sergeyutyuzhnikov

Sergey Utyuzhnikov

List of Major Refereed Publications

Book 

  1. Utyuzhnikov, S.V., Tirskiy G.A., “Hypersonic Aerodynamics and Heat Transfer”, Begell House, NY, ISBN: 978-1-56700-309-3, 2013.

Refereed Journals

  1. Utyuzhnikov, S., Smirnova, N., “Unsteady interface boundary conditions for near-wall turbulence modelling”, Computers and Mathematics with Applications, 2020 (in press).
  2. Zhou, C., Utyuzhnikov, S.V., “Real-time active noise control with preservation of desired sound”, Applied Acoustics, 2020, 157: 1-10.
  3. Utyuzhnikov, S., Wang, C., “Exact non-overlapping domain decomposition for near-wall turbulence modeling”, Computers and Fluids, 2019, 181 (15): 283-291.
  4. Wu, Z., Laurence, D., Utyuzhnikov, S., Afgan, I., “Proper orthogonal decomposition and dynamic mode decomposition of jet in channel crossflow”, Nuclear Engineering and Design, 2019, 344 (1): 54-68.
  5. Elsaesser, D., Fedorowicz, K., and Utyuzhnikov, S., “Towards the development of analytical tornado-like models”, AIP Advances, 2018, 8, 125106: 1-15.
  6. Woodward, W.H., Utyuzhnikov, S., Massin, P., “Developments on the Method of Difference Potentials for Linear Elastic Fracture Mechanics Problems”, Int. J. for Numerical Methods in Engineering, 2018, 115 (1): 75-98.
  7. Wang, K., Utyuzhnikov, S.V., “A modified rotation strategy for directed search domain algorithm in multiobjective engineering optimization”, J. Structural and Multidisciplinary Optimization, 2018, 57 (2): 877-890.
  8. Chikitkin, A., Petrov, M., Titarev, V. & Utyuzhnikov, S., “Parallel versions of implicit LU-SGS method”, Lobachevskii Journal of Mathematics, 2018, 39 (4): 503-512.
  9. Jaini, N.I., Utyuzhnikov, S.V., “A Fuzzy Trade-off ranking method for multi-criteria decision making”, Axioms, 2018, 7 (1): 1-21.
  10. Utyuzhnikov, S.V., “A practical algorithm for real-time active sound control with preservation of interior sound”, Computers & Fluids, 2017, 157: 175-181.
  11. Jaini, N.I., Utyuzhnikov, S.V., “Trade-off ranking method for multi-criteria decision analysis”, J. Multi-Criteria Decision Analysis, 2017, 24 (3-4): 121-132.
  12. Jones, A., Utyuzhnikov, S., “Efficient computation of turbulent flow in ribbed passages using a non-overlapping near-wall domain decomposition method”, Computer Physics Communications, 2017, 217: 1-10.
  13. Wang, K., Utyuzhnikov, S.V., “An extension of the Directed Search Domain algorithm to bilevel optimization”, J. Engineering Optimization, 2017, 49 (8): 1420-1440.
  14. Titarev, V.A., Utyuzhnikov, S.V., Chikitkin, A.V., “Open MP & MPI parallel implementation of a numerical method for solving a kinetic equation”, Computational Mathematics and Mathematical Physics, 2016, 56 (11), 1919-1928.
  15. Jones, A., Utyuzhnikov, S., “A near-wall domain decomposition approach in application to turbulent flow in a diffuser”, Applied Mathematical Modelling, 2016, 40 (1): 329-342.
  16. Jones, A., Utyuzhnikov, S., “Application of a near-wall domain decomposition method to turbulent flows with heat transfer”, Computers & Fluids, 2015, 119: 87-100.
  17. Woodward, W.H., Utyuzhnikov, S., Massin, P., “On the application of the method of difference potentials to linear elastic fracture mechanics”, Int. J. for Numerical Methods in Engineering, 2015, 103 (10): 703-736.
  18. Ntumy, E., and Utyuzhnikov, S.V., “Active sound control in composite regions”, Applied Numerical Mathematics, 2015, 93: 242-253.
  19. Ryaben’kii, V.S., Utyuzhnikov, S.V., “An algorithm of the method of difference potentials for domains with cuts”, Applied Numerical Mathematics, 2015, 93: 254-261.
  20. Chikitkin, A.V., Rogov, B.V., Tirskiy, G.A., Utyuzhnikov, S.V., “Effect of bulk viscosity in supersonic flow past spacecrafts”, Applied Numerical Mathematics, 2015, 93: 47-60.
  21. Chikitkin, A.V., Rogov, B.V., Utyuzhnikov, S.V., “High-order accurate monotone compact running scheme for multidimensional hyperbolic equations”, Applied Numerical Mathematics, 2015, 93: 150-163.
  22. Utyuzhnikov, S.V., “Real-time active wave control with preservation of wanted field”, IMA J. Applied Mathematics, 2014, 79: 1126-1138.
  23. Utyuzhnikov, S.V., “Towards development of unsteady near-wall interface boundary conditions for turbulence modelling”, Computer Physics Communications, 2014, 185 (11): 2879-2884.
  24. Lim H., Utyuzhnikov S V, Lam Y.W., Kelly L.. “Potential-based methodology for active sound control in three dimensional settings”, J. of the Acoustical Society of America, 136 (3): 1101-1111.
  25. Aleksin, V.A., Utyuzhnikov, S.V., “Implementation of near-wall boundary conditions for modelling boundary layers with free-stream turbulence”, Applied Mathematical Modelling, 2014, 38 (14): 3591-3606.
  26. Garanzha, V.A., Kudryavtseva, L.N., Utyuzhnikov, S.V., Variational method for untangling and optimization of spatial meshes, J. Computational and Applied Mathematics, 2014, 269: 24-41.
  27. Fedorov, A.V., Ryzhov, A.A., Soudalov, V.G., Utyuzhnikov, S.V., Numerical simulation of the effect of local volume energy supply on high-speed boundary layer stability, Computers & Fluids, 2014, 100: 130-137.
  28. Ntumy, E., and Utyuzhnikov, S.V., “Active Sound Control in 3D Bounded Regions”, J. Wave Motion, 2014, 51 (2): 284-295.
  29. Titarev, V.A., Dumbser, M., Utyuzhnikov, S.V., “Construction and comparison of parallel implicit kinetic solvers in three spatial dimensions”, Computational Physics, 2014, 256:17-33.
  30. Titarev, V.A, Shakhov, E.M., Utyuzhnikov, S.V., “Rarefied gas flow through a long conical pipe into vacuum”, Vacuum, 2014, V.101: 10-17.
  31. Erfani, T., Utyuzhnikov, S.V., Kolo, B., “A Modified Directed Search Domain Algorithm for Multiobjective Engineering and Design Optimization”, J. Structural and Multidisciplinary Optimization, 2013, V.48: 1129-1141.
  32. Bountin, D., Chimitov, T., Maslov, A., Novikov A., Egorov, I., Fedorov, A., Utyuzhnikov S., Stabilization of a hypersonic boundary layer using a wavy surface, AIAA J., 2013, 51 (5): 1203-1210.
  33. Fedorov, A.V., Ryzhov, A.A., Soudakov, V.G., Utyuzhnikov, S.V., “Receptivity of High-Speed Boundary Layer to Temperature Spottiness”, J. Fluid Mechanics, 2013, 722: 533-553.
  34. Brykina, I.G., Rogov, B.V., Tirskiy, G.A., Titarev, V.A., Utyuzhnikov, S.V., “A comparative analysis of approaches for investigating hypersonic flow over blunt bodies in a transitional regime”, J. Applied Mathematics and Mechanics, 2013: 77 (1): 9-16.
  35. Erfani, R., Erfani, T., Kontis, K., and Utyuzhnikov, S.V., “Optimization of multiple encapsulated electrode plasma actuators“, Aerospace Science and Technology, 2013, 26 (1): 120-127.
  36. Utyuzhnikov, S.V., “Numerical and laboratory prediction of smoke lofting in the atmosphere over large area fires”, J. Applied Mathematical Modelling, 2013, 37, 3 (1): 876-887.
  37. Dumbser, M., Titarev, V.A., Utyuzhnikov, S.V., “Implicit multiblock method for solving a kinetic equation on unstructured meshes”, Comput. Math. & Math. Phys., 2013, 53 (5): 601-615.
  38. Lam, Y.W., Utyuzhnikov, S.V., Kelly, L., “Difference potential based active noise shielding in three dimensional settings”, J. Acoustical Society of America, 131 (4): 3380.
  39. Titarev, V.A., Utyuzhnikov, S.V., and Shakhov, E.M., “Rarefied gas flow through a pipe of variable square cross section into vacuum”, Comput. Math. & Math. Phys., 2013, 53 (8): 1221 – 1230.
  40. Yakunchikov, A., Kovalev, V.L., and Utyuzhnikov, S.V., “Analysis of Gas-Surface Scattering Models Based on Computational Molecular Dynamics”, J. Chemical Physics Letters, 2012, 554: 215-230.
  41. Utyuzhnikov, S.V., “Interface boundary conditions in near-wall turbulence modeling”, Computers & Fluids, 2012, 68: 186-191.
  42. Erfani, T., and Utyuzhnikov, S.V., “Control of robust design in multiobjective optimization under uncertainties”, J. Structural and Multidisciplinary Optimization, 2012, 45 (2): 247-256.
  43. Brykina, I.G., Rogov, B.V., Tirskiy, G.A., Utyuzhnikov, S.V., “The effect of surface curvature on the boundary conditions in the viscous shock layer model for hypersonic rarefied gas flow”, J. Applied Mathematics and Mechanics, 2012: 76 (6): 677-687.
  44. Lim, H., Utyuzhnikov, S. V., Lam, Y. W., Turan, A., “Multi-domain active sound control and noise shielding”, J. of Acoustical Society of America, 2011, 129 (2): 717-725.
  45. Erfani, T., and Utyuzhnikov, S.V., “Directed Search Domain: a method for even generation of Pareto frontier in Multiobjective Optimization”, Engineering Optimization, 2011, 43 (5): 467-484.
