Add to ORKGThe condensation of SF_6 in Ar carrier gas was investigated experimentally and theoretically in a conical supersonic nozzle. The numerical calculation was improved by assuming a temperature difference between the mixture and clusters. The temperature differences are determined from the coefficient of heat distribution Q_R between them. The coefficient Q_R is independent of the molar fraction of SF_6 and dependent upon the pressure in the reservoir only. The calculation shows that growing and evaporating clusters exist simultaneously in the greater part of the supersonic nozzle. These results agree with the experimental value for the pressure in the nozzle
Experiments in nozzles are extremely important because they provide higher rates of cooling, higher ...
An integral steady state model of nucleation and condensation was used to examine the formation and ...
We have developed a steady state 1-D model to examine the formation and growth of H2O/D2O droplets i...
[出版社版]The condensation of SF_6 carried in Ar has been studied experimentally in supersonic nozzle fl...
Unlike most other techniques used to study nucleation, supersonic nozzles do not yield nucleation ra...
Fractional condensation in seeded supersonic free jets of SF6 has been determined at different locat...
The condensation phenomenon of vapor plays an important role in various industries, such as the stea...
April 1967Includes bibliographical referencesExperiments were performed involving condensation of su...
A compressible viscous two-phase flow of SF_6 and Ar with condensation in a supersonic nozzle is cal...
We present data from the first systematic studies of binary condensation in supersonic nozzles. The ...
Supersonic nozzle experiments were performed with a fixed water or ethanol vapor pressure and varyin...
High-pressure non-equilibrium condensing flows are investigated in this paper through a quasi-1D Eul...
In the case of rapid expansion of steam in supersonic nozzle on the assumption that the steam is per...
Pressure trace measurements and small angle neutron scattering (SANS) were used to probe the binary ...
Condensation initiated by homogeneous nucleation has been investigated theoretically for the case of...
Experiments in nozzles are extremely important because they provide higher rates of cooling, higher ...
An integral steady state model of nucleation and condensation was used to examine the formation and ...
We have developed a steady state 1-D model to examine the formation and growth of H2O/D2O droplets i...
[出版社版]The condensation of SF_6 carried in Ar has been studied experimentally in supersonic nozzle fl...
Unlike most other techniques used to study nucleation, supersonic nozzles do not yield nucleation ra...
Fractional condensation in seeded supersonic free jets of SF6 has been determined at different locat...
The condensation phenomenon of vapor plays an important role in various industries, such as the stea...
April 1967Includes bibliographical referencesExperiments were performed involving condensation of su...
A compressible viscous two-phase flow of SF_6 and Ar with condensation in a supersonic nozzle is cal...
We present data from the first systematic studies of binary condensation in supersonic nozzles. The ...
Supersonic nozzle experiments were performed with a fixed water or ethanol vapor pressure and varyin...
High-pressure non-equilibrium condensing flows are investigated in this paper through a quasi-1D Eul...
In the case of rapid expansion of steam in supersonic nozzle on the assumption that the steam is per...
Pressure trace measurements and small angle neutron scattering (SANS) were used to probe the binary ...
Condensation initiated by homogeneous nucleation has been investigated theoretically for the case of...
Experiments in nozzles are extremely important because they provide higher rates of cooling, higher ...
An integral steady state model of nucleation and condensation was used to examine the formation and ...
We have developed a steady state 1-D model to examine the formation and growth of H2O/D2O droplets i...