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W3125977324 abstract "Liquid manipulation by photoisomerization attracts recent attentions as a new active droplet control method for micro-chemical analysis. Such a non-inverse manipulation can be realized by a use of solution liquid of surfactant that exhibits the emph{cis}-emph{trans} isomerization triggered by light irradiation with a specific wavelength such as ultraviolet light. Since the isomerization is accompanied by changes in fluid properties, a light irradiation on one of liquid-air interfaces of a liquid column in a tube would generate differences in the wettability accompanied between the both sides of the finite liquid column. Although this technique has been demonstrated experimentally by Muto et al. (emph{Euro.~Phys.~J.~Special Topics}, {bf 226}, 2016, 1199--1205), its dynamics and developments of each isomer distribution are not understood. In order to reveal the liquid-column migration phenomenon, we have performed numerical simulations of air-liquid two-phase flows and its scalar transport of the isomer, using the Volume-of-Fluid method in conjunction with the Continuum-Surface-Force model and Continuous-Species-Transfer method. We validated present results by comparison with experimental result in terms of the migration distance of the liquid column. We confirmed a termination of the liquid-column migration occurs when the emph{cis} isomer distribution reaches the non-irradiated region. The migration speed was less dependent on the liquid-column length and was proportional to the tube diameter." @default.
W3125977324 created "2021-02-01" @default.
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W3125977324 date "2018-10-18" @default.
W3125977324 modified "2023-10-17" @default.
W3125977324 title "Numerical Demonstration of In-Tube Liquid-Column Migration Driven by Photoisomerization" @default.
W3125977324 doi "https://doi.org/10.20944/preprints201810.0412.v1" @default.
W3125977324 hasPublicationYear "2018" @default.
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