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arxiv: 1906.08323 · v2 · pith:7VKINNEEnew · submitted 2019-06-19 · ⚛️ physics.flu-dyn

Direct effect of solvent viscosity on the physical mass transfer for wavy film flow in a packed column

classification ⚛️ physics.flu-dyn
keywords columnpackedfilmmasstransferwavycoefficientdirect
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The interphase mass transfer plays a critical role in determining the height of packed column used in the absorption process. In a recent experiment (Song D. Ind. Eng. Chem. Res. 2018, 57, 718), the direct impact of viscosity ($\mu_L$) on the physical mass transfer coefficient ($k_L$) was observed to be higher in a packed column as compared to the wetted wall column. We offer a plausible mechanism involving the wavy film and eddy enhanced mass transfer in a packed column to explain the underlying physics via analytical and numerical studies. The analytically derived mass transfer coefficient matches well with experimental observation in a packed column. The countercurrent flow simulations in a packed column with both uniform and wavy films also confirm this behavior. The predicted $k_L$ shows steep variation with $\mu_L$ for a wavy film than a uniform film and further confirms the proposed theory. A similar relation ($k_L \propto \mu_L^{-0.38}$) for a wavy film is also observed in theoretical, experimental, and numerical studies.

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