Abstract
Specific features of heat transfer are investigated at the “gas—solid” interface at low temperatures for the case of water vapor condensation.
Similar content being viewed by others
Abbreviations
- λ:
-
wavelength, nm
- nred :
-
reduced refractive index
- α:
-
angle of incidence, deg
- r:
-
thickness, μm
- p:
-
pressure, mm Hg
- T:
-
temperature, K
- Rred :
-
reduced reflection coefficient
- Ured :
-
reduced condensation rate
References
V. B. Yuferov, in: Nuclear Science and Engineering. Ser. Low-Temperature Adsorption and Cryogenic Vacuum [in Russian], Khar'kov (1973), Issue 1(4), pp. 41–47.
W. Schulze, D. Kolb, and G. Klipping, in: The Density of Cryopumped Gases, Berlin Dahlem (1975), pp. j6–j10.
K. E. Tempelmeyer and D. Mills, J. Appl. Phys.,39, No. 6, 2068–2069 (1968).
N. V. Atapina, D. N. Garipogly, A. S. Drobyshev, et al., Inzh.-Fiz. Zh.,61, No. 6, 960–966 (1991).
A. S. Drobyshev, “A dependence of a growth rate and thermal conductivity of gases cryocondensates on the temperature and pressure of the ‘gas—solid,’ phase transition” Candidate's Dissertation (Physics-Mathematics), [in Russian], Alma-Ata (1984).
M. Sagisaki, H. Suga, and S. Seki, in: Physics of Ice, New York (1969), pp. 329–335.
A. N. Delsemme and A. Wenger, Science,167, 44–45 (1970).
V. P. Koverda, N. M. Bogdanov, and V. P. Skripov, J. Non-Cryst. Sol.,57, 203–212 (1983).
Additional information
Kazakh State University, Alma-Ata. Translated from Inzhenerno-Fizicheskii Zhurnal, Vol. 63, No. 4, pp. 457–461, October, 1992.
Rights and permissions
About this article
Cite this article
Atapina, N.V., Garipogly, D.N., Drobyshev, A.S. et al. Condensation rate and coefficients of refraction and reflection of vacuum cryocondensates of water vapors on a metallic mirror. J Eng Phys Thermophys 63, 1023–1026 (1992). https://doi.org/10.1007/BF00853353
Received:
Issue Date:
DOI: https://doi.org/10.1007/BF00853353