Abstract
Among the few correct solutions of the Navier–Stokes equations, the least covered in the generally available literature is the flow in an annular channel formed between two coaxially arranged cylinders, although it has a fairly wide practical relevance and has some nuances (see Sect. 1.2) on which I would like to draw your attention.
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References
Loiscyanski, L.G.: Mehanika zhidkosti i gaza, 904 s. Nauka, Moscow (1984)
Leonov, E.G., Isayev, V.I.: Gidroaeromehanika v burenii, 303 s. Nedra, Moscow (1987)
Reiner, M.: Rheology. HandbuchPhysik, p. 227. Springer, Yering (1958). Reiner, M.: Reologia, 223 s. Nauka, Moscow (1965)
Paleyev, I.I., Agafonova, F.A., Dymant, L.N.: Eksperimentalnyie issledovaniya izotermicheskogo turbulentnogo potoka v pryamougolnom kanale s odnostoronnim vduvom. Izv.VUZov Energnika. № 1, С. 65–70 (1970)
Alimpiyev, V.I., Kalinina, S.V., Lugovskoi, P.P.: Issledovniye gidrodinamiki techeniya odnofaznoi sredy v uzkih zazorah so vduvom.—Turbulentnyi pogranichnyi sloi pri slozhnyh granichnyh usloviyah, Novosibirsk. S. 73–81 (1977)
Kirilscev, B.T., Motulevich, V.P., Sergiyyevski, E.D.: Nekotorye dannye o strukture pristenochnoi oblasti turbulentnogo pogranichnogo sloia na proniscaemoi poverhnosti pri vduve. IFZ. Т.4, № I, С. 22–29 (1986)
Kalinina, S.V., Lugovskoi, P.P., Mironov, B.P.: Gidrodinamika techeniya v pronicsayemom kanale s dvuhstoronnim vduvom. PMTF. â„– 6 (1981)
Laufer, J.: Investigation of turbulent flows in a two-dimensional channel. NACA report, 1053 (1951)
Kont-Bello, Zh.: Turbulentnoye techeniye v kanale s parallelnymi stenkami. Mir, Moscow (1968)
Klark.: Issledovaniye neszhimaiemogo turbulentnogo pogranichnogo sloia pri techenii v kanale. Teoreticheskiye osnovy inzhenernyh raschetov. № 4, S. 22–29 (1968)
Huseyyn, Reinolds.: Eksperimentalnoye issledovaniye polnostiu razvitogo turbulentnogo techeniya v kanale. Teoreticheskiye osnovy inzhenernyh raschetov. № 4, S. 295–309 (1975)
Klyain.: Razvitiye turbulentnogo techeniya v trube (obzor). Teoriticheskiye osnovy inzhenernyh raschetov. № 1, S. 180–188 (1981)
Gossmen, A.L.: i dr. Chislennye metody issledovaniya techeniya viazkoi zhidkosti. Mir, Moscow (1972)
Hahjalic, K., Launder, В.E.: Reynolds-stress model of turbulence and its application to thin shear flows closure. J. Fluid Mech. 72(pt 4), 609–638 (1972)
Hanjalic, K., Launder, B.E.: Fully developed asymmetric flow in a plane channel. J. Fluid Mech. 51(pt 1), 301–324 (1972)
Laufer, J.: The structure of turbulence in fully-developed pipe flow. New York Report/NACA; N 1174 (1954)
Chien, K.Y.: Predictions of channel and boundary layer flows with a low-Reynolds-number two-equation model of turbulence. AIAA J. 20, N1 (1982)
Zhapbasbayev, U.K., Kozhakhmetov, T.B., Smolyaninov, A.V.: Raschet techeniya v kanalah na osnove modeli turbulentnyh napryazheniy, primenimoi pri nizkih chislah Reinoldsa. Izv. AN KazSSR. Ser. fiz.-mat. â„– 3 (1989)
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Yershin, S.A. (2017). Viscous and Viscoelastic Flow in Annular Channels. In: Paradoxes in Aerohydrodynamics. Mathematical Engineering. Springer, Cham. https://doi.org/10.1007/978-3-319-25673-3_1
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