  46. Utyuzhnikov, S V., “Non-stationary problem of active sound control in bounded domains”. J. of Computational and Applied Mathematics, 2010, 234 (6): 1725-1731.
  47. Utyuzhnikov, S.V., “Nonlinear Problem of Active Sound Control”, J. of Computational and Applied Mathematics, 2010, 234 (1): 215-223.
  48. Ryaben’kii, V.S., Tsynkov, S.V., and Utyuzhnikov, S.V., “Active control of sound with variable degree of cancellation”, J. Applied Mathematics Letters, 2009 (12), 22: 1846-1851.
  49. Utyuzhnikov, S.V., “Domain decomposition for near-wall turbulent flows”, Computers & Fluids, 2009, 38 (9): 1710-1717.
  50. Lim, H., Utyuzhnikov, S. V., Lam, Y. W., Turan, A., Avis, M. R., Ryaben’kii, V. S., Tsynkov, S. V., “An experimental validation of the active noise control methodology based on difference potentials”, AIAA J., 2009, 47 (4): 874-884.
  51. Ryaben’kii, V.S., Tsynkov, S.V., and Utyuzhnikov, Difference problem of noise suppression and other problems of active control of single-frequency sound on a composite domain, Doklady – Mathematics, Transactions of the Russian Academy of Sciences, 2009, 79 (2): 240-242.
  52. Utyuzhnikov, S V, Fantini P, Guenov M., “A method for generating a well-distributed Pareto set in nonlinear multiobjective optimization”, J. of Computational and Applied Mathematics, 2009, 223 (2): 820-841.
  53. Utyuzhnikov, S.V., “Active wave control and generalized surface potentials”, J. Advances in Applied Mathematics, 2009, 43 (2): 101-112.
  54. Utyuzhnikov, S.V., “Generalized Calderon-Ryaben’kii’s potentials”, IMA J. of Applied Mathematics, 2009, 74 (1): 128-148.
  55. Utyuzhnikov, S.V., Maginot, J., and Guenov, M.D., “Local Pareto approximation for multi-objective optimization”, J. of Engineering Optimization, 2008, 40 (9): 821-847.
  56. Utyuzhnikov, S.V., and Rudenko, D.V. “An adaptive moving mesh method with application to nontstationary hypersonic flows in the atmosphere”, Proceedings of the Institution of Mechanical Engineers, Part G, J. of Aerospace Engineering, 2008, 222 (5): 661-671.
  57. Utyuzhnikov, S.V., “Robin-type wall functions and their numerical implementation”, J. Applied Numerical Mathematics, 2008, 58 (10): 1521-1533.
  58. Ryaben’kii, V.S., Utyuzhnikov, S.V., and Turan, A.A., “On the application of difference potential theory to active noise control”, J. Advances in Applied Mathematics, 2008, 40 (2): 194-211.
  59. Utyuzhnikov, S.V., Ryaben’kii, V.S., and Turan, A.A., “Linear and nonlinear problems of active sound control”, Proceedings in Applied Mathematics and Mechanics, 2007, 7 (1): 2050003-2050004.
  60. Ryaben’kii, V.S., and Utyuzhnikov, S.V., “Differential and finite-difference problems of active shielding”, J. Applied Numerical Mathematics, 2007, 57 (4): 374-382.
  61. Ryaben’kii, V.S., Tsynkov, S.V., and Utyuzhnikov, S.V., “Inverse source problem and active shielding for composite domains”, J. Applied Mathematics Letters, 2007, 20 (5): 511-515.
  62. Ryaben’kii, V.S., and Utyuzhnikov, S.V., “Active shielding model for hyperbolic equations”, IMA Journal of Applied Mathematics, 2006, 71 (6): 924-939.
  63. Ryaben’kii, V.S., Tsynkov, S.V., and Utyuzhnikov, S.V., “The problem of active shielding in composite domains”, Doklady – Mathematics, Transactions of the Russian Academy of Sciences, 2006, 74 (3): 812-814.
  64. Utyuzhnikov, S.V., “The method of boundary condition transfer in application to modeling near-wall turbulent flows”, Computers & Fluids, 2006, 35 (10): 1193-1204.
  65. Ryaben’kii, V.S., and Utyuzhnikov, S.V., “The difference problem of active noise shielding”, Doklady – Mathematics, Transactions of the Russian Academy of Sciences, 2006, 73 (3): 357-359.
  66. Utyuzhnikov, S.V., “Generalized wall-functions and their application for simulation of turbulent flows”, Int. J. Numerical Methods in Fluids, 2005, 47 (10-11): 1323-1328.
  67. Utyuzhnikov, S.V., “Some new approaches to building and implementation of wall-functions for modeling of near-wall turbulent flows”, Computers & Fluids, 2005, 34 (7): 771-784.
  68. Laurence, D.R., Uribe, J.C., and Utyuzhnikov, S.V., “A robust formulation of the v2-f model”, Int. J. Flow, Turbulence and Combustion, 2004, 73 (3): 169-185.
