Article Dans Une Revue Journal of Water Process Engineering Année : 2023

3-D computational fluid dynamics modeling of a hollow fiber membrane contactor ozonation process

Alice Schmitt
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Cyril Chevarin
Denis Bouyer

Résumé

Ozonation processes have been successfully used to remove organic micropollutants. Membrane contactors can transfer the ozone via a bubbleless process, making them promising devices for many applications thanks to a good control of the transferred ozone. Here we studied the local transfer of ozone into water through a single and a multi-fiber membrane contactor by developing a 3-D model in a Comsol Multiphysics® workflow. To our knowledge, this is the first model to combine 3-D analysis and a multi-fiber membrane contactor for an ozonation application. The model established here could serve as a startpoint for optimizing bubbleless processes and scaling up membrane contactor processes, including the ozonation of micropollutants. Dedicated experiments were performed to check the model. Using of a 3-D modeling approach makes it possible to account for the non-ideal effects that occur in hollow fiber membrane contactors. The simulations highlighted hydrodynamics as a very important factor to ensure good distribution of ozone and therefore good treatment of pollutants. Moreover, the transferred ozone does not increase proportionally with increasing membrane length or residence time. Finding the right compromise between contactor length and fibers number can help optimize the contactor geometry and thus make the process as effective as possible.

Dates et versions

hal-04861665 , version 1 (02-01-2025)

Identifiants

Citer

Alice Schmitt, Cyril Chevarin, Julie Mendret, Stephan Brosillon, Denis Bouyer. 3-D computational fluid dynamics modeling of a hollow fiber membrane contactor ozonation process. Journal of Water Process Engineering, 2023, 51, pp.103362. ⟨10.1016/j.jwpe.2022.103362⟩. ⟨hal-04861665⟩
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