FELIX SHARIPOV

List of publications

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Books
F. Sharipov, Rarefied Gas Dynamics. Fundamentals for Research and Practice. (Wiley-VCH, 2016).
F.M. Sharipov and V.D. Seleznev, Flows of rarefied gases in channels and microchannels. (Russian Academy of Science, Ural Branch, Institute of Thermal Physics, 2008).

Chapters in books

  1. Micro- and Nanoscale Gas Dynamics. in Encyclopedia of Micro- and Nano-Fluidics (Springer, 2008) ed. Dongqing Li.
  2. Gas Flow in Nanochannels. in Encyclopedia of Micro- and Nano-Fluidics (Springer, 2008) ed. Dongqing Li.
  3. Analytical and Numerical Calculations of Rarefied Gas Flow. in Handbook of Vacuum Technology, 2nd edition. (Wiley-VCN, 2016) ed. K. Jousten.
  4. Dinâmica de Gases Rarefeitos e Suas Aplicações. in Notas dos Mini-Cursos. Escola de Inverno de Matemática Aplicada (Universidade Federal da Santa Maria, 2009) ed. W.L Roque, L.A.D. Rodrigues e D.C. Mistro.
  5. Calculations of Rarefied Gas Flows in Free-Molecular and Transitional Regimes. in Microfluidics and Nanofluidics Handbook: Chemistry, Physics, and Life Science Principles (CRC Press, 2011) ed. S.K. Mitra and S. Chakraborty
  6. Analytische und numerische Berechnungen von stationären Flüssen verdünnter Gase. in Wutz Handbuch Vakuumtechnik (Springer, 2012) ed. K. Jousten.

Papers in journals

  1. F. Sharipov and A.N. Volkov, Aerothermodynamics of a sphere in a monatomic gas based on ab initio interatomic potentials over a wide range of gas rarefaction: transonic, supersonic and hypersonic flows. J. Fluid Mech. 942 A17. (2022). Full text.
  2. D. Kalempa and F. Sharipov, Thermophoretic force on a sphere of arbitrary thermal conductivity in a rarefied gas. Vacuum 201, 111062 (2022). Full text. Supplementary data. Free access till June 8, 2022.
  3. F.C. Dias and F. Sharipov, Shock waves structure propagating through heavy noble gases. Temperature dependence. Shock Waves 31(6), 609-617 (2021). Full text. Supplementary material: xiAr.cvs, xiKr.cvs, xiXe.cvs, D.xlsx,
  4. F. Sharipov and V.J. Benites, Transport coefficients of isotopic mixtures of noble gases based on ab initio potentials. Physical Chemistry Chemical Physics 23(31), 16664-16674 (2021). Full text. Supplementary material.
  5. D. Kalempa and F. Sharipov, Radiometric force on a sphere in a rarefied gas based on the Cercignani-Lampis model of gas-surface interaction. Phys. Fluids 33(7), 073602 (2021). Full text.
  6. V. Thakur, F. Sharipov, Y. Yang et al., Evaluation of effective area of air piston gauge with limitations in piston-cylinder dimension measurements. Metrologia 58, 035004 (2021). Full text.
  7. A. Marsteller, ..., F. Sharipov, et al. , Neutral tritium gas reduction in the KATRIN differential pumping sections. Vacuum 184, 109979 (2021). Full text.
  8. R. Gao, S. O'Byrne, F. Sharipov and J-L. Liow, Experimental investigation of the separation of binary gaseous mixtures flowing through a capillary tube. Phys. Fluids 32, 112008 (2020). Full text.
  9. F. Sharipov and V.J. Benites, Transport coefficients of multi-component mixtures of noble gases based on ab initio potentials. Diffusion coefficients and thermal diffusion factors. Phys. Fluids 32, 097110 (2020). Full text. Supplementary material
  10. V. E. Ambrus, F. Sharipov and V. Sofonea, Comparison of the Shakhov and ellipsoidal models for the Boltzmann equation and DSMC for ab initio-based particle interactions. Computers and Fluids. 211, 104637 (2020). Full text.