  69. Utyuzhnikov, S.V., Konyukhov, A.V., Vasil’evskii, S.A., Rudenko D.V., and Chazot O., “Simulation of sub- & supersonic flows in inductive plasmatrons”, AIAA J., 2004, 42 (9): 1871-1877.
  70. Utyuzhnikov, S.V., “Numerical modelling combustion of fuel-droplet-vapour releases in atmosphere”, Int. J. Flow, Turbulence and Combustion, 2002, 68 (2): 137-152.
  71. Rudenko, D.V., and Utyuzhnikov, S.V., “Use of dynamically adaptive grids for modeling three-dimensional unsteady gas flows with high gradients”, Computational Mathematics and Mathematical Physics, 2002, 42 (3): 377-390.
  72. Antonenko, M.N., Konyukhov, A.V., Kraginskii, L.M., Meshcheryakov, M.V., and Utyuzhnikov, S.V., “Numerical modeling of intensive convective flow in atmosphere induced by large-scale fire”, Int. J. of Computational Fluid Dynamics, 2002, 11 (2): 128-132.
  73. Utyuzhnikov, S.V. and Nabiev, V.U., “Numerical investigation of 3D supersonic viscous nonuniform flows past blunt bodies”, Fluid Dynamics, 1999, 34 (6): 906-911.
  74. Konyukhov, A.V., Meshcheryakov, M.V., Utyuzhnikov, S.V., and Chudov, L.A., “Nonlocal turbulent transport in a buoyant vortex ring during the ascent of a thermal in a stratified atmosphere”, Fluid Dynamics, 1999, 34 (1): 9-16.
  75. Konyukhov, A.V., Meshcheryakov, M.V., and Utyuzhnikov, S.V., “Numerical simulation of the processes of propagation of impurity from a large-scale source in the atmosphere”, High Temperature, 1999, 37 (6): 873-879.
  76. Kondaurov, V.I., Konyukhov, A.V., Polukhin, V.V., and Utyuzhnikov, S.V., “Mathematical simulation of gas cloud motion following the atmospheric explosion of a meteoroid”, Fluid Dynamics, 1998, 33 (1): 24-30.
  77. Nabiev, V.U. and Utyuzhnikov, S.V., “Motion of a body through large-scale inhomogeneity in the stratified atmosphere”, AIAA J., 1997, 35 (7): 1224-1226.
  78. Konyukhov, A.V., Meshcheryakov, M.V., Utyuzhnikov, S.V., and Chudov, L.A., “Numerical simulation of a turbulent large-scale thermal”, Fluid Dynamics, 1997, 32 (3): 394-401.
  79. Muzafarov, I.F. and Utyuzhnikov, S.V., “Application of compact finite-difference schemes to the initial boundary value problem for a hyperbolic system of equations”, Computational Mathematics and Mathematical Physics, 1997, 37, (3): 299-306.
  80. Zhluktov, S.V., Utyuzhnikov, and S.V., Tirskii, A., “Numerical investigation of thermal and chemical  nonequilibrium phenomena past slender blunted cones”,   AIAA J. of Thermophysics and Heat Transfer, 1996,  10 (1): 137-147.
  81. Utyuzhnikov, S.V. and Yamaleev, N.K., “Three-dimensional supersonic flows past bodies at small angle of attack”, High Temperature, 1996, 34 (4): 562-567.
  82. Nabiev, N.K. and Utyuzhnikov, S.V., “Spatial supersonic motion of a body through a large-scale inhomogeneity in a stratified atmosphere”, J. of Applied Mathematics and Mechanics, 1996, 60 (4): 607-613.
  83. Nabiev, V.U., Utyuzhnikov, S.V., and Yamaleev, K., “The motion of a body through a large-scale inhomogeneity in a stratified atmosphere”, J. of Applied  Mathematics  and Mechanics, 1995, 59 (3): 409-414.
  84. Gan’zha, D.Zh., Muzafarov, I.F., and Utyuzhnikov, S.V., “The use of moving adaptive grids in algorithms with compact approximations”, Computational Mathematics and Mathematical  Physics, 1995, 35 (8): 949-957.
  85. Muzafarov, I.F. and Utyuzhnikov, S.V., “Numerical modeling of convective columns above a large fire in the atmosphere “, High Temperature, 1995, 33 (4): 588-595.
  86. Lipchinskii, A., Tirskii, G.A., and Utyuzhnikov, S.V., “Effects of second-approximation of boundary layer theory in three-dimensional flow over  bodies with a large aspect ratio at small angles of incidence”, Fluid Dynamics, 1995, 30 (2): 204-209.
  87. Konyukhov, A.V., Meshcheryakov, M.V., and Utyuzhnikov, S.V., “Numerical investigation of flow initiated in the atmosphere by a turbulent surface thermal “, High Temperature, 1995, 33 (5): 720-724.
  88. Tirskii, G.A., Utyuzhnikov, S.V., and Yamaleev, N.K., “An efficient numerical method for simulation of supersonic viscous flow over a blunted body at small angle of attack”, Computers & Fluids, 1994, 23 (1): 103-114.
  89. Muzafarov, I.F., Tirskii, G.A., Utyuzhnikov S.V., and Yamaleev, N.K., “Numerical simulation of the flow  over  a body flying through thermal in a stratified  atmosphere”,  Computers & Fluids, 1994, 23 (2): 295-304.
