Abstract
The fundamental experimental and computational investigations of thermodynamic properties of Freon-21 (fluorodichloromethane) were carried out in the late 1960s. However, the results obtained are not fully reflected in the reference handbooks [0.8–0.10 and others]. Thus, the tables for the values of ρ, h, and s on the saturation line, which were published in paper [2.1], are presented in the reference survey [0.34] and the tables in the single-phase region in handbook [0.10]. The tables of thermodynamic properties on the saturation line (recommended in books [0.8–0.10]) repeat the data calculated by Rombusch and Giesen [0.46, 2.37], which are based on a small number of measurements [2.23–2.37].
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
References
Altunin V. V., Spiridonov G. A., Kaekin V. C. Equation of state and thermodynamic properties of Freon-21.—Teploenergetika, 1969, No. 1, p. 79–82.
Vargaftik N. B., Filipov L. P., Tarzimanov A. A., Urchak R. P. Thermal conductivity of Gases and Liquids. Izd-vo Standartov, Moscow, 1970.
Vukalovich M. P., Altunin V. V. Thermophysical Properties of Carbon Dioxide. Ato-mizdat, Moscow, 1965; available in English translation from Collet’s Publishing Co., London.
Geller V. Z., Ivanchenko C. I., Kronberg A. V. Study of coefficients of dynamic viscosity of Freons of the methane series.—Thermophysical Properties of Substances and Materials. Gosstandart SSSR, GSSSD, 1975, 8, p. 148–161.
Geller V. Z., Peredri V. G. Study of thermal conductivity of Freon-21 and Freon-14.— Kholod. Tekh. Tekhnol., 1974, v. 9, p. 102–106.
Geller Z. I., Nikulshin R. K., Piatnitskaya N. I. Viscosity of bromide-based Freons.— Kholod. Tekh., 1969, No. 4, p. 60–65.
Gruzdev V. A., Shestova A. I. Thermal conductivity of liquid and gaseous Freon-21.— In: Study of Thermophysical Properties of Substances. Nauka, Novosibirsk, 1970, p. 144–149.
Gruzdev V. A., Shestova A. I., Selin V. V. Thermal conductivity of Freons.—In: Thermophysical Properties of Freons. Nauka, Novosibirsk, 1969, p. 62–74.
Gruzdev V. A., Shumskaya A. I. Experimental Study of Heat Capacity of Vapors of Freons: F-ll, F-12, F-13, F-21, F-22, and F-23.—Thermophysical Properties of Substances and Materials. Gosstandart SSSR, GSSSD, 1975, 8, p. 108–130.
Kalafati D. D., Raskazov D.C., Petrov E. K., Kaekin V. C. Experimental study of pvT variables for Freon-21.—Teploenergetika, 1968, No. 11, p. 80–83.
Kalafati D. D., Raskazov D. C., Petrov E. K., Kaekin V. C. Experimental Study of pvT Behavior of Freon-21.—In: Tr. Vses. Nauchno.—Tekhn. Konf. Termod., v. 2, Thermophysical Properties of Substances, 1969, p. 289–291.
Lavrov V. A., Sheludyakov E. P., Soloviov A. N. Study of heat capacity c p of liquid phase of Freon-21 and Freon-14B on the saturation line.—In: Thermophysical Properties of Freons. Nauka, Novosibirsk, 1969, p. 24–35.
Raskazov D. C, Babikov U. M., Filatov N. Y. Experimental investigation of viscosity for some Freons of the methane series.—Tr. Mosk. Energ. Inst., 1975, No. 234, p. 90–96.
Tsvetkov O. B. Investigation of thermal conductivity of liquid Freons.—Enzh. Fiz. Zh., 1965, v. 9, No. 6, p. 810–815.
Sheludyakov E. P., Komarov C. G., Kolotov N. L., Soloviov A. N. Experimental investigation of speed of sound in vapors and liquids.—In: Study of Thermophysical Properties of Substances. Nauka, Novosibirsk, 1967, p. 159–180.
Sheludyakov E. P., Kolotov N. L., Soloviov A. N.Study of speed of sound in Freons at low frequencies using the stationary wave method in a resonator.—In: Thermophysical Properties of Freons. Nauka, Novosibirsk, 1969, p. 96–120.
Sheludyakov E. P., Buzhdan Y. M., Kolotov Y. L. Thermodynamic properties of Freon-21.—Thermophysical Properties of Substances and Materials. Gosstandart SSSR, GSSSD, 1971, v. 4, p. 100–124.
Sheludyakov E. P., Shilyakov A. A. Equation of state of Freon-21 and Freon-114B2.—Kholod. Tekh., 1971, No. 3, p. 35–38.