  11. D. Kalempa and F. Sharipov, Drag and thermophoresis on a sphere in a rarefied gas based on the Cercignani-Lampis scattering model of gas-surface interaction. J. Fluid Mech. 900, A37 (2020). Full text. Supplementary material.
  12. A. Polikarpov, I. Graur, and F. Sharipov, Sublimation and deposition in gaseous mixtures. Int. J. Heat Mass Transfer. 160, 120213 (2020). Full text.
  13. F. Sharipov and V.J. Benites, Transport coefficients of multi-component mixtures of noble gases based on ab initio potentials. Viscosity and thermal conductivity. Phys. Fluids. 32, 077104 (2020). Full text. Supplementary material.
  14. L. Zhu, L. Wu, Y. Zhang, and F. Sharipov, Ab initio calculation of rarefied flows of helium-neon mixture: classical vs. quantum scatterings. Int. J. Heat Mass Transfer 145, 118765 (2019). Full text.
  15. F. Sharipov and V.J. Benites, Transport coefficients of argon and its mixtures with helium and neon at low density based ab initio potentials. Fluid Phase Equilibria 498, 23-32 (2019). Full text. Supplementary material 1. Supplementary material 2.
  16. F. Sharipov and F.C. Dias, Temperature dependence of shock wave structure in helium and neon. Phys. Fluids 31, 037109 (2019). Full text. Supplementary material.
  17. N. Subramanian..., F. Sharipov, et al. Evaluating the potential of superhydrophobic nanoporous alumina membranes for direct contact membrane distillation. J. Colloid Interface Sci. 533, 723-732 (2019). Full text.
  18. D. Kalempa, F. Sharipov, and J.C. Silva, Sound waves in gaseous mixtures induced by vibro-thermal excitation at arbitrary rarefaction and sound frequency. Vacuum 159, 82-98 (2019). Full text.
  19. L. Kuckert, F. Heizmann, G. Drexlin, F. Gluck, M. Hotzel, M. Kleesiek, F. Sharipov, K. Valerius, Modelling of gas dynamical properties of the KATRIN tritium source and implications for the neutrino mass measurement. Vacuum. 158, 195-205 (2018). Full text.
  20. F. Sharipov, Influence of quantum intermolecular interaction on internal flows of rarefied gases. Vacuum. 156, 146-153 (2018). Full text.
  21. F. Sharipov and F.C. Dias, Structure of planar shock waves in gaseous mixtures based on ab initio direct simulation. Eur. J. Mech. B/Fluids 72, 251-263 (2018). Full text. Supplementary data.
  22. F. Sharipov, Modelling of transport phenomena in gases based on quantum scattering. Physica A 508, 797-805 (2018). Full text. Supplementary data.
  23. F. Sharipov and V.J. Benites, Transport coefficients of helium-neon mixtures at low density computed from ab initio potentials. J. Chem. Phys. 147, 224302 (2017). Full text. Supplementary material.
  24. F. Sharipov, Ab initio simulation of gaseous mixture flow through an orifice. Vacuum. 143, 106-118 (2017). Full text.
  25. A.N. Volkov and F. Sharipov, Flow of a monatomic rarefied gas over a circular cylinder: Calculations based on the ab initio potential method. Int. J. Heat Mass Transfer. 114, 47-61 (2017). Full text.
  26. F. Sharipov and F.C. Dias, Ab Initio simulation of planar shock waves. Computers and Fluids 150, 115-122 (2017). Full text. Supplementary material
  27. E.Ya. Gatapova, I.A. Graur, O.A. Kabov, V.M. Aniskin, M.A. Filipenko, F. Sharipov, L. Tadrist, The temperature jump at water - air interface during evaporation. Int. J. Heat Mass Transfer 104, 800-812 (2017). Full text.
  28. F. Sharipov and M. Moldover, Energy accommodation coefficient extracted from acoustic resonator experiments. J. Vac. Sci. Technol. A 34(6), 061604 (2016). Full text.
  29. F. Sharipov, Y. Yang, J.E. Ricker, and J.H. Hendricks, Primary pressure standard based on piston-cylinder assemblies. Calculation of effective cross sectional area based on rarefied gas dynamics. Metrologia 53, 1177-1184 (2016). Full text.
