|
|
|
|
References
|
|
| |
| 1. |
E. K. Kalinin, Intensifikatsiya teploobmena v kanalakh, eds. E. K. Kalinin, G. A. Dreitser, S. A. Yarkho, Mashinostroenie, M., 1990 |
| 2. |
Yu. A. Kalinin, Chislennoe modelirovanie vikhrevoi intensifikatsii teploobmena v paketakh trub, eds. Yu. A. Bystrov, S. A. Isaev, N. A. Kudryavtsev, A. I. Leontev, Sudostroenie, SPb., 2005 |
| 3. |
Yu. F. Gortyshov, Teplogidravlicheskaya effektivnost perspektivnykh sposobov intensifikatsii teplootdachi v kanalakh teploobmennogo oborudovaniya. Intensifikatsiya teploobmena, eds. Yu. F. Gortyshov, I. A. Popov, V. V. Olimpiev, A. V. Schelchkov, S. I. Kaskov, Tsentr innovats. tekhnologii, Kazan, 2009 |
| 4. |
J. C. Han, Gas turbine heat transfer and cooling technology, 2nd ed., eds. J. C. Han, S. Dutta, S. Ekkad, CRC Press, N. Y., 2012 |
| 5. |
V. I. Terekhov, Heat transfer in subsonic separated flows, eds. V. I. Terekhov, T. V. Bogatko, A. Yu. Dyachenko, Ya. I. Smulsky, N. I. Yarygina, Springer, Cham, 2021 |
| 6. |
A. F. Polyakov, P. L. Komarov, Issledovanie kharakteristik turbulentnosti i teploobmena za obratnym ustupom v schelevom kanale, Ob'ed. in-t vysokikh temperatur RAN; # 2-396, M., 1996 |
| 7. |
T. Ota, “A survey of heat transfer in separated and reattached flows”, Appl. Mech. Rev., 53 (2000), 219–235 |
| 8. |
M. G. Ktalkherman, “Teplootdacha k plastine za prepyatstviem”, PMTF, 1966, no. 5, 130–133  |
| 9. |
A. V. Bernar, S. N. Yakovenko, “Usovershenstvovanie RANS-modelei s pomoschyu metoda sluchainogo lesa s tenzornym bazisom dlya turbulentnykh techenii v dvumernykh kanalakh s vystupami”, PMTF, 64:3 (2023), 89–94 |
| 10. |
Y. Nagano, H. Hattori, “Improvement of an LRN two-equation turbulence model reflecting multi-time scales”, Intern. J. Heat Fluid Flow, 51 (2015), 221–228 |
| 11. |
A. Graziani, M. Lippert, D. Uystepruyst, L. Keirsbulck, “Scaling and flow dependencies over forward-facing step”, Intern. J. Heat Fluid Flow, 67 (2017), 220–229 |
| 12. |
V. I. Terekhov, Ya. I. Smulskii, K. A. Sharov, “Eksperimentalnoe issledovanie struktury otryvnogo techeniya za ustupom pri nalichii passivnogo vozmuscheniya”, PMTF, 57:1 (2016), 207–215 |
| 13. |
S. V. Mahmoodi-Jezeh, B. C. Wang, “Direct numerical simulation of turbulent flow through a ribbed square duct”, J. Fluid Mech., 900 (2020), A18 |
| 14. |
J. R. Fessler, J. K. Eaton, “Turbulence modification by particles in a backward-facing step flow”, J. Fluid Mech., 314 (1999), 97–117 |
| 15. |
R. Martinuzzi, C. Tropea, “The flow around surface-mounted, prismatic obstacles placed in a fully developed channel flow”, Trans. ASME. J. Fluids Engng., 115 (1993), 85–92 |
| 16. |
A. Keshmiri, “Numerical sensitivity analysis of 3- and 2-dimensional rib-roughened channels”, Heat Mass Transfer, 48 (2012), 1257–1271 |
| 17. |
M. A. Keshmiri, V. I. Terekhov, “RANS modeling of turbulent flow and heat transfer in a droplet-laden mist flow through a ribbed duct”, Water, 14 (2022), 3829 |
| 18. |
T. S. Dhanasekaran, T. Wang, “Computational analysis of mist/air cooling in a two-pass rectangular rotating channel with 45-deg angled rib turbulators”, Intern. J. Heat Mass Transfer, 61 (2013), 554–564 |
| 19. |
Y.-H. Huang, C.-H. Chen, Y.-H. Liu, “Nonboiling heat transfer and friction of air/water mist flow in a square duct with orthogonal ribs”, Trans. ASME. J. Thermal Sci. Engng Appl., 9 (2017), 041014 |
| 20. |
G. Jiang, X. Shi, G. Chen, J. Gao, “Study on flow and heat transfer characteristics of the mist/steam two-phase flow in rectangular channels with 60 deg. ribs”, Intern. J. Heat Mass Transfer, 120 (2018), 1101–1117 |
| 21. |
M. A. Pakhomov, V. I. Terekhov, “Prediction of turbulent flow characteristics and heat transfer in a dilute droplet-laden flow over a backward-facing step”, Numer. Heat Transfer. Pt A, 83 (2023), 664–678 |
| 22. |
M. A. Pakhomov, “Modelirovanie lokalnoi struktury gazokapelnogo turbulentnogo potoka za pregradoi”, PMTF, 65:1 (2024), 91–103 |
| 23. |
I. V. Derevich, L. I. Zaichik, “Osazhdenie chastits iz turbulentnogo potoka”, Izv. AN SSSR. Mekhanika zhidkosti i gaza, 1988, no. 5, 96–104 |
| 24. |
M. W. Reeks, “On a kinetic equation for the transport of particles in turbulent flows”, Phys. Fluids A, 3 (1991), 446–456 |
| 25. |
M. W. Reeks, “The development and application of a kinetic theory for modeling dispersed particle flows”, Trans. ASME. J. Fluids Engng., 143:8 (2021) |
| 26. |
A. Fadai-Ghotbi, R. Manceau, J. Boree, “Revisiting URANS computations of the backward-facing step flow using second moment closures. Influence of the numerics”, Flow, Turbulence Combust., 81 (2008), 395–410 |
| 27. |
L. I. Zaichik, “A statistical model of particle transport and heat transfer in turbulent shear flows”, Phys. Fluids, 11 (1999), 1521–1534 |
| 28. |
S. Elghobashi, “On the predicting particle-laden flows”, Appl. Sci. Res., 52 (1994), 309–329 |
| 29. |
I. V. Derevich, “Statistical modelling of mass transfer in turbulent two-phase dispersed flows. 1. Model development”, Intern. J. Heat Mass Transfer, 43 (2000), 3709–3723 |
| 30. |
D. G. E. Grigoriadis, S. C. Kassinos, “Lagrangian particle dispersion in turbulent flow over a wall mounted obstacle”, Intern. J. Heat Fluid Flow, 30 (2009), 462–470 |
| 31. |
R. V. Mukin, L. I. Zaichik, “Non-linear stress model for two-phase turbulent flow laden with small heavy particles”, Intern. J. Heat Fluid Flow, 33 (2012), 81–91 |
| 32. |
K. Hishida, T. Nagayasu, M. Maeda, “Augmentation of convective heat transfer by an effective utilization of droplet inertia”, Intern. J. Heat Mass Transfer, 38 (1995), 1773–1785 |
| 33. |
F. Li, H. Qi, C. F. You, “Phase Doppler anemometry measurements and analysis of turbulence modulation in dilute gas - solid two-phase shear flows”, J. Fluid Mech., 663 (2010), 434–455 |
| 34. |
V. I. Terekhov, N. I. Yarygina, R. F. Zhdanov, “Osobennosti techeniya i teploobmena pri otryve turbulentnogo potoka za ustupom i rebrom. 2. Teploobmen v otryvnom techenii”, PMTF, 44:4 (2003), 83–94 |
| 35. |
S. S. Kutateladze, Teplomassoobmen i trenie v turbulentnom pogranichnom sloe, eds. S. S. Kutateladze, A. I. Leontev, Energoatomizdat, M., 1985 |
| 36. |
T. Ota, H. Nishiyama, “A correlation of maximum turbulent heat transfer coefficient in reattachment flow region”, Intern. J. Heat Mass Transfer, 30:6 (1987), 1193–1200 |
| 37. |
A. I. Leontev, V. I. Ivin, L. V. Grekhov, “Poluempiricheskii sposob otsenki urovnya teploobmena za tochkoi otryva pogranichnogo sloya”, Inzh.-fiz. zhurn., 47:4 (1984), 543–549 |
