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V. I. Subbotin, M. Kh. Ibragimov, P. A. Ushakov, et al., Hydrodynamics and Heat Exchange in Atomic Power Plants [in Russian], Atomizdat, Moscow (1975).
M. Kh. Ibragimov, V. I. Subbotin, V. P. Bobkov, et al., Structure of Turbulent Flow and the Turbulent Heat-Transfer Mechanism in Channels [in Russian], atomizdat, Moscow (1978).
V. I. Subbotin et al., “Heat exchange during a flow of mercury and water in a closepacked rod bundle,” At. Énerg.,9, No. 6, 461–469 (1960).
V. I. Subbotin et al., “Heat removal in elements of liquid-metal-cooled reactors,” in: Transactions of the International Conference on the Peaceful Use of Atomic Energy [in Russian], Vol. 8, United Nations, New York, 192 (1965).
A. V. Zhukov et al., Methods of Calculating Heat Transfer by Liquid Metals in Regular Fuel-Element Lattices and Some New Experimental Data [in Russian], Preprint No. 404, FÉI, Obninsk (1973).
A. V. Zhukov, E. Ya. Sviridenko, and N. M. Matyukhin, Experimental Investigation of Temperature Fields and Heat Transfer in Triangular Lattices of Liquid-Metal-Cooled Fuel-Element Simulators [in Russian], Preprint No. 800, FÉI, Obninsk (1978).
A. V. Zhukov, V. I. Subbotin, and P. A. Ushakov, “Heat transfer upon longitudinal flow of a liquid metal around extended rod bundles,” in: Liquid Metals [in Russian], Atomizdat, Moscow, 149 (1967).
B. Nimmo and O. Dwyer, “Heat transfer to mercury flowing in-line through rod bundles,” J. Heat Transfer, Trans. ASME, Ser. C, Vol. 87 (1965).
V. M. Borishanskii, M. A. Gotovskii, and E. V. Firsova, “Heat transfer to liquid metals in longitudinally washed rod bundles,” At. Énerg.,27, No. 6, 549–552 (1969).
V. M. Borishanskii and É. V. Firsova, “Heat transfer upon longitudinal flow of metallic sodium around tube bundles,” At. Énerg.,14, No. 6, 584 (1963).
V. M. Borishanskii and É. V. Firsova, “Heat transfer to liquid metals upon longitudinal flow of metallic sodium around bundles,” At. Énerg.,16, No. 5, 457 (1964).
S. Kalish and O. Dwyer, “Heat transfer to NaK through unbuffled rod bundles,” Int. J. Heat Mass Transfer,10, 1533 (1967).
H. Gräber and M. Rieger, “Experimentelle Untersuchung des Wärmeübergangs an Flüssigmetalle (NaK) in parallel durchströmten Rohrbünddeln bei Konstanter unde exponentieller Wärmeflubdichteverteilung,” Atomkernenergie, vol. 19, No. 1, 23 (1972).
V. I. Subbotin et al., “Methods of calculating experimental regimes of fuel-element lattices, and a summary of the empirical data (heat removal by liquid metals),” in: Heat Transfer and Hydrodynamics in Cores and Steam Generators of Fast Reactors [in Russian], Czechoslovak Atomic Energy Commission, Czechoslovakia (1975).
V. P. Bobkov et al., Heat Transfer during Turbulent Flow of Various Coolants in Channels of a Triangular Lattice of Cylindrical Fuel Elements [in Russian], Preprint No. 448, FÉI, Obninsk (1973).
V. P. Bobkov, M. Kh. Ibragimov, and V. I. Subbotin, “Generalizing relationships for heat transfer in fuel assemblies of liquid-metal-cooled nuclear reactors,” Teplofiz. Vys. Temp.,10, No. 4, 795–803 (1972).
V. I. Subbotin, M. Kh. Ibragimov, and M. N. Ivanovskii, “Turbulent heat transfer during the flow of liquid metals,” Int. J. Heat Mass Transfer,4, 79–87 (1961).
Translated from Atomnaya Énergiya, Vol. 65, No. 6, pp. 423–426, December, 1988.
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Bobkov, V.P., Vinogradov, V.N. & Kozina, N.V. Analysis of data and recommendations on heat transfer by liquid metals in rod bundles. At Energy 65, 1007–1011 (1988). https://doi.org/10.1007/BF01122473
- Heat Transfer
- Liquid Metal