  30. D. Kalempa and F. Sharipov, Sound propagation through a binary mixture of rarefied gases at arbitrary sound frequency.Eur. J. Mech. B/Fluids 57, 50-63 (2016). Full text.
  31. F. Sharipov and V.J. Benites, Transport coefficients of helium-argon mixture based on ab initio potential. J. Chem. Phys. 143, 154104 (2015). Full text.
  32. F. Sharipov and Y.B. Barreto, Influence of gas-surface interaction on gaseous transmission probability through conical and spherical ducts. Vacuum 121, 22-25 (2015). Full text.
  33. E.Ya. Gatapova, I.A. Graur, F. Sharipov, O.A. Kabov, The temperature and pressure jumps at the vapor-liquid interface: application to a two-phase cooling system. Int. J. Heat Mass Transfer 83, 235-243 (2015). Full text.
  34. D. Kalempa and F. Sharipov, Numerical modelling of thermoacoustic waves in a rarefied gas confined between coaxial cylinders. Vacuum 109, 326-332 (2014). Full text.
  35. F. Sharipov and J.L. Strapasson, Ab initio simulation of rarefied gas flow through a thin orifice. Vacuum. 109, 246-252 (2014) Full text.
  36. J.L. Strapasson and F. Sharipov, Ab initio simulation of heat transfer through a mixture of rarefied gases. Int. J. Heat Mass Transfer 71, 91-97 (2014). Full text.
  37. S. Pantazis, D. Valougeorgis, and F. Sharipov, End corrections for rarefied gas flows through circular tubes of finite length. Vacuum 101, 306-312 (2014) Full text.
  38. F. Sharipov and I. Graur, General approach to transient flows of rarefied gases through long capillaries. Vacuum 100 22-25 (2014) Full text.
  39. F. Sharipov, Gaseous mixtures in vacuum systems and microfluidics. J. Vac. Sci. Technol. A 31(5), 050806 (2013) Full text.
  40. S. Pantazis, D. Valougeorgis, and F. Sharipov, End corrections for rarefied gas flows through capillaries of finite length. Vacuum 97, 26-29 (2013). Full text
  41. F. Sharipov and J.L. Strapasson, Benchmark problems for mixtures of rarefied gases. I. Couette flow. Phys. Fluids 25 027101 (2013). Full text.
  42. F. Sharipov, Transient flow of rarefied gas through a short tube. Vacuum 90, 25-30 (2013). Full text.
  43. D. Kalempa and F. Sharipov, Sound propagation through a rarefied gas. Influence of the gas-surface interaction. Int. J. Heat and Fluid Flow 30, 190-199 (2012). Full text.
  44. M. Babutzka, ..., F. Sharipov, et al. , Monitoring of the operating parameters of the KATRIN windowless gaseous tritium source. New J. Phys. 14, 103046.1-29 (2012). Full text.
  45. F. Sharipov and J.L. Strapasson, Ab initio simulation of transport phenomena in rarefied gases. Phys. Rev. E 86 (3), 031130.1-4 (2012). Full text. Erratum
  46. S. Varoutis, Ch. Day, and F. Sharipov, Rarefied gas flow through channels of finite length at various pressure ratios. Vacuum 86(12), 1952-1959 (2012). Full text.
  47. F. Sharipov and I.A. Graur, Rarefied gas flow through a zigzag channel. Vacuum 86(11), 1778-1782 (2012). Full text.
  48. F. Sharipov, Benchmark problems in rarefied gas dynamics. Vacuum 86(11), 1697-1700 (2012). Full text.
  49. D.V. Kozak and F. Sharipov, Aerothermodynamics of satellite during atmospheric re-entry for the whole range of gas rarefaction: Influence of inelastic intermolecular collisions. Brazilian J. Phys. 42(3-4), 192-206 (2012). Full text.
  50. F. Sharipov, Transient flow of rarefied gas through an orifice. J. Vac. Sci. Technol. A 30(2), 021602 (2012). Full text.
