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Abstract
\nIn the process of oil recovery, residual oil exists in the form of separate droplets surrounded by the reservoir brine.
\nThe oil droplets can be mobilized by injecting brine of a different salinity and ion composition, thereby enhance the oil recovery.
\nThis is the so-called smart waterflooding. The mechanism of smart water flooding has not yet been well understood.
\nIn this project, we make efforts to understand the macroscopic phenomenon by studying the movement of an individual oil droplet in a microcapillary that resembles a pore throat of reservoir rocks.
\nA microfluidic setup is established to generate oil droplets and subsequently transfer a droplet into a capillary with a diameter of tens of micrometers. The movement of the droplet in the microcapillary is studied with varied salinity, ion composition, pH etc.
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Abstract
\nIn the process of oil recovery, residual oil exists in the form of separate droplets surrounded by the reservoir brine.
\nThe oil droplets can be mobilized by injecting brine of a different salinity and ion composition, thereby enhance the oil recovery.
\nThis is the so-called smart waterflooding. The mechanism of smart water flooding has not yet been well understood.
\nIn this project, we make efforts to understand the macroscopic phenomenon by studying the movement of an individual oil droplet in a microcapillary that resembles a pore throat of reservoir rocks.
\nA microfluidic setup is established to generate oil droplets and subsequently transfer a droplet into a capillary with a diameter of tens of micrometers. The movement of the droplet in the microcapillary is studied with varied salinity, ion composition, pH etc.
URL:https://www.cere.dtu.dk/da/Calendar/2019/05/CERE-Seminar-by-Tian-Wang DTSTAMP:20260613T064900Z UID:{CC5046BB-A72C-4ED0-B36A-0D48E339F72B}-20190523T070000Z-20190523T070000Z LOCATION: B229/R003 END:VEVENT END:VCALENDAR