  90. Konyukhov, A.V., Mechsheryakov, M.V., and Utyuzhnikov S.V., “Motion of a large-scale turbulent thermal in a stratified atmosphere”, High Temperature, 1994, 32 (2): 224-228.
  91. Pilyugin, V.V., Talipov, R.P., Tirskii, G.A., and Utyuzhnikov, S.V., “Calculation of supersonic turbulent flow past blunt bodies using complete equations for the viscous shock layer”, High Temperature, 1994, 32 (2): 229-234.
  92. Nabiev, V.U., Utyuzhnikov, S.V., and Yamaleev, N.K., “An efficient method to determine the ballistic trajectory of an axisymmetrical body moving with a hypersonic velocity in the stratified atmosphere”, Doklady – Physics, Transactions of the Russian Academy of Sciences, 1994, 36 (3): 357-360.
  93. Pilyugin, N.N., Talipov, R.P., and Utyuzhnikov, S.V., “Accuracy of asymptotic solutions for nonuniform supersonic flow past a blunt body”, J. of Applied Mechanics & Technical Physics, 1994, 35 (1): 61-65.
  94. Zhluktov, S.V., Tirskii, G.A., and Utyuzhnikov, S.V., “A thermally non-equilibrium viscous shock layer past slender blunted cones”, J. of Applied Mechanics and Mathematics, 1994, 58 (3): 493-505.
  95. Pilyugin N.N., Talipov, R.P., and Utyuzhnikov, S.V., “On the applicability of some approximate similitude laws in hypersonic aerodynamics”, Fluid Dynamics, 1994, 29 (2): 251-257.
  96. Klumov, B.A., Kondaurov, V.I., Konyukhov, A.V., Medvedev, Yu.D., Sokolskii, A.G., Utyuzhnikov, S.V., and Fortov,V.E., “Collision of comet Shoemaker-Levy 9 with Jupiter: what shall we see?”, J. Physics-Uspekhi,  1994,  164 (6): 577-589.
  97. Klumov, B.A., Kondaurov, V.I., Utyuzhnikov, S.V., and Fortov, V.E., “Numerical simulations of the long-living consequences of a comet Shoemaker-Levy-9 impact with Jupiter “, Doklady – Physics, Transactions of the Russian Academy of Sciences, 1994, 337 (1): 28-35.
  98. Gryaznov, V.K., Ivanov, B.A., Ivlev, A.B., Klumov, B.A., Utyuzhnikov, S.V., and Fortov, V.E., “Collision of the comet Shoemaker- Levy 9 with Jupiter: interpretation of observed data”, Earth, Moon & Planets, 1994, 66 (1): 99-128.
  99. Utyuzhnikov, S.V., “Numerical investigation of supersonic viscous gas flow over long blunt cones with allowance for equilibrium physicochemical effects”, Fluid Dynamics, 1993, 28 (1): 155-158.
  100. Muzafarov, I.F. and Utyuzhnikov, S.V., “Numerical investigation of dissipation processes influence on motion of thermals in stratified atmosphere”, Russian J. of Computational Mechanics, 1993, 1 (3): 103-114.
  101. Palamarchuk, I.I., Tirskii, G.A., Fridlender, M.O., and Utyuzhnikov, S.V., “Study of turbulent hypersonic flows past elongated blunt-nosed cones”, Fluid Dynamics, 1993, 28 (6): 844-847.
  102. Zhluktov, S.V., Utyuzhnikov, S.V., Schelin, V.S., and, Scherbuk, V.G., “Comparison of gas dynamic-models for hypersonic flow past bodies”, J. of Applied Mechanics and Mathematics, 1992, 56 (6): 939-944.
  103. Gan’zha, D.Kh., Tirskii, G.A., Utyuzhnikov, S.V., and Fridlender, M.O., “Influence of second-order boundary layer effects in hypersonic flow over slender blunt cones”, Fluid Dynamics, 1992, 27 (4): 551-555.
  104. Tirskii, G.A., Utyuzhnikov, S.V., and Yamaleev, N.K., “Application of the small parameter method to the problem of the spatial flow of a viscous gas past bodies”, J. of Applied Mechanics and Mathematics, 1992, 56 (6): 929-938.
  105. Vershinin, I.V., Tirskii, G.A., and Utyuzhnikov, S.V., ” Supersonic laminar flow on the windward surface of yawed wings of infinitive span over a broad range of Reynolds numbers “, Fluid Dynamics, 1991, 26 (4): 508-512.
  106. Tirskii, G.A. and Utyuzhnikov, S.V., “A comparison of the models of a thin and a complete viscous shock layer in the problem of the supersonic flow of a gas past blunt cones”, J. of Applied Mathematics and Mechanics, 1989, 53 (6): 762-767.
  107. Vasil’yevskii, S.A., Tirskii, G.A., and Utyuzhnikov, S.V., “A numerical method for solving the equations of a viscous shock layer”, Computational Mathematics and Mathematical Physics, 1988, 27 (3): 64-71.
  108. Vasilyevsky, S.A., Tirskii, G.A., and Utyuzhnikov, S.V., “A numerical method for solving viscous shock-layer equations”, Doklady – Mathematics, Transactions of the Russian Academy of Sciences, 1986, 290 (5).