  51. F. Sharipov and J.L. Strapasson, Direct simulation Monte Carlo method for an arbitrary intermolecular potential. Phys. Fluids 24, 011703 (2012). Full text. Response to Comments by G.A. Bird. Phys. Fluids 25 089101 (2013). Full text .
  52. I.A. Graur, A.Ph. Polikarpov and F. Sharipov, Numerical modelling of rarefied gas flow through a slit at arbitrary gas pressure ratio based on the kinetic equation. Zeitschrift fur Angewandte Mathematik und Physik (ZAMP) 63, 503-520 (2012). Full text.
  53. F. Sharipov, Reciprocal relations based on the non-stationary Boltzmann equation. Physica A 391, 1972-1983 (2012). Full text.
  54. F. Sharipov, Power series expansion of the Boltzmann equation and reciprocal relations for non-linear irreversible phenomena. Phys. Rev. E 84(6), 061137 (2011). Full text.
  55. F. Sharipov and D.V. Kozak, Rarefied gas flow through a thin slit at an arbitrary pressure ratio. Eur. J. Mech. B/Fluids 30, 543-549 (2011). Full text.
  56. I. Graur, A. Ph. Polikarpov and F. Sharipov, Numerical modelling of rarefied gas flow through a slit into vacuum based on the kinetic equation. Computers & Fluids 49, 87-92 (2011). Full text
  57. F. Sharipov, Data on the velocity slip and temperature jump on a gas-solid interface. J. Phys. Chem. Ref. Data. 40(2), 023101-28 (2011). Full text.
  58. D. Kalempa, F. Sharipov, Flows of rarefied gaseous mixtures with a low mole fraction. Separation phenomenon. Eur. J. Mech. B/Fluids 30(4), 466-473 (2011). Full text.
  59. F. Sharipov, Numerical simulation of turbomolecular pump over a wide range of gas rarefaction. J. Vac. Sci. Technol. A 28(6), 1312-1315 (2010). Full text
  60. F. Sharipov, The reciprocal relations between cross phenomena in boundless gaseous systems. Physica A 389, 3743-3760 (2010). Full text.
  61. F. Sharipov, I. Graur and Ch. Day, Leak rate of water into vacuum through microtubes. J. Vac. Sci. Technol. A 28(3), 443-448 (2010). Full text
  62. F. Sharipov, Comments on "Symmetry of the Linearized Boltzmann Equation" by S. Takata. J. Stat. Phys. 139(3) 536-537 (2010). Full text
  63. F. Sharipov, Comments on "Note on the relation between thermophoresis and slow uniform ow problems for a rarefied gas" by S. Takata. Phys. Fluids 22 (4), 049101 (2010). Full text
  64. S. Varoutis, D. Valougeorgis and F. Sharipov, Simulation of gas flow through tubes of finite length over the whole range of rarefaction for various pressure drop ratios. J. Vac. Sci. Technol. A 27(6), 1377-1391 (2009). Full text
  65. D. Kalempa and F. Sharipov, Sound propagation through a rarefied gas confined between source and receptor at arbitrary Knudsen number and sound frequency. Phys. Fluids 21, 103601 (2009). Full text
  66. F. Sharipov and G. Bertoldo, Poiseuille flow and thermal creep based on the Boltzmann equation with the Lennard-Jones potential over a wide range of the Knudsen number. Phys. Fluids 21, 067101 (2009). Full text.
  67. F. Sharipov and D.V. Kozak, Rarefied gas flow through a thin slit into vacuum simulated by the Monte Carlo method over the whole range of the Knudsen number. J. Vac. Sci. Technol. A 27(3), 479-484 (2009). Full text.
  68. F. Sharipov and G. Bertoldo, Numerical solution of the linearized Boltzmann equation for an arbitrary intermolecular potential. J. Comp. Phys.228(9), 3345-3357 (2009). Full text.
