A low-dissipative and accurate method of simulating the unsteady mixing process

Yunhu Gao; Zhong-Nan Wang; Zhihong Xu

doi:10.1016/j.cej.2023.141760

A low-dissipative and accurate method of simulating the unsteady mixing process

Yunhu Gao^*, Zhong-Nan Wang, Zhihong Xu^*

^*Corresponding author for this work

Metallurgy and Materials

Research output: Contribution to journal › Article › peer-review

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Abstract

Micro/milli-reactors have been widely used because of their advantages, e.g., intrinsic safety, fast heat transfer and exquisite control of the reaction conditions. However, the mixing efficiency in microreactors is often limited by slow molecular diffusion in steady laminar flow. The mixing efficiency is higher in the unsteady state, but the lack of an accurate simulation method for unsteady mixing limits the development of highly efficient mixers. Thus, this work establishes a new method to precisely simulate the unsteady mixing process, without being affected by numerical diffusion, based on the Lagrangian scalar transport equation. The method is validated by experimental results. Sensitivity analyses are conducted to confirm the simulation results. The accurate simulation of the mixing process will reduce the number of experiments, hence accelerating the development of highly efficient mixers.

Original language	English
Article number	141760
Number of pages	8
Journal	Chemical Engineering Journal
Volume	460
Early online date	8 Feb 2023
DOIs	https://doi.org/10.1016/j.cej.2023.141760
Publication status	Published - 15 Mar 2023

Keywords

Unsteady mixing
Numerical diffusion
Backward particle tracking
T mixer
Mixing index

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title = "A low-dissipative and accurate method of simulating the unsteady mixing process",

abstract = "Micro/milli-reactors have been widely used because of their advantages, e.g., intrinsic safety, fast heat transfer and exquisite control of the reaction conditions. However, the mixing efficiency in microreactors is often limited by slow molecular diffusion in steady laminar flow. The mixing efficiency is higher in the unsteady state, but the lack of an accurate simulation method for unsteady mixing limits the development of highly efficient mixers. Thus, this work establishes a new method to precisely simulate the unsteady mixing process, without being affected by numerical diffusion, based on the Lagrangian scalar transport equation. The method is validated by experimental results. Sensitivity analyses are conducted to confirm the simulation results. The accurate simulation of the mixing process will reduce the number of experiments, hence accelerating the development of highly efficient mixers.",

keywords = "Unsteady mixing, Numerical diffusion, Backward particle tracking, T mixer, Mixing index",

author = "Yunhu Gao and Zhong-Nan Wang and Zhihong Xu",

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doi = "10.1016/j.cej.2023.141760",

language = "English",

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journal = "Chemical Engineering Journal",

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TY - JOUR

T1 - A low-dissipative and accurate method of simulating the unsteady mixing process

AU - Gao, Yunhu

AