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C. van Heerden, A. P. P. Nobel, and D. W. Krevelen, “Mechanism of heat transfer in fluidized beds,” Industr. Engng. Chem., vol. 45, no. 6, pp. 1237–1242, 1953.
H. S. Mickley and D. F. Fairbanks, “Mechanism of heat transfer to fluidized bed,” A. J. Ch. E. Journal, vol. 1, no. 3, pp. 374–384, 1955.
S. S. Zabrodskii, “Analysis of experimental data on heat transfer in fluidized beds,” IFZh, vol. 1, no. 4, pp. 22–30, 1958.
R. Ernst, “Der Mechanismus des Wärmeüberganges an Wärmeaustauscher in Fliessbetten (Wirbelschichten), Chem. Ing. Techn., vol. 31, no. 3, pp. 166–173, 1959.
E. Rukenshtein, “The mechanism of heat and mass transfer in fluidized beds,” Zh. prikl. khimii, vol. 35, no. 1, pp. 70–80, 1962.
H. Reuter, “Mechanismus der Blasen im Gas-Feststoff-Flieβbett,” Chem Ing. Techn., vol. 35, no. 3, pp. 219–228, 1963.
O. M. Todes and A. K. Bondareva, “Heat transfer from a fluidized bed to a heat transfer surface,” collection: Applications of the Fluidized Bed in the National Economy [in Russian], Central Sci. Res. Inst. Inform. and Tech.-Econ. Research in Nonferrous Metallurgy, Moscow, 1965.
A. P. Baskakov, “Mechanism of heat transfer between a fluidized bed and a surface,” vol. 6, no. 11, pp. 20–25, 1963.
N. I. Gal'perin, V. G. Ainshtein, and A. V. Zaikovskii, “Mechanism of heat transfer between a surface and an inhomogeneous granular fluidized bed,” Khim. prom-st, no. 6, 1966.
V. P. Myasnikov, “Dynamic equations of motion of two-component systems,” PMTF [Journal of Applied Mechanics and Technical Physics], no. 2, 1967.
V. P. Myasnikov, “Heat and mass transfer processes in fluidized beds,” Proc. 3-rd All-Union Conference on Heat and Mass Transfer, vol. 9, [in Russian], Minsk, 1968.
V. P. Myasnikov, “Kinetic model of heat transfer processes in a fluidized bed,” Izvestiya AN SSSR. ZHhG [Fluid Dynamics], no. 4, 1967.
N. I. Syromyatnikov, L. K. Vasanova, and Yu. N. Shimanskii, Heat and Mass Transfer in the Fluidized Bed [in Russian], Khimiya, Moscow, 1967.
L. K. Vasapova, “Thickness of the active zone in a fluidized bed,” Tsvetn. metally, no. 2, 1965.
V. P. Myasnikov, “Distribution of suspended particles in a fluidized bed,” PMTF [Journal of Applied Mechanics and Technical Physics], no. 3, 1968.
V. D. Goroshko, B. R. Rozenbaum, and O. M. Todes, “Approximate laws of hydraulics of a suspended bed and constrained fall,” Izvestiya VUZ, Neft i gaz, no. 1, 1958.
E. Wicke and F. Fetting, “Wärmeübertragung in Gaswirbelschichten,” Chem.-Ing, Techn., vol. 26, no. 6, pp. 301–309, 1954.
H. S. Mickley and Ch. A. Trilling, “Heat transfer characteristics of fluidized beds,” Industr. Engng. Chem., vol. 41, pp. 1135–1147, 1949.
The authors thank V. G. Levich for his interest and valuable comments.
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Myasnikov, V.P., Rozhdestvenskaya, M.S. Heat transfer between a surface and a fluidized bed. J Appl Mech Tech Phys 9, 762–768 (1968). https://doi.org/10.1007/BF00912884
- Heat Transfer
- Mathematical Modeling
- Mechanical Engineer
- Industrial Mathematic