Shilyakov A. A., Sheludyakov E. P., Soloviov A. N. Experimental study of density of Freon-21 and Freon-114B2 using constant-volume piezometer.—In: Thermophysical Properties of Freons. Nauka, Novosibirsk, 1969, p. 6–24.
Shumskaya A. I., Gruzdev V. A. Constant-pressure heat capacity of vapors of Freons. —In: Thermophysical Properties of Freons. Nauka, Novosibirsk, 1969, p. 35–43.
Shilyakov A. A. Experimental Study of Thermal Properties and Critical Parameters of Freons F-21 and F-114B2. Author’s Abstract of Candidate Thesis. SO AN, SSSR, Novosibirsk, 1971.
ASHRAE handbook of fundamentals, 1968, v. 15, p. 213–224.
Benning A. F. McHarness R. C. Thermodynamic properties of fluorochloromethanes and —ethanes. Orthobaric densities and critical constants of three fluorochloromethanes and tri-fluorotrichloroethane.—Ind. Eng. Chem., 1940, v. 32, No. 6, p. 814–816.
Benning A. F., McHarness R. C. Vapor Pressure of three fluorochloromethanes and trifluorotrichloroethane.—Ind. Eng. Chem., 1940, v. 32, No. 4, p. 497–503.
Benning A. F., McHarness R. C. p—v—T relations of three fluorochloromethanes and thifluorotrichloroethane.—Ind. Eng. Chem., 1940, v. 32, No. 5, 698–701.
Benning A. F., McHarness R. C. Orthobaric densities and critical constants of three fluorochloromethanes and trifluorotrichloroethane.—Ind. Eng. Chem., 1940, v. 32, No. 6, p. 814–816.
Benning A. F., McHarness R. C, Markwood W. H., Smith W.T. Heat capacity of the liquid and vapor of three fluorochloromethanes and trifluorotrichloroethane.—Ind. Eng. Chem., 1940, v. 32, No. 7, p. 976–980.
Challoner A., Powell R. The thermal conductivities of liquids.—Proc. Roy. Soc, 1956, Ser. A 238, p. 1212–1218.
Gallant R. W.—In: Physical properties of hydrocarbons.—Hydrocarbon processing, 1965, 2, p. 113–120.
Kamien C, Witzell O. Effect of pressure and temperature on the viscosity of refrigerants in the vapor phase.—ASHRAE Trans., 1959, v. 65, p. 663–674.
Liley P. The thermal conductivity of 46 gases at atmosphere pressure.—Proc. fourth symposium on thermophysical properties. April 1–4, ASME, N.Y., 1968, p. 323.
Makita T. The viscosity of Freons under pressure.—Rev. Phys. Chem. (Japan), 1954, v. 24, No. 2, p. 74–80.
Markwood W., Benning A. Thermal conductances and heat transmission coefficients of freon refrigerants.—J. ASHRAE, 1943, No. 2, p. 95–99.
Masia A., Bracero V., Rienda B. Variacion de la conductividad calorífica con la presión en ocho derivados halogendos del metano.—Anal, real soc. esp fis. guim., 1964, v. A 60, No. 1–2, p. 89–108.
Powell R., Challoner A. New measurements of the thermal conductivities of several liquid refrigerants of the fluorochloro derivative types.—In: Proc. X Internat. Congr. Refrig., Kopenhagen, v. 1, 1959, p. 382–387.
Powell R., Jolliffee B., Tye R., Longton A. The thermal conductivities of some liquid refrigerants.—Bull. Inst. Internat, du Froid. Paris, 1966, Annexe 2, p. 79–88.
Rombusch U. K., Giesen H. Dampftafel des Kältemittels R 21 (Monofluordichlor-methan CHFC12).—Kältetechnik, 1968, Bd. 20, S. 93–94.
Witzell O., Jonson J. The viscosity of liquid and vapor refrigerants.—ASHRAE Trans., 1965, v. 71, p. 30–36.
Woodline H. Chimie et industrie genie chemique.— 1969, v. 5, s. 101, s. 612.
Ziebland H. The thermal conductivity of toluene. New determinations and an appraisal of recent experimental work.—Internat. J. Heat Mass Transfer, 1961, v. 2, p. 273–279.
Editor information
Rights and permissions
Copyright information
© 1987 Springer-Verlag Berlin Heidelberg
About this chapter
Cite this chapter
Altunin, V.V., Geller, V.Z., Petrov, E.K., Rasskazov, D.C., Spiridonov, G.A. (1987). Thermophysical Properties of Freon-21. In: Selover, T.B. (eds) Thermophysical Properties of Freons. National Standard Reference Data Service of the USSR: A Series of Property Tables, vol 8. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-662-30483-9_2
Download citation
DOI: https://doi.org/10.1007/978-3-662-30483-9_2
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-662-30485-3
Online ISBN: 978-3-662-30483-9
eBook Packages: Springer Book Archive