Conference Proceedings

  1. Utyuzhnikov, S.V., “Near-wall domain decomposition in turbulence modelling: current state of the art and perspectives”, Proceedings of 2nd International Conference on Fluid Dynamics & Aerodynamics, Rome, Italy, October 19-20, J. Applied Mechanical Engineering, 6 (5), 2017.
  2. Utyuzhnikov, S.V., “Domain decomposition approach for near-wall turbulence modeling”, Proceedings of ECCOMAS 2016 Congress, Greece. 5-10 June, 2016.
  3. Utyuzhnikov, S.V., “Non-overlapping domain decomposition for near-wall turbulence modeling”, ICNAAM 2015, AIP Conference Proceedings 1738.
  4. Woodward, W., Utyuzhnikov, S.V., Massin, P., “On the application of the method of difference potentials to linear elastic fracture mechanics”, Proceedings of 11the World Congress on Computational Mechanics, July 20-25, 2014, Barcelona, Spain.
  5. Brykina, I.G., Rogov, B.V., Tirskiy, G.A., Titarev, V.A., Utyuzhnikov, S.V., “Comparative study of various approaches for modeling transitional hypersonic rarefied gas flows over blunt bodies”, 28th International Symposium on Rarefied Gas Dynamics, Zaragoza, Spain, July 9-13, 2012, AIP Conference Proceedings, N1501, pp. 1500-1506.
  6. Erfani, T., Utyuzhnikov, S.V., Kolo, B., “Generation of Pareto Frontier via a Modified Directed Search Domain Method”, 50th AIAA Science Meeting Including the New Horizons Forum and Aerospace Exposition, AIAA 2012-0150, 9-12 January, 2012, Nashville, Tennessee, U.S.A., 2012.
  7. Lam, Y.W., Utyuzhnikov, S.V., Kelly, L., “Difference potential based active noise shielding in three dimensional settings”, 13-18 May, 2012, Hong Kong, China, J. Acoustical Society of America, V. 131, Issue 4, p.3380.
  8. Lim, H., Utyuzhnikov, S. V., Lam, Y. W., Turan, A., “Active control system for global cancellation of noise while preserving wanted sound in multi-domains”, The 40th International Congress and Exposition on Noise Control Engineering “Inter-Noise 2011”, 4-7 September, 2011, Osaka, Japan, 2011.
  9. Sandaldjian, C., and Utyuzhnikov, S.V., “Tunguska Impact: How far can we move up in our prediction of the past?”, The 28th International Symposium on Shock Waves, UK, 17 – 22 July 2011, Manchester, UK, Springer, 2011.
  10. Erfani, T., and Utyuzhnikov, S.V., “Cylindrical Constraint Evolutionary Algorithm for Multiobjective Optimization”, Int. Joint Conference on Computational Intelligence (ECTA-FCTA), Paris, 2011.
  11. Erfani, T., and Utyuzhnikov, S.V., ”On Controlling the Extent of Robust Solution in Uncertain Environment in Multiobjective Optimization”, AIAA-2011-0887, the 49th AIAA Aerospace Sciences Meeting including the New Horizons Forum and Aerospace Exposition, 4 – 7 January, 2011, Orlando, Florida, 2011.
  12. Erfani, R., Erfani, T., Hale, C., Kontis, K., and Utyuzhnikov, S.V., ”Optimization of Induced Velocity for Plasma Actuator with Multiple Encapsulated Electrodes using Response Surface Methodology”, AIAA-2011-1206, the 49th AIAA Aerospace Sciences Meeting including the New Horizons Forum and Aerospace Exposition, 4 – 7 January, 2011, Orlando, Florida, 2011.
  13. Erfani, T., and Utyuzhnikov, S.V., “Handling uncertainty and finding robust Pareto Frontier in Multiobjective Optimization using fuzzy set theory”, the 51st AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics, and Materials Conference et al, 12 – 15 April 2010, Orlando, Florida, U.S.A., 2010.
  14. Utyuzhnikov, S.V., Maginot, J., and Guenov, M.D., “Local Pareto approximation”, American Institute of Physics Conference Proceedings, Current Themes in Engineering Science 2007: Selected Presentations at the World Congress on Engineering—2007; Vol.1045, 1-10, 2009.
  15. Utyuzhnikov, S.V., “Nonlinear inverse source problem of active shielding”, AIP Conference Proceedings, Numerical Analysis and Applied Mathematics, Vol.936, 2007, 566-569.