  69. O.B. Malyshev, Ch. Day, X. Luo, and F. Sharipov, Tritium gas flow dynamics through the source and transport system of the KATRIN experiment. J. Vac. Sci. Technol. A 27(1), 73-81 (2009). Full text
  70. I. Graur and F. Sharipov, Non-isothermal flow of rarefied gas through a long pipe with elliptic cross section. Microfluidics and Nanofluidics 6(2), 267-275 (2009). Full text.
  71. F. Sharipov and D. Kalempa, Numerical modelling of the sound propagation through a rarefied gas in a semi-infinite space on the basis of linearized kinetic equation. J. Acoust. Soc. Am. 124(4) 1993-2001 (2008). Full text.
  72. S. Varoutis, D. Valougeorgis and F. Sharipov, Application of the integro-moment method to steady-state multidimensional rarefied gas flows subject to boundary induced discontinuities. J. Comp. Phys. 227, 6272-6287 (2008). Full text.
  73. S. Varoutis, D. Valougeorgis, O. Sazhin and F. Sharipov, Rarefied gas flow through short tubes into vacuum.J. Vac. Sci. Technol. A26(2), 228-238 (2008). Full text.
  74. I. Graur and F. Sharipov, Gas flow through an elliptical tube over the whole range of the gas rarefaction. Eur. J. Mech. B/Fluids 27(3), 335-345 (2008). Full text. Numerical calculator.
  75. F. Sharipov and D. Kalempa, Oscillatory Couette flow at arbitrary oscillation frequency over the whole range of the Knudsen number. Microfluidics and Nanofluidics 4(5), 363-374 (2008). Full text.
  76. F. Sharipov, L. M. G. Cumin and D.Kalempa, Heat flux through a binary gaseous mixture over the whole range of the Knudsen number. Physica A 378 , 183-193 (2007). Full text. Numerical calculator.
  77. F. Sharipov and D.Kalempa, Gas flow near a plate oscillating longitudinally with an arbitrary frequency. Phys. Fluids 19(1) 017110 (2007). Full text.
  78. F. Sharipov and G. Bertoldo, Heat transfer through a rarefied gas confined between two coaxial cylinders with high radius ratio. J. Vac. Sci. Technol. A 24 (6) 2087-2093 (2006). Full text
  79. F.Sharipov and D.Kalempa, Onsager-Casimir reciprocal relations based on the Boltzmann equation and gas-surface interaction. Gaseous mixtures. J. Stat. Phys. 125(3), 661-675 (2006). Full text.
  80. X. Luo, O. B. Malyshev, Chr. Day, V. Hauer, R.J. Reid and F. Sharipov, Monte Carlo simulation of gas flow through the KATRIN DPS2-F differential pumping system. Vacuum. 80, 864-869 (2006). Full text.
  81. F. Sharipov, Onsager-Casimir reciprocal relations based on the Boltzmann equation and gas-surface interaction law. Single gas. Phys. Rev. E 73, 026110 (2006). Full text.
  82. F. Sharipov and D. Kalempa, Separation phenomena for gaseous mixture flowing through a long tube into vacuum. Phys. Fluids 17, 127102 (2005). Full text.
  83. F. Sharipov, P. Fahrenbach, and A. Zipp, Numerical modeling of Holweck pump. J. Vac. Sci. Technol. A 23(5), 1331-1339 (2005). Full text.
  84. F. Sharipov and G. Bertoldo, Rarefied gas flow through a long tube of variable radius. J. Vac. Sci. Technol. A 23(3), 531-533 (2005). Full text. Numerical calculator.
  85. S. Naris, D. Valougeorgis, D. Kalempa and F. Sharipov, Flow of gaseous mixtures through rectangular microchannels driven by pressure, temperature and concentration gradients. Phys. Fluids 17(10), 100607 (2005). Full text.
  86. F. Sharipov and D. Kalempa, Velocity slip and temperature jump coefficients for gaseous mixtures. IV. Temperature jump coefficient. Int. J. Heat Mass Transfer 48(6), 1076-1083 (2005). Full text.
  87. F. Sharipov and D. Kalempa, Velocity slip and temperature jump coefficients for gaseous mixtures. III. Diffusion slip coefficient. Phys. Fluids 16 (10), 3779-3785 (2004). Full text.
