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Journal publications

Last update: 19/04/2016

Year 2016

  1. 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.

Year 2015

  1. Jones, A., Utyuzhnikov, S. Application of a near-wall domain decomposition method to turbulent flows with heat transfer// Computers & Fluids. 2015, 119: 87-100.
  2. 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.
  3. Ntumy, E., and Utyuzhnikov, S.V. Active sound control in composite regions// Applied Numerical Mathematics. 2015. 93: 242-253.
  4. 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.
  5. 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.
  6. 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.
  7. Fedorov A., Maslov A., Soudakov V., Egorov I., Sidorenko A., Polivanov P., Gromyko Y., Bountin D. High-speed boundary-layer stability on a cone with localized wall heating or cooling// AIAA Journal: devoted to aerospace research and development. 2015. Т. 53. № 9. С. 2512-2524.
  8. Alferov V.I., Bushmin A.S., Egorov I.V. Experimental investigation of flow past simple model bodies in hypersonic wind tunnels at similar values of the Mach and Reynolds numbers but at different physical flow velocities// Fluid Dynamics. 2015. V. 50. № 1. P. 109-117.
  9. Egorov I.V., Pal’chekovskaya N.V., Shvedchenko V.V. The effect of spatial perturbations of a supersonic flow on heat flux to the surface of blunt bodies// High Temperature. 2015. Т. 53. № 5. P. 677-689.

Year 2014

 

  1. Utyuzhnikov, S.V., Real-time active wave control with preservation of wanted field// IMA J. Applied Mathematics. 2014. 79: 1126-1138.
  2. Utyuzhnikov, S.V. Towards development of unsteady near-wall interface boundary conditions for turbulence modelling// Computer Physics Communications. 2014. 185 (11): 2879-2884.
  3. 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. 2014. 136 (3): 1101-1111.
  4. V. Titarev, M. Dumbser and S. Utyuzhnikov Construction and comparison of parallel implicit kinetic solvers in three spatial dimensions // J. Comp. Phys., 2014. V. 256, p. 17-33.
  5. V.A. Titarev, E.M. Shakhov and S.V. Utyuzhnikov Rarefied gas flow through a diverging conical pipe into vacuum // Vacuum, 2014. V. 101. P. 10-17.
  6. Ntumy, E., and Utyuzhnikov, S.V. Active Sound Control in 3D Bounded Regions. // J. Wave Motion, 2014. V. 51. P. 284-295.
  7. Garanzha, V.A., Kudryavtsevaa, L.N., Utyuzhnikov, S.V. Variational method for untangling and optimization of spatial meshes// J. Computational and Applied Mathematics, 2014. V269. P. 24-41.
  8. Fedorov, A.V., Ryzhov, A.A., Soudakov, V.G., Utyuzhnikov, S.V. Numerical simulation of the effect of local volume energy supply on high-speed boundary layer stability// J. Computers & Fluids, 2014. V. 100. N. p. 130-137
  9. E. A. Aleksandrova, A. V. Novikov, S. V. Utyuzhnikov, A. V. Fedorov. Experimental study of the laminar-turbulent transition on a blunt cone // Journal of Applied Mechanics and Technical Physics. 2014, V. 55, Issue 3, pp 375-385
  10. VA Aleksin, SV Utyuzhnikov. Implementation of near-wall boundary conditions for modeling boundary layers with free-stream turbulence // Applied Mathematical Modelling. 2014. V. 38, N. 14, p. 3591-3606
  11. V.A. Titarev and E.M. Shakhov. Rarefied gas flow into vacuum through a pipe composed of two circular sections of different radii // Vacuum. SI "Advances in Vacuum Gas Dynamics". 2014, V. 109. p. 236-245.
  12. E.M. Shakhov and V.A. Titarev. Non-stationary rarefied gas flow into vacuum from a circular pipe closed at one end // Vacuum. SI "Advances in Vacuum Gas Dynamics". 2014. V. 109. p. 284-293.
  13. V.V. Aristov, E.M. Shakhov, V.A. Titarev, S.A. Zabelok. Comparative study for rarefied gas flow into vacuum through a short circular pipe // Vacuum. 2014. V. 103, p. 5-8.
  14. V.A. Titarev. Computer package Nesvetay-3D for modelling three-dimensional flows of monatomic rarefied gases // Science & Education. Scientifical periodic of the Bauman MSTU. 2014, N. = 6, p. 124-154, doi=10.7463/0614.0712314, url=http://technomag.bmstu.ru/doc/712314.html.
  15. V.F. Kopiev, V. A. Titarev, I. V. Belyaev. Development of a methodology for propeller noise calculation on high-performance supercomputers // TsAGI Science Journal. 2014. V. 45. N. 3–4. p. 293-327.

