Gas hydrates in low water content gases: Experimental measurements and modelling using the CPA equation of state

Antonin Chapoy; Haghighi Hooman; Rhoderick William Burgass; Bahman Tohidi Kalorazi

doi:10.1016/j.fluid.2009.11.026

Gas hydrates in low water content gases: Experimental measurements and modelling using the CPA equation of state

Antonin Chapoy, Haghighi Hooman, Rhoderick William Burgass, Bahman Tohidi Kalorazi

Research output: Contribution to journal › Article › peer-review

45 Citations (Scopus)

Abstract

In this communication, new experimental data are reported for the water content of methane and two synthetic gas mixtures in equilibrium with hydrates at pressures range from 5 to 40. MPa and temperature down to 251.65. K. The measurements have been made on equilibrated samples taken from a high-pressure variable volume hydrate cell using a new analyser based upon tuneable diode laser absorption spectroscopy (TDLAS) technology. A statistical thermodynamic approach, with the Cubic-Plus-Association equation of state, is employed to model the phase equilibria. The hydrate-forming conditions are modelled by the solid solution theory of van der Waals and Platteeuw. The thermodynamic model was used to predict the water content of methane and synthetic gases in equilibrium with gas hydrates.

Original language	English
Pages (from-to)	9-14
Number of pages	6
Journal	Fluid Phase Equilibria
Volume	296
Issue number	1
DOIs	https://doi.org/10.1016/j.fluid.2009.11.026
Publication status	Published - 15 Sept 2010

Keywords

CPA equation of state
Experimental data
Gas hydrate
Methane
Thermodynamic modelling
Water
Water content

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10.1016/j.fluid.2009.11.026

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abstract = "In this communication, new experimental data are reported for the water content of methane and two synthetic gas mixtures in equilibrium with hydrates at pressures range from 5 to 40. MPa and temperature down to 251.65. K. The measurements have been made on equilibrated samples taken from a high-pressure variable volume hydrate cell using a new analyser based upon tuneable diode laser absorption spectroscopy (TDLAS) technology. A statistical thermodynamic approach, with the Cubic-Plus-Association equation of state, is employed to model the phase equilibria. The hydrate-forming conditions are modelled by the solid solution theory of van der Waals and Platteeuw. The thermodynamic model was used to predict the water content of methane and synthetic gases in equilibrium with gas hydrates.",

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author = "Antonin Chapoy and Haghighi Hooman and Burgass, {Rhoderick William} and {Tohidi Kalorazi}, Bahman",

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AU - Chapoy, Antonin

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PY - 2010/9/15

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N2 - In this communication, new experimental data are reported for the water content of methane and two synthetic gas mixtures in equilibrium with hydrates at pressures range from 5 to 40. MPa and temperature down to 251.65. K. The measurements have been made on equilibrated samples taken from a high-pressure variable volume hydrate cell using a new analyser based upon tuneable diode laser absorption spectroscopy (TDLAS) technology. A statistical thermodynamic approach, with the Cubic-Plus-Association equation of state, is employed to model the phase equilibria. The hydrate-forming conditions are modelled by the solid solution theory of van der Waals and Platteeuw. The thermodynamic model was used to predict the water content of methane and synthetic gases in equilibrium with gas hydrates.

AB - In this communication, new experimental data are reported for the water content of methane and two synthetic gas mixtures in equilibrium with hydrates at pressures range from 5 to 40. MPa and temperature down to 251.65. K. The measurements have been made on equilibrated samples taken from a high-pressure variable volume hydrate cell using a new analyser based upon tuneable diode laser absorption spectroscopy (TDLAS) technology. A statistical thermodynamic approach, with the Cubic-Plus-Association equation of state, is employed to model the phase equilibria. The hydrate-forming conditions are modelled by the solid solution theory of van der Waals and Platteeuw. The thermodynamic model was used to predict the water content of methane and synthetic gases in equilibrium with gas hydrates.

KW - CPA equation of state

KW - Experimental data

KW - Gas hydrate

KW - Methane

KW - Thermodynamic modelling

KW - Water

KW - Water content

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DO - 10.1016/j.fluid.2009.11.026

M3 - Article

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JO - Fluid Phase Equilibria

JF - Fluid Phase Equilibria

IS - 1

ER -

Gas hydrates in low water content gases: Experimental measurements and modelling using the CPA equation of state

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Keywords

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