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Investigation of density inversion induced by gas charges into oil reservoirs using diffusion equations

Julian Y. Zuo, Yi Chen, Shu Pan, Kang Wang and Oliver C. Mullins

Energy, 2016, vol. 100, issue C, 199-216

Abstract: A reservoir crude oil consists of dissolved gas, liquid and dissolved solid (asphaltenes). It is well known that asphaltene solubility in oil decreases with an increase in solution gas content (gas/oil ratio, GOR). For example, a late gas charge into a reservoir crude oil over geologic time can cause asphaltene instability and phase separation to form a tar mat. This tar mat is often spatially separated by significant distances from the location of the asphaltene instability, thus requiring asphaltene migration in porous media at rates greatly exceeding diffusive velocities. Therefore, a dynamic mechanism is proposed to account for these known observations. Diffusive entry of gas from a gas cap into an oil column gives rise to chemical potential gradients (diffusion driving forces). The cross-term effect in diffusion makes asphaltenes move in the opposite direction to the concentration gradient in a certain region, which is referred to as the gas expulsion effect. On the other hand, the diagonal-term effect in diffusion moves asphaltenes along the concentration gradient. Consequently, both competing effects result in asphaltene concentration fingering at a certain location and thus creates fluid density inversion. In turn, this fluid density inversion in the oil column leads to gravity currents (gravitational instability – diffusion induced convection) that enable the migration of asphaltenes over large distances in porous media over geologic time.

Keywords: Density inversion; Gas charge; Asphaltenes; Diffusion model; The Flory-Huggins-Zuo equation of state (search for similar items in EconPapers)
Date: 2016
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Persistent link: https://EconPapers.repec.org/RePEc:eee:energy:v:100:y:2016:i:c:p:199-216

DOI: 10.1016/j.energy.2016.01.081

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