  16. Lim, H., Utyuzhnikov, S.V., Lam, Y.W., Avis, M.R., Turan, A., “Validation of a difference potential based active noise control system, XIX Int. Congress on Acoustics, Madrid, Spain, 2-7 September, 2007.
  17. Utyuzhnikov, S.V., “Nonstationary problem of active sound control in bounded domains”, Proceedings of Waves2007, The 8th Int. Conference on Mathematical and Numerical Aspects of Waves, 2007, 23-27 July 2007, 443-445.
  18. Utyuzhnikov, S.V., “Nonstationary inverse source problem of active shielding”, World Congress on Engineering, London, 2007, 2-4July, Vol. II, 795-799.
  19. Utyuzhnikov, S.V., Maginot, J., and Guenov, M.D., “Local approximation of Pareto surface”, World Congress on Engineering, London, 2007, 2-4July, Vol. II, 898-903.
  20. Utyuzhnikov, S.V., Ryaben’kii, V.S., and Turan, A., “On some approach to active noise control”, CFD ECCOMAS Conference 2006, The Netherlands, 5-8 September, 2006.
  21. Utyuzhnikov, S.V., Maginot, J., and Guenov, M.D., “Local analysis of Pareto solution in multiobjective optimization”, ICAS 2006, 25th Congress, Hamburg, Germany, 3-8 September, 2006.
  22. Lim, H., Lam, Y.W., Utyuzhnikov, S.V., and Turan A., “Realization of the Difference Potential Method in active noise control”, WESPAC IX, Seoul, Korea, 26-28 June, 2006.
  23. Utyuzhnikov, S.V., “Application of generalized Robin-type wall functions for prediction of heat transfer in impinging flows”, Proceeding of 9th UK National Heat Transfer Conference, Manchester, 5-6 September 2005, 2005.
  24. Utyuzhnikov, S.V., Guenov, M.D., and Fantini, P., “Numerical method for generating the entire Pareto frontier in multiobjective optimization”, Proceedings of Eurogen’2005, Munich, September 12-14, 2005.
  25. Guenov, M.D., Utyuzhnikov, S.V., and Fantini, P., “Application of the modified physical programming method to generating the entire Pareto frontier in multiobjective optimization”, Proceedings of Eurogen’2005, Munich, September 12-14, 2005.
  26. Laurence, D.R., Uribe, J.C., and Utyuzhnikov, S.V., “A robust formulation of the v2-f model and its applications”, Proceedings of ICFD’ 2004 Conference, Oxford, 2004.
  27. Utyuzhnikov, S.V., Konyukhov, A.V., Vasil’evskii, A., Rudenko D.V., and Chazot O., “Simulation of sub- & supersonic flows in inductive plasmatrons”, AIAA-2003-3866 Paper, 2003.
  28. Utyuzhnikov, S.V., Konyukhov, A.V., Vasil’evskii, A., and Rudenko, D.V., “Numerical simulation of flows into inductive plasmatron”, Proceedings of the 23rd ICAS Congress (Toronto), 2002, pp. 2113.1-2113.6.
  29. Rudenko, D.V. and Utyuzhnikov, S.V., “Variational algorithm for construction of adaptive grids with applications for spatial nonsteady gas dynamics problems”, Proceedings of Workshop “Grid generation: theory and applications”, Moscow, June 24-28, 2002, Computing Center of Russian Academy of Sciences, pp. 126-137.
  30. Utyuzhnikov, S.V., Vasil’evskii, S.A., Konyukhov, A.V., Rudenko, D.V., Kolesnikov, A.F., and G.S.R. Sarma, “Numerical modelling subsonic and supersonic inductive plasma flows”, Proc. of ECCOMAS CFD Conference, Swansea, UK, 2001.
  31. Utyuzhnikov, S.V., “Combustion of fuel-droplet releases into the atmosphere”, Proceedings of the ICMF-2001 (Multiphase Flow), New Orleans, 2001.
  32. Rudenko, D.V. and Utyuzhnikov, S.V., “Numerical simulation of large scale perturbation of the Earth atmosphere after explosion-like destruction of a cosmic body”, Proceedings of the ISSW’23 (Shock Waves), Texas, 2001.
  33. Rudenko, D.V. and Utyuzhnikov, S.V., “Numerical simulation of consequences of explosion-like destruction of cosmic body in the Earth atmosphere”, Proceedings of the ISSW’22 (Shock Waves), London, 1999, V. 1, pp. 745-750.
  34. Vasil’evskii, A., Kolesnikov, A.F., Utyuzhnikov, S.V., and Sarma, G.S.R., “Physico-chemical data base and computation results for inductive plasma flows”, In: Progress in Plasma Processing of Materials (Eds. P.Fauchais and J.Amouroux), Begell House, New York, 1999, pp. 277-284.
  35. Utyuzhnikov, S.V. and Rudenko, D.V., “Shock-capturing schemes on moving adaptive meshes for simulation of high speed flows”, Proc. of the 4th ECCOMAS, Greece, 1998, V.1, P.1, pp. 347-352.
  36. Utyuzhnikov, S.V., “Computational Aspects of Numerical Simulation of Viscous  Flows of a Gas  into Plasmotron”, Proc.  15th IMACS World Congress, 1997, V.3, Computational Physics, pp. 169-174.
  37. Utyuzhnikov, S.V., Gan’zha D.H., Konkov, K.A., and Polukhin, V.V., “Numerical algorithms on moving adaptive meshes”, Proc. of the 3d ECCOMAS, France, 1996, pp. 264-267.
  38. Utyuzhnikov, S.V., Konyukhov, A.V., Kondaurov, V.I., and Meshcheryakov, M.V., “Gas dynamical model of interaction between a meteoride and the Earth atmosphere”, 2nd IAA Int. Conference on Low-cost Planetary Missions, Baltimore, USA, 1996, IAA-L-1 – IAA-L-6.
  39. Utyuzhnikov, S.V., Gan’zha D.Kh., Konyukhov, A.V., and Polukhin, V.V., “Numerical algorithms on moving adaptive grids for modelling of penetration in to the atmosphere of a planet”, Proc. of IMS’95 “Mathematics with Vision”, Southampton, UK, 1995, pp. 351-359.
  40. Utyuzhnikov, S.V., Klumov, B.A., and Konyukhov, A.V., “Numerical simulation of some consequences induced by SL-9 into the Jovian atmosphere”, European SL-9/ Jupiter Workshop, European Southern Observatory, Garching, Prcoeedings N52, 1995, pp. 401-406.
  41. Utyuzhnikov, S.V., Gan’zha, D.Kh., and Polukhin, V.V., “Numerical algorithms on moving adaptive grids for modeling of penetration into the atmosphere of a planet”, Constitutive laws: theory, experiments and numerical implementation, CIMNE, Barcelona, 1995, pp. 290-301.
  42. Zhluktov, S.V. and Utyuzhnikov, S.V., “Real-gas effects over hypersonic blunted body at nonuniform  freestream  conditions”, Proc. of the Second European Symposium on Aerdynamics for Space Vehicles, ESTEC, Noordwijk, The  Netherlands,  21-25  November, 1994, pp. 401-406.
  43. Tirskii, G.A., Utyuzhnikov,  V., and  Zhluktov,  S.V., “Multi-component viscous shock layer past thin  slender  cones”, Proc. of the  5th  International Symposium  on   Computational Fluid Dynamics, III, 1993, Japan, pp. 229-234.
  44. Muzafarov, I.F., Nabiev, V.U., Utyuzhnikov,  V., and Yamaleev N.K., “Viscous  hypersonic  flow  over  a  body  flying through  a  thermal  in  an  atmosphere”,  Proceedings  of XIX  Int. Symposium on Shock Waves, Marseille, 1993, pp. 145-150.
  45. Utyuzhnikov, S.V., Vershinin, I.V., and Yamaleev, N.K., “Efficient numerical method for solution of some problems of supersonic  viscous  3-D  flows  over  blunt-nosed bodies”  IUTAM  Symposium  Aerothermochem,  of  Spacecraft  and Associated Hypersonic Flows, Marseille, 1992, Proceedings, pp. 214-219.

Book Chapters

  1. Utyuzhnikov, S.V., “Multi-Objective Optimization: Quasi-Even Generation of Pareto Frontier and its Local Approximation”, in “Handbook of Optimization Theory: Decision Analysis and Application”, Eds: Varela, J., Acuna, S., Nova Science Publishers, NY, ISBN: 978-1-60876-500-3, 2010.
  2. Uribe J C, Utyuzhnikov S V, Revell A, Gerasimov A, Laurence D R P. FLOMANIA A European Initiative on Flow Physics Modelling. Notes on Numerical Fluid Mechanics and Multidisciplinary Design. .”Methods used and highlighted results from UMIST”. Springer. ISBN 978-3-540-39507-2. 2006

 

 

 

 

1977-1983 MSc (1st class) Moscow Institute of Physics & Technology (six-year taught course)

1983-1986 PhD study at Moscow Institute of Physics & Technology (MIPT)

1986 PhD in Computational Mathematics (MIPT)

1997 DSc in Applied Mathematics (MIPT)

1999 Title of Professor in Computational Mathematics (Russian Ministry of Education)