, Sept. 2000, 629-638.
B.N. Azarenok and S.A.Ivanenko, Moving grid technology for finite volume
methods in gas dynamics, Second Intern.
Symposium on Finite Volumes for Complex Applications, Problems and
Perspectives, July 19-22, Duisburg, Germany, R.Vilsmeier
et al (Eds.), Hermes, 1999, 795-802.
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