Literature cited
N. I. Gel'perin, V. G. Ainshtein, and A. V. Zaikovskii, “Heat-transfer mechanism between a surface and a heterogeneous fluid layer of granular material,” Khim. Prom., No. 6, 18–26 (1966).
A. P. Baskakov, Rate of Nonoxidizing Heating and Heat Treatment in Boiling Layer [in Russian], Metallurgiya, Moscow (1968).
S. S. Zabrodskii, Hydrodynamics and Heat Transfer in Semifluidized (Boiling) Layer [in Russian], Gosénergoizdat, Moscow-Leningrad (1963).
N. V. Antonishin, L. E. Simchenko, and L. V. Gorbachev, “Characteristics of unsteady heat-transfer conductivity in heterogeneous materials for high conductivity rates,” in: Heat and Mass Transfer [in Russian], Vol. 5, Minsk (1968), pp. 3–15.
S. Vagi and N. Wakao, “Heat and mass transfer from wall to fluid in packed beds,” AIChEJ,5, No. 1, 79–85 (1959).
A. P. Baskakov, B. V. Berg, O. K. Vitt, Yu. M. Goldobin, V. M. Suprun, and N. F. Filippovskii, “Heat and mass transfer in semiliquified layer,” in: The Second All-Soviet Council on Semiliquified Layers [in Russian], Ivanovo (1971), pp. 168–178.
A. P. Baskakov and V. M. Suprun, “Mass transfer from surface immersed in boiling layer,” Khim. Prom., No. 9, 58–61 (1970).
T. D. Gabor, “Heat transfer to particle beds with gas flows less thanor equal to that required for incipient fLuidization,” Chem. Eng. Sci.,25, No. 6, 979–984 (1970).
A. P. Baskakov and V. M. Suprun, “Convective heat transfer from surface to fluidized layer,” Khim. i Neft. Mashinostr., No. 3, 20–21 (1971).
Additional information
Translated from Khimicheskoe i Neftyanoe Mashinostroente, No. 5, pp. 21–22, May, 1974.
Rights and permissions
About this article
Cite this article
Suprun, V.M. “Packet” mechanism for mass transfer between a surface and semifluidized layer. Chem Petrol Eng 10, 423–425 (1974). https://doi.org/10.1007/BF01137251
Issue Date:
DOI: https://doi.org/10.1007/BF01137251