skip to main content
OSTI.GOV title logo U.S. Department of Energy
Office of Scientific and Technical Information

Title: Volumetric Properties and Phase Relations of Binary H{sub 2}O-CO{sub 2}-CH{sub 4}-N{sub 2} Mixtures at 300 C and Pressures to 1000 Bars

Abstract

The volumetric properties and phase relations of binary mixtures of H{sub 2}0, CO{sub 2}, CH{sub 4} and N{sub 2} were determined experimentally at 3OO C, 74.4--999.3 bars, using a custom-built vibrating-tube densimeter. Densities of all single-phase fluids increase steadily with increasing pressure. At a given pressure, CO{sub 2}-rich H{sub 2}O-CO{sub 2} mixtures show a pronounced nonlinear decrease in density with increasing mole fraction CO, in marked contrast to the densities of N{sub 2}-rich H{sub 2}O-N{sub 2} mixtures which are nearly independent of composition. At pressure up to 500 bars, non-aqueous mixtures have much smaller excess molar volumes than gas-rich aqueous mixtures. H{sub 2}O-rich mixtures at pressures ca.86 bars, and CO{sub 2}-poor non-aqueous mixtures at 99.4 bars, exhibit negative excess molar volumes. Excess molar volumes for aqueous mixtures peak at 86 bars, then decrease monotonically with increasing pressure above 86 bars. The H{sub 2}O-CO{sub 2} liquid-vapor field widens continuously from 86 to ca.400 bars, then narrows with increasing pressure, closing at ca.565 bars, in sharp contrast to the H{sub 2}O-N{sub 2} liquid-vapor field, which widens continuously with increasing pressure to at least 1000 bars.

Authors:
; ;
Publication Date:
Research Org.:
Oak Ridge National Lab., TN (US)
Sponsoring Org.:
USDOE Office of Science (US)
OSTI Identifier:
755656
Report Number(s):
ORNL/CP-105951
TRN: AH200034%%86
DOE Contract Number:  
AC05-00OR22725
Resource Type:
Conference
Resource Relation:
Conference: 13th International Conference on the Properties of Water and Steam, Toronto, Ontario (CA), 09/12/1999--09/16/1999; Other Information: PBD: 12 Sep 1999
Country of Publication:
United States
Language:
English
Subject:
58 GEOSCIENCES; BINARY MIXTURES; DENSITY; FLUIDS; WATER VAPOR; CARBON DIOXIDE; METHANE; NITROGEN; PHASE STUDIES; VOLUME; PRESSURE DEPENDENCE

Citation Formats

Singh, J., Blencoe, J.G., and Anovitz, M. Volumetric Properties and Phase Relations of Binary H{sub 2}O-CO{sub 2}-CH{sub 4}-N{sub 2} Mixtures at 300 C and Pressures to 1000 Bars. United States: N. p., 1999. Web.
Singh, J., Blencoe, J.G., & Anovitz, M. Volumetric Properties and Phase Relations of Binary H{sub 2}O-CO{sub 2}-CH{sub 4}-N{sub 2} Mixtures at 300 C and Pressures to 1000 Bars. United States.
Singh, J., Blencoe, J.G., and Anovitz, M. Sun . "Volumetric Properties and Phase Relations of Binary H{sub 2}O-CO{sub 2}-CH{sub 4}-N{sub 2} Mixtures at 300 C and Pressures to 1000 Bars". United States. https://www.osti.gov/servlets/purl/755656.
@article{osti_755656,
title = {Volumetric Properties and Phase Relations of Binary H{sub 2}O-CO{sub 2}-CH{sub 4}-N{sub 2} Mixtures at 300 C and Pressures to 1000 Bars},
author = {Singh, J. and Blencoe, J.G. and Anovitz, M.},
abstractNote = {The volumetric properties and phase relations of binary mixtures of H{sub 2}0, CO{sub 2}, CH{sub 4} and N{sub 2} were determined experimentally at 3OO C, 74.4--999.3 bars, using a custom-built vibrating-tube densimeter. Densities of all single-phase fluids increase steadily with increasing pressure. At a given pressure, CO{sub 2}-rich H{sub 2}O-CO{sub 2} mixtures show a pronounced nonlinear decrease in density with increasing mole fraction CO, in marked contrast to the densities of N{sub 2}-rich H{sub 2}O-N{sub 2} mixtures which are nearly independent of composition. At pressure up to 500 bars, non-aqueous mixtures have much smaller excess molar volumes than gas-rich aqueous mixtures. H{sub 2}O-rich mixtures at pressures ca.86 bars, and CO{sub 2}-poor non-aqueous mixtures at 99.4 bars, exhibit negative excess molar volumes. Excess molar volumes for aqueous mixtures peak at 86 bars, then decrease monotonically with increasing pressure above 86 bars. The H{sub 2}O-CO{sub 2} liquid-vapor field widens continuously from 86 to ca.400 bars, then narrows with increasing pressure, closing at ca.565 bars, in sharp contrast to the H{sub 2}O-N{sub 2} liquid-vapor field, which widens continuously with increasing pressure to at least 1000 bars.},
doi = {},
journal = {},
number = ,
volume = ,
place = {United States},
year = {1999},
month = {9}
}

Conference:
Other availability
Please see Document Availability for additional information on obtaining the full-text document. Library patrons may search WorldCat to identify libraries that hold this conference proceeding.

Save / Share: