Experimental Investigation of the Enthalpy of Isobutane−Compressor Oil Solutions // Journal of Chemical & Engineering Data. - 2010. - Vol.55, №3. - С. 1322-1326 Кл.слова (ненормированные): ISOBUTANE -- REFRIGERANT?OIL -- ENTHALPY Аннотация: This paper reports new experimental data for the specific enthalpy of the solution of isobutane (refrigerant R600a, CH(CH3)2−CH3, CAS Registry No. 75-28-5) with mineral naphthenic compressor oil WF 15A. The experimental data were obtained in the temperature range from (273 to 355) K by a mixing method realized in an ice calorimeter. The behavior of the temperature and weight fraction dependencies of the enthalpy for the refrigerant−oil solution (ROS) of R600a and mineral compressor oil WF 15A have been examined |
C 73 Comparison of thermophysical properties for oil/refrigerant mixtures by use of the pulse heating method / P. V. Skripov, A. A. Starostin, D. V. Volosnikov, V. P. Zhelezny // International Journal of refrigeration. - 2003. - Vol.26, №6. - С. 721-728 Рубрики: ФИЗИКА Кл.слова (ненормированные): REFRIGERANT -- LUBRICANT -- MIXTURES Аннотация: The method of pulse heating for the study of thermophysical properties for oil/refrigerant solutions in a wide temperature range and for monitoring of an actual state of these systems has been developed. The regimes of linear heating and thermostabilization of the superheated probe are applied for solving our task. The objects of study are as follows: synthetic oils Mobil EAL Arctic 22, PLANETELF ACD22, XMPA, and solutions of carbon dioxide in these oils. The upper boundary, with respect to temperature, of the two-phase equilibrium region including the vicinity of the liquid–vapour critical curve of these systems, gas solubility in oils at various temperatures, short-time thermostability, and thermal conductivity of oils are considered. Inclusion of the thermally unstable states of a substance in investigation allows one to essentially extend the set of compared data |
E 97 Experimental investigation of the enthalpy of isobutane-compressor oil solutions [Electronic resource] / V. P. Zhelezny, S. V. Nichenko, Yu. V. Semenyuk, P. V. Skripov // Journal of Chemical & Engineering Data. - 2010. - Vol.55, №3. - P1322-1326. - Bibliogr. : p. 1326 (16 ref/) Рубрики: ФИЗИКА Кл.слова (ненормированные): ENTHALPY OF ISOBUTANE -- OILS -- SOLUTIONS Аннотация: This paper reports new experimental data for the specific enthalpy of the solution of isobutane (refrigerant R600a, CH(CH3)2-CH3, CAS Registry No. 75-28-5) with mineral naphthenic compressor oil WF 15A. The experimental data were obtained in the temperature range from (273 to 355) K by a mixing method realized in an ice calorimeter. The behavior of the temperature and weight fraction dependencies of the enthalpy for the refrigerant-oil solution (ROS) of R600a and mineral compressor oil WF 15A have been examined \\\\expert2\\NBO\\Journal of Chemical and Engineering Data\\2010, v.55, p.1322.pdf |
Experimental Investigation of the Enthalpy of Isobutane−Compressor Oil Solutions // Journal of Chemical & Engineering Data. - 2010. - Vol.55, №3. - С. 1322-1326 Кл.слова (ненормированные): ISOBUTANE -- REFRIGERANT?OIL -- ENTHALPY Аннотация: This paper reports new experimental data for the specific enthalpy of the solution of isobutane (refrigerant R600a, CH(CH3)2−CH3, CAS Registry No. 75-28-5) with mineral naphthenic compressor oil WF 15A. The experimental data were obtained in the temperature range from (273 to 355) K by a mixing method realized in an ice calorimeter. The behavior of the temperature and weight fraction dependencies of the enthalpy for the refrigerant−oil solution (ROS) of R600a and mineral compressor oil WF 15A have been examined |
C 73 Comparison of thermophysical properties for oil/refrigerant mixtures by use of the pulse heating method / P. V. Skripov, A. A. Starostin, D. V. Volosnikov, V. P. Zhelezny // International Journal of refrigeration. - 2003. - Vol.26, №6. - С. 721-728 Рубрики: ФИЗИКА Кл.слова (ненормированные): REFRIGERANT -- LUBRICANT -- MIXTURES Аннотация: The method of pulse heating for the study of thermophysical properties for oil/refrigerant solutions in a wide temperature range and for monitoring of an actual state of these systems has been developed. The regimes of linear heating and thermostabilization of the superheated probe are applied for solving our task. The objects of study are as follows: synthetic oils Mobil EAL Arctic 22, PLANETELF ACD22, XMPA, and solutions of carbon dioxide in these oils. The upper boundary, with respect to temperature, of the two-phase equilibrium region including the vicinity of the liquid–vapour critical curve of these systems, gas solubility in oils at various temperatures, short-time thermostability, and thermal conductivity of oils are considered. Inclusion of the thermally unstable states of a substance in investigation allows one to essentially extend the set of compared data |
E 97 Experimental investigation of the enthalpy of isobutane-compressor oil solutions [Electronic resource] / V. P. Zhelezny, S. V. Nichenko, Yu. V. Semenyuk, P. V. Skripov // Journal of Chemical & Engineering Data. - 2010. - Vol.55, №3. - P1322-1326. - Bibliogr. : p. 1326 (16 ref/) Рубрики: ФИЗИКА Кл.слова (ненормированные): ENTHALPY OF ISOBUTANE -- OILS -- SOLUTIONS Аннотация: This paper reports new experimental data for the specific enthalpy of the solution of isobutane (refrigerant R600a, CH(CH3)2-CH3, CAS Registry No. 75-28-5) with mineral naphthenic compressor oil WF 15A. The experimental data were obtained in the temperature range from (273 to 355) K by a mixing method realized in an ice calorimeter. The behavior of the temperature and weight fraction dependencies of the enthalpy for the refrigerant-oil solution (ROS) of R600a and mineral compressor oil WF 15A have been examined \\\\expert2\\NBO\\Journal of Chemical and Engineering Data\\2010, v.55, p.1322.pdf |