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Microfluidic mass transfer of supercritical CO2 in brine

Junyi Yang, Peichun Amy Tsai

2024Chemical Engineering Science12 citationsDOIOpen Access PDF

Abstract

In the context of carbon sequestration in saline aquifers, we investigate CO2 transport dynamics in brine under reservoir-like conditions (P = 8 MPa, T = 50∘C) using microfluidics. We quantify the mass transfer of supercritical CO2 in brine across a range of concentrations (0–1 M) and liquid flow rates (15–60 μL/min) for the first time. We find the volumetric mass transfer coefficient kLa ranges from 50.3 to 144.0 s−1, increasing with flow rate and, to a lesser extent, with salinity. More importantly, the kLa value for supercritical CO2 in brine at a higher temperature shows a significant enhancement of >50% compared to gas and liquid CO2 in water. Our analysis, incorporating a theoretical mass transfer model, points to a dominant contribution from the liquid film to the overall kLa, nearly doubling that of the emulsion caps, attributed to the thin film's larger surface area and dynamic renewal.

Topics & Concepts

Supercritical fluidBrineMass transferEmulsionSupercritical carbon dioxideChemistryMicrofluidicsVolumetric flow rateMass transfer coefficientContext (archaeology)Carbon dioxideSupercritical fluid extractionAnalytical Chemistry (journal)Chemical engineeringChromatographyThermodynamicsMaterials scienceGeologyNanotechnologyPaleontologyOrganic chemistryEngineeringPhysicsBiochemistryCO2 Sequestration and Geologic InteractionsGroundwater flow and contamination studiesEnhanced Oil Recovery Techniques
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