Numerical Simulation of Mixing Process in a Splitting-and-Recombination Microreactor

Yan, Lifang and Wang, Shiteng and Cheng, Yi (2022) Numerical Simulation of Mixing Process in a Splitting-and-Recombination Microreactor. Frontiers in Chemical Engineering, 3. ISSN 2673-2718

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Abstract

The mixing process between miscible fluids in a splitting-and-recombination microreactor is analyzed numerically by solving the Navier–Stokes equation and species transfer equation. The commercial microreactor combines rectangular channels with comb-shaped inserts to achieve the splitting-and-recombination effect. The results show that the microreactor with three-layer standard inserts have the highest mixing rate as well as good mixing efficiency within a wide range of Reynolds numbers from 0.1 to 160. The size parameters of the inserts, both the ratio of the width of comb tooth (marked as l) and the spacing distance (marked as s) between two comb teeth, and the ratio of the vertical distance (marked as V) of comb teeth and the horizontal distance (marked as H) are essential for influencing the liquid–liquid mixing process at low Reynolds numbers (e.g., Re ≤ 2). With the increase of s/l from 1 to 4, the mixing efficiency drops from 0.99 to 0.45 at Re = 0.2. Similarly, the increase in V/H is not beneficial to promote the mixing between fluids. When the ratio of V/H changes from 10:10 to 10:4, the splitting and recombination cycles reduce so that the uniform mixing between different fluids can be hardly achieved. The width of comb tooth (marked as l) is 1 mm and the spacing distance (marked as s) between two comb teeth is 2 mm. The vertical distance (marked as V) of comb teeth and the horizontal distance (marked as H) are both 10 mm.

Item Type: Article
Subjects: Euro Archives > Engineering
Depositing User: Managing Editor
Date Deposited: 08 Mar 2023 06:42
Last Modified: 17 Jun 2024 05:42
URI: http://publish7promo.com/id/eprint/608

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