ShareVAPOUR-LIQUID EQUILIBRIUM OF NITROGEN-OXYGEN MIXTURES AND AIR AT HIGH PRESSURE.
Author(s) : RAINWATER J. C., JACOBSEN R. T.
Type of article: Article
Summary
THE VAPOUR-LIQUID EQUILIBRIUM SURFACE OF THE BINARY MIXTURE NITROGEN-OXYGEN IS CORRELATED OVER AN EXTENDED CRITICAL REGION WITH THE LEUNG-GRIFFITHS MODEL AS MODIFIED BY RAINWATER AND MOLDOVER. DIFFERENT EXPERIMENTS ALONG ISOPLETHS, ISOTHERMS AND ISOBARS COLLECTIVELY PROVIDE ENOUGH DATA TO MAKE POSSIBLE THE DEVELOPMENT OF A REASONABLE CORRELATION. THE MODEL IS OPTIMIZED TO MODERN DATA AND IS SHOWN TO BE CONSISTENT WITH PIONEERING MEASUREMENTS DONE BEFORE 1930. AIR IN THE CRITICAL REGION CAN BE ACCURATELY MODELLED AS A NITROGEN-OXYGEN BINARY MIXTURE BY INCLUDING THE SMALL ARGON COMPONENT WITH OXYGEN.
Details
- Original title: VAPOUR-LIQUID EQUILIBRIUM OF NITROGEN-OXYGEN MIXTURES AND AIR AT HIGH PRESSURE.
- Record ID : 1988-2207
- Languages: English
- Source: Cryogenics - vol. 28 - n. 1
- Publication date: 1988
Links
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Indexing
- Themes: Thermodynamics and changes of state
- Keywords: Oxygen; Nitrogen; Calculation; Vapour; Air; Thermodynamic property; Mixture; Pressure
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