|
|
|
|
References
|
|
| |
| 1. |
G. Salbreux, F. Jülicher, “Mechanics of active surfaces”, Phys. Rev., E 96 (2017), 032404 |
| 2. |
Ran Wei Rioux, The Rate of Fluid Absorption in Porous Media, Electronic Theses and Dissertations, 2003, 234 pp. |
| 3. |
R. G. Barantsev, Vzaimodeistvie razrezhennykh gazov s obtekaemymi poverkhnostiami, Nauka, M., 1975, 343 pp. |
| 4. |
Ju. A. Ryzhov, U. G. Pirumov, V. N. Gorbunov, Nonequilibrium Condensation in High-Speed Gas Flows, Gordon and Breach Science Publishers, 1989, 290 pp. |
| 5. |
Ju. A. Nikitchenko, S. A. Popov, A. V. Tikhonovets, “Combined Kinetic-Hydrodynamic Model of Polyatomic Gas Flow”, MM & CS, 11:5 (2019), 740–749    |
| 6. |
Y. Nikitchenko, S. Popov, A. Tikhonovets, “Special Aspects of Hybrid Kinetic-Hydrodynamic Model When Describing the Shape of Shockwaves”, ICCS 2019, Lecture Notes in Computer Science, 11539, eds. Rodrigues J. et al., Springer, Cham |
| 7. |
V. S. Glinkina, Yu. A. Nikitchenko, S. A. Popov, Yu. A. Ryzhov, “Drag Coefficient of an Absorbing Plate Set Transverse to a Flow”, Fluid Dynamics, 51:6 (2016), 791–798  |
| 8. |
Yu. A. Nikitchenko, “Model Kinetic Equation for Polyatomic Gases”, Comp. Math. and Math. Phys., 57:11 (2017), 1843–1855 |
| 9. |
M. J. Thompson, An Introduction to Astrophysical Fluid Dynamics, Imperial College Press, London, 2006  |
| 10. |
O. I. Rovenskaya, G. Croce, “Numerical simulation of gas flow in rough micro channels: hybrid kinetic-continuum approach versus Navier–Stokes”, Microfluid Nanofluid, 20:81 (2016) |
| 11. |
E. N. Bondarev, V. T. Dubasov, Iu. A. Ryzhov, S. B. Svirshchevskii, N. V. Semenchikov, Aerogidromekhanika, Mashinostroenie, M., 1993, 608 pp. |
