Experimental study of gas phase mass transfer coefficients in gas condensate reservoirs

Gas condensate reservoirs as a proportion of worldwide gas reservoirs experiencing retrograde condensation throughout their production period have been consistently attracting research interests in recent decades. However, their compositional simulators usually consider local equilibrium assumption...

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Bibliographic Details
Published in:Journal of petroleum science & engineering 2019-02, Vol.173, p.1210-1221
Main Authors: Nekoeian, Sahand, Aghajani, Masoud, Alavi, Seyed Mehdi
Format: Article
Language:English
Subjects:
Compositional simulators
Effective diffusion coefficients
Gas condensate reservoirs
Local equilibrium assumption
Mass transfer coefficients
Specific interfacial area
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Summary:Gas condensate reservoirs as a proportion of worldwide gas reservoirs experiencing retrograde condensation throughout their production period have been consistently attracting research interests in recent decades. However, their compositional simulators usually consider local equilibrium assumption and neglect the non-equilibrium effect represented by gas phase mass transfer coefficients. Since no independent research has yet targeted mass transfer coefficients in gas condensate reservoirs, in this study, a series of flow tests were carried out using a novel experimental setup to address the issue. Correspondingly, separate empirical correlations were developed for methane and isobutane representing light and intermediate components respectively at two temperatures, thus two condensate saturation ranges. The results confirm the positive effect of pore gas velocity on gas phase mass transfer coefficients reported in NAPL volatilization related studies even in low gas flow rates. Also temperature, effective diffusion coefficient, condensate saturation, mean grain size and component types were shown to affect these coefficients. •The first study to address mass transfer coefficients in gas condensate reservoirs.•Proposing a novel experimental setup to conduct the research.•Proposing a new solution for one-dimensional advective-dispersive equation.•Developing new correlations for mass transfer coefficients of gas condensate reservoirs.•Analysis of the effects of different parameters on mass transfer coefficients of gas condensate reservoirs.
ISSN:0920-4105
1873-4715
DOI:10.1016/j.petrol.2018.10.096