  88. F. Sharipov, Numerical simulation of rarefied gas flow through a thin orifice. J. Fluid Mech. 518, 35-60 (2004). Full text. Numerical calculator.
  89. F. Sharipov, L.M.G. Cumin, and D. Kalempa, Plane Couette flow of binary gaseous mixture in the whole range of the Knudsen number. Eur. J. Mech. B/ Fluids 23, 899-906 (2004) Full text.
  90. F. Sharipov, Heat transfer in the Knudsen layer, Phys. Rev. E, 69, 061201 (2004) Full text.
  91. S. Naris, D. Valougeorgis, F. Sharipov and D. Kalempa, Discrete velocity modelling of gaseous mixture flows in MEMS, Superlattices and Microstructures 35, 629-643 (2004) Full text.
  92. S. Naris, D. Valougeorgis, D. Kalempa and F. Sharipov, Gaseous mixture flow between two parallel plates in the whole range of the gas rarefaction. Physica A 336, 294-318 (2004). Full text.
  93. F. Sharipov and D. Kalempa, Velocity slip and temperature jump coefficients for gaseous mixtures. II. Thermal slip coefficient. Phys. Fluids 16(3), 759-764 (2004). Full text.
  94. F. Sharipov and D. Kalempa, Velocity slip and temperature jump coefficients for gaseous mixtures. I. Viscous slip coefficient. Phys. Fluids 15(6), 1800-1806 (2003). Full text.
  95. F. Sharipov,Hypersonic flow of rarefied gas near the Brazilian satellite during its reentry into atmosphere. Brazilian Journal of Physics 33(2), 398-405 (2003) . Full text.
  96. F. Sharipov, Application of the Cercignani-Lampis scattering kernel to calculations of rarefied gas flows. III. Poiseuille flow and thermal creep through a long tube. Eur. J. Mech. B/Fluids 22, 145-154 (2003). Full text.
  97. F. Sharipov, Application of the Cercignani-Lampis scattering kernel to calculations of rarefied gas flows. II. Slip and jump coefficients.Eur. J. Mech. B/Fluids 22, 133-143 (2003).Full text.
  98. C.E. Siewert and F. Sharipov, Model equations in rarefied gas dynamics: Viscous-slip and thermal-slip coefficients. Phys. Fluids 14(12), 4123-4129 (2002) Full text.
  99. F. Sharipov, Rarefied gas flow into vacuum through a thin orifice. Influence of the boundary conditions. AIAA Journal 40(10), 2006-2008 (2002). Full text . Numerical calculator.
  100. F. Sharipov, W. Marques Jr. and G.M. Kremer, Free molecular sound propagation. J. Acoust. Soc. Am. 112(2), 395-401 (2002). Full text.
  101. F. Sharipov and D. Kalempa, Gaseous mixture flow through a long tube at arbitrary Knudsen numbers. J. Vac. Sci. Technol. A. 20(3), 814-822 (2002). Full text.
  102. L.M.G. Cumin, G.M. Kremer and F. Sharipov, The influence of slip and jump boundary conditions on the cylindrical Couette flow. Math. Models Methods Appl. Sci. 12(3), 445-459 (2002). Full text.
  103. F. Sharipov, Application of the Cercignani-Lampis scattering kernel to calculations of rarefied gas flows. I. Plane flow between two parallel plates.Eur.J. Mech. B/Fluids 21(1), 113-123 (2002).Full text.
  104. F. Sharipov, Direct simulation Monte Carlo method applied to aerothermodynamics. J. Braz. Soc. Mechanical Scinces 23(4), 441-452 (2001).
  105. O.V. Sazhin, S.F. Borisov and F. Sharipov, Accommodation coefficient of tangential momentum on atomically clean and contaminated surfaces. J. Vac. Sci. Technol. A 19(5), 2499-2503 (2001). Full text. Erratum 20(3), 957 (2002) Full text.
  106. F. Sharipov, L.M. Gramani Cumin and G.M. Kremer, Transport phenomena in rotating rarefied gases, Phys. Fluids13(1), 335-346 (2001). Full text.
  107. W. Marques Jr, G.M. Kremer and F.M. Sharipov, Couette flow with slip and jump boundary conditions. Continuum Mech. Thermodyn. 12(6), 379-386 (2000). Full text.
  108. F. Sharipov, Non-isothermal gas flow through rectangular microchannels. J.Micromech. Microeng. 9(4), 394-401 (1999). Full text.,Numerical calculator
  109. F. Sharipov, Rarefied gas flow through a long rectangular channel. J.Vac. Sci. Technol. A 17(5), 3062-3066 (1999).Full text.Numerical calculator
  110. F. Sharipov, Onsager-Casimir reciprocity relation for gyrothermal effect with polyatomic gases. Phys. Rev. E 59(5), 5128-5132 (1999). Full text
  111. F.M. Sharipov, G.M. Kremer, Non-isothermal Couette flow of a rarefied gas between two rotating cylinders. Eur. J. Mech. B/Fluids 18(1), 121-130 (1999).Full text.
  112. F. Sharipov, Onsager-Casimir reciprocity relations for open gaseous systems at arbitrary rarefaction. IV Rotating system. Physica A 260 (3/4), 499-509 (1998). Full text.
  113. L.M. Gramani Cumin, F.M. Sharipov, and G.M. Kremer, Rarefied gas flow between two cylinders caused by the evaporation and condensation on their surfaces. Phys. Fluids 10(12), 3203-3208 (1998). Full text
  114. F. Sharipov and V. Seleznev, Data on internal rarefied gas flows. J. Phys. Chem. Ref. Data. 27(3), 657-706 (1998). Full text Numerical calculator.
  115. F. Sharipov, Rarefied gas flow through a long tube at arbitrary pressure and temperature drops.J. Vac. Sci. Technol. A15(4), 2434-2436 (1997).Full text.Numericalcalculator
  116. F. Sharipov, Non-isothermal rarefied gas flow through a slit.Phys.Fluids 9(6), 1804-1810 (1997).Full text.
  117. F. Sharipov, Rarefied gas flow through a long tube at any temperature ratio. J. Vac. Sci. Technol. A 14(4), 2627-2635 (1996). Full text.Numerical calculator.
  118. F. Sharipov and G.M. Kremer, Linear Couette flow between two rotating cylinders. Eur. J. Mech. B/Fluids 15(4), 493-505 (1996).
  119. F.M. Sharipov and G.M. Kremer, Nonlinear Couette flow between two rotating cylinders. Transp. Theory Stat. Phys. 25(2), 217-229 (1996). Full text.
  120. F. Sharipov, Rarefied gas flow through a slit: Influence of the gas-surface interaction. Phys. Fluids 8(1),262-268 (1996). Full text.
  121. F. Sharipov, Comments on "On the theory of thermal polarization of bodies in a rarefied gas flow." J. Non-Equilib. Thermodyn. 21(2), 164-168 (1996).
  122. F.M. Sharipov and G.M. Kremer, Heat conduction through a rarefied gas between two rotating cylinders at small temperature difference. Zeitschrift fur Angewandte Mathematik und Physik (ZAMP) 46(5), 680-692 (1995). Full text.
  123. F. Sharipov, Comments on "Mechanodiffusion in slightly rarefied gas mixture".Physica A 216(3), 249-254 (1995)
  124. F. Sharipov, Onsager-Casimir reciprocity relations for a mixture of rarefied gases interacting with a laser radiation. J. Stat. Phys. 78(1/2), 413-430 (1995). Full text.
  125. F.M. Sharipov and G.M. Kremer, On the frame-dependence of constitutive equations. I. Heat transfer through a rarefied gas between two rotating cylinders. Continuum Mech. Thermodyn. 7(1), 57-72 (1995). Full text.
  126. F. Sharipov and V. Seleznev, Rarefied gas flow through a long tube at any pressure ratio. J. Vac. Sci. Technol. A 12(5), 2933-2935 (1994). Full text. Numerical calculator.
  127. F. Sharipov, Onsager-Casimir reciprocity relations for open gaseous systems at arbitrary rarefaction. III. Theory and its application for gaseous mixtures. Physica A 209, 457-476 (1994). Full text.
  128. F. Sharipov, Onsager-Casimir reciprocity relations for open gaseous systems at arbitrary rarefaction. II. Application of the theory for single gas. Physica A 203, 457-485 (1994). Full text.
  129. F. Sharipov, Onsager-Casimir reciprocity relations for open gaseous systems at arbitrary rarefaction. I. General theory for single gas. Physica A 203, 437-456 (1994). Full text.
  130. F. Sharipov and E. Subbotin, On optimization of the discrete velocity method used in rarefied gas dynamics. Zeitschrift fur Angewandte Mathematik und Physik (ZAMP) 44, 572-577 (1993). Full text.
  131. C. Cercignani and F. Sharipov, Gaseous mixture slit flow at intermediate Knudsen numbers. Phys. Fluids A 4(6), 1283-1289 (1992). Full text.
  132. F.M. Sharipov, Onsager reciprocity relation for rarefied gas flow in a laser radiation field. Izvestia Akademii Nauk SSSR, Mekhanika Zhidkosti i Gaza No 1, 163-167 (1991). (in Russian). Translated in Fluid Dynamics 26(1), 135-138 (1991) Full text.
  133. V.D. Akinshin, V.D. Seleznev, and F.M. Sharipov, Nonisothermal rarefied gas flow through a narrow slit. Izvestia Akademii Nauk SSSR, Mekhanika Zhidkosti i Gaza No 4, 171-175 (1990). (in Russian). Translated in Fluid Dynamics 25(4), 642-645 (1990). Full text.
  134. F.M. Sharipov, Onsager reciprocity relations for rarefied polyatomic gas flow in the presence of an external field. Zhurnal Vychislitelnoi Matematiki i Matematicheskoi Fiziki 30(2), 310-318 (1990). (in Russian). Full text
  135. F.M. Sharipov, V.D. Seleznev, and A.M. Makarov, Nonisothermal motion of a rarefied gas in a short planar channel over a wide range of Knudsen number. Inzhenerno-Fizicheskii Zhurnal 59(1), 70-76 (1990). (in Russian). Translated in J. Eng. Phys. Thermophys. 59(1), 869-875 (1990). Full text.
  136. F.M. Sharipov, V.D. Akinshin, and V.D. Seleznev, Onsager reciprocity relations and the kinetic theory of gases. Dokl. Akad. Nauk SSSR 305(3), 558-562 (1989). (in Russian).
  137. F.M. Sharipov and T.V. Shchepetkina, Motion of a rarefied gas in a plane channel in the presence of condensation on the channel walls. Inzhenerno-Fizicheskii Zhurnal 57(6), 906-912 (1989). (in Russian). Translated in J. Eng. Phys. Thermophys. 57(6), 1420-1426 (1989). Full text.
  138. V.D. Akinshin, A.M. Makarov, V.D. Seleznev, and F.M. Sharipov, Rarefied gas flow through a short planar channel over the whole Knudsen number range. Zhurnal Prikladnoi Mekhaniki i Tekhnicheskoi Fiziki No 5, 48-53 (1989). (in Russian). Translated in Journal of Applied Mechanics and Technical Physics 30 (5) 713-717 (1988). Full text.
  139. V.D. Akinshin, A.M. Makarov, V.D. Seleznev, and F.M. Sharipov, Flow of a rarefied gas in a plane channel of finite length for a wide range of Knudsen numbers. Zhurnal Prikladnoi Mekhaniki i Tekhnicheskoi Fiziki No 1, 105-111 (1988). (in Russian). Translated in Journal of Applied Mechanics and Technical Physics 29 (1) 97-103 (1988). Full text.
  140. F.M. Sharipov, T.V. Shchepetkina, and A.M. Makarov, Mass transfer in a plane finite pore on a broad interval of Knudsen numbers with allowance for condensation. Inzhenerno-Fizicheskii Zhurnal 53(1), 11-15 (1987), (in Russian). Translated in J. Eng. Phys. Thermophys. 53(1), 746-749 (1987). Full text.






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