Year 2013

  1. 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.
  2. Erfani, R., Erfani, T., Kontis, K., and Utyuzhnikov, S.V. Optimization of multiple encapsulated electrode plasma actuators // J. Aerospace Science and Technology, 2013, 26 (1): 120-127.
  3. Fedorov A.V., Ryzhov A.A., Soudakov V.G., Utyuzhnikov S.V. Receptivity of a high-speed boundary layer to temperature spottiness // Journal of Fluid Mechanics. 2013. V. 722. P. 533-553.
  4. Egorov I.V., Palchekovskaya N.V., Shvedchenko V.V. Influence of three-dimensional perturbations on heat transfer in hypersonic flow // Computational Thermal Sciences, 2013. V. 5 N. 1. P. 83 – 95.
  5. 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 Journal. 2013. V. 51. N. 5, P. 1203 – 1210.
  6. Borovoy V.Y., Egorov I.V., Skuratov A.S., Struminskaya I.V. Two-Dimensional Shock-Wave/Boundary-Layer Interaction in the Presence of Entropy Layer // AIAA Journal. 2013. V. 51. N. 1, P. 80 – 93.
  7. E.N.Aristova, D.F. Baydin, B.V.Rogov. Bicompact Schemes for an Inhomogeneous Linear Transport Equation // Mathematical Models and Computer Simulations. 2013. V. 5. N. 6, 586–594.
  8. E.N.Aristova, D.F.Baydin. Implementation of the Quasi Diffusion Method for Calculating the Critical Parameters of a Fast Neutron Reactor in 3D Hexagonal Geometry // Mathematical Models and Computer Simulations, 2013, V. 5. N. 2. P. 145–155.
  9. E.N.Aristova, S.V.Martynenko. Bicompact Rogov schemes for the Multidimensional Inhomogeneous Linear Transport Equation at Large Optical Depth // Comp. Math. and Math.Phys. 2013. V. 53. N. 10. P. 1499–1511.
  10. I.G. Brykina, B.V. Rogov, G.A. Tirskiy, V.A. Titarev, S.V. Utyuzhnikov. A comparative analysis of approaches for investigating hypersonic flow over blunt bodies in a transitional regime // Journal of Applied Mathematics and Mechanics. 2013. V.77. Iss. 1. P. 9-16.
  11. V.A. Titarev, S.V. Utyuzhnikov and E.M. Shakhov. Rarefied gas flow through a pipe of variable square cross section into vacuum // Comput. Math. & Math. Phys., 2013. V. 53, N. 8, p. 1221 – 1230.
  12. V.A. Titarev and E.M. Shakhov. End effects in the rarefied gas flow through a long pipe into vacuum// Fluid Dynamics, 2013. N 5.
  13. M. Dumbser, V.A. Titarev, S.V. Utyuzhnikov. Implicit Multiblock Method for Solving a Kinetic Equation on Unstructured Meshes // Comput. Math. & Math. Phys., 2013. V. 53, N. 5, p. 601-615.
  14. V.A. Titarev. Rarefied gas flow in a circular pipe of finite length // Vacuum, 2013. V. 94. p. 92-103.
  15. Tohid Erfani, Sergey V. Utyuzhnikov, Brian Kolo. A modified directed search domain algorithm for multiobjective engineering and design optimization // Structural and Multidisciplinary Optimization. 2013. Volume 48 Issue 6, pp 1129-1141.

Year 2012

  1. 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.
  2. Utyuzhnikov, S.V. Interface boundary conditions in near-wall turbulence modeling // Computers & Fluids, 2012, 68: 186-191.
  3. 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.
  4. E.N.Aristova, D.F.Baydin. Efficiency of Quasi_Diffusion Method for Calculating Critical Parameters of a Fast Reactor // Mathematical Models and Computer Simulations. 2012. V. 4. N 6. P. 568–573.
  5. I. G. Brykina and V. P. Stulov The Reciprocal Role of Convective and Radiant Heat Exchange in the Meteor Parameter Range // Doklady Physics. 2012. V. 57. No. 4. P. 164–165.
  6. I.G. Brykina, B.V. Rogov, G.A. Tirskiy, S.V. Utyuzhikov. The effect of surface curvature on the boundary conditions in the viscous shock layer model for hypersonic rarefied gas flow // Journal of Applied Mathematics and Mechanics. 2012. V. 76. Issue 6. P. 677-687.
  7. B.V. Rogov and M.N. Mikhailovskaya. Monotonic Bicompact Schemes for Linear Transport Equations // Mathematical Models and Computer Simulations, 2012, V. 4, No. 1, P. 92–100.
  8. B.V. Rogov and M. N. Mikhailovskaya. Monotone High-Accuracy Compact Running Scheme for Quasi-Linear Hyperbolic Equations // Mathematical Models and Computer Simulations, 2012, V. 4, No. 4, P. 375–384.
  9. V.A. Titarev. Rarefied gas flow in a planar channel caused by arbitrary pressure and temperature drops // International Journal of Heat and Mass Transfer, 2012. V. 55, N. 21-22, p. 5916–5930.
  10. V.A. Titarev and E.M. Shakhov. Poiseuille flow and thermal creep in a capillary tube on the basis of the kinetic Rmodel // Fluid Dynamics, 2012. V. 47. N. 5. 661–672
  11. V.A. Titarev and E.M. Shakhov. Computational study of a rarefied gas flow through a long circular pipe into vacuum // Vacuum, Special Issue ``Vacuum Gas Dynamics''. 2012. V. 86, N. 11, p. 1709-1716.
  12. V.A. Titarev and E.M. Shakhov. Efficient method for computing rarefied gas flow in a long finite plane channel // Comput. Math. & Math. Phys., 2012. V. 52, N 2, p. 269-284.
  13. V.A. Titarev. Efficient deterministic modelling of three-dimensional rarefied gas flows // Communications in Computational Physics, 2012. V. 12, N. 1, pp. 162-192.
  14. V.A. Titarev. Implicit high-order method for calculating rarefied gas flow in a planar microchannel // Journal of Computational Physics, 2012. V. 231, pp. 109-134.
  15. V. A. Garanzha and L. N. Kudryavtseva. Generation of three-dimensional Delaunay meshes from weakly structured and inconsistent data // Comput. Math. & Math. Phys., 2012, V. 52, N. 3, pp 427-447.

Year 2011

  1. Brykina I.G. Asymptotic Solutions of the Thin Viscous Shock Layer Equations near the Symmetry Plane of Blunt Bodies in Hypersonic Rarefied Gas Flow // Fluid Dynamics. 2011. V. 46. No. 3. P. 444–455.
  2. B.V. Rogov and M.N. Mikhailovskaya. Monotone Bicompact Schemes for a Linear Advection Equation // Doklady Mathematics. 2011. V. 83, No. 1. P.121–125.
  3. B.V. Rogov and M.N. Mikhailovskaya. Monotone High-Order Accurate Compact Scheme for Quasilinear Hyperbolic Equations // Doklady Mathematics. 2011. V. 84, No. 2. P.747–752.
  4. Soudakov V.G., Fedorov A.V., Ryzhov A.A. DNS and the theory of receptivity of a supersonic boundary layer to free-stream disturbances // Journal of Physics: Conference Series 318 (2011) 032020.
  5. V.A. Rykov, V.A. Titarev and E.M. Shakhov. Rarefied Poiseuille flow in elliptical and rectangular tubes // Fluid Dynamics, 2011. V. 6, N. 3, pp. 456-466.
  6. V.A. Titarev and D. Drikakis. Uniformly high-order schemes on arbitrary unstructured meshes for advectiondiffusion equations // Computers & Fluids, 2011. V. 46, N. 1, pp. 467-471.
  7. P. Tsoutsanis, V.A. Titarev and D. Drikakis. WENO schemes on arbitrary mixed-element unstructured meshes in three space dimensions // Journal of Computational Physics, 2011. V. 230, P. 1585 - 1601.