6. The isothermal flow of mass transfer processes in the phase separation surface
prevails over adiabatic conditions.
BIBLIOGRAPHICAL REFERENCES
1. Sokolenko A.I. (1972) Issledovanie protsessov aeratsii pitatelnyih sred i
razrabotka novyih konstruktsiy drozhzherastilnyih apparatov. (Diss. kand. tehn. nauk).
Kievskiy tehnologicheskiy institut pischevoy promyishlennosti, Kiev.
2. Semihatova N.M. (1980). Hlebopekarnyie drozhzhi. Moskva: Pischevaya
promyishlennost.
3. Sokolenko A.I., Piddubnyj V.A., Chaghajda A.O. (2015). Energhomaterialjni
transformaciji v kharchovykh tekhnologhijakh na osnovi zamknutykh konturiv, Kyjiv:
Kondor.
4. Sokolenko A.I., Shevchenko O.Ju., Bilyk O.A., Myronenko S.M. (2018).
Energhetychni potencialy ghazoridynnykh seredovyshh, Naukovi praci Nacionaljnogho
universytetu kharchovykh tekhnologhij, 24 (1), 107-118.
5.
Lu X., Xie P., Ingham D.B., Ma L., Pourkashanian M. (2018). A porous media
model for CFD simulations of gas-liquid two-phase flow in rotating packed beds .
Chemical Engineering Science, 189 (2), 123-134. DOI: 10.1016/j.ces.2018.04.074
6. Faridkhou A., Larachi F. (2012) Hydrodynamics of Gas-Liquid Cocurrent Flows
in Micropacked Beds-Wall Visualization Study. Industrial & Engineering Chemistry
Research, 51 (50), 16495 -16504. DOI: 10.1021/ie301709x
7. Mandal A. (2010) Characterization of gas-liquid parameters in a down-flow jet
loop bubble column. Brazilian Journal of Chemical Engineering, 27 (2), DOI:
10.1590/S0104-66322010000200004
8. Ghatage S.V., Sathe M. J., Doroodchi E., Joshi J.B., Evans G.M. (2013, August).
Effect of turbulence on particle and bubble slip velocity. Chemical Engineering Science,
100, 120-136, DOI: 10.1016/j.ces.2013.03.031
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