Data di Pubblicazione:
2023
Citazione:
Convective dissolution of carbon dioxide into brine in a three-dimensional free medium / P. Fruton, A. Nauruzbaeva, H. Bataller, C. Giraudet, A. Vailati, F. Croccolo. - 8:2(2023 Feb 27), pp. 023503.1-023503.15. [10.1103/PhysRevFluids.8.023503]
Abstract:
When carbon dioxide (CO2) is layered on top of brine, the diffusion occurring at the interface generates an intermediate layer denser than the brine one. This may generate a convective process that accelerates CO2 dissolution into the brine. Here, we use the shadowgraph method and a sample cell geometry with a large width/height aspect ratio to investigate the 3D behavior of the convective dissolution of CO2 in brine in a free medium. This process is driven by the instability of the denser boundary layer formed at the interface between the two phases and is totally independent of the overall vertical size. When the purely diffusive mass transfer get disrupted, we observe the development of complex 3D structures, consisting of CO2-rich falling sheets at the liquid-liquid interface. This pattern could not be detected in 2D Hele-Shaw studies, mainly used in the literature. The experiments have been performed over a broad range of CO2 pressures, close to the process-relevant conditions, and show that the convective mass transfer is governed by the critical thickness of the mixing layer at the onset of convection, and that the process can be described by a scale-free universal model.
Tipologia IRIS:
01 - Articolo su periodico
Elenco autori:
P. Fruton, A. Nauruzbaeva, H. Bataller, C. Giraudet, A. Vailati, F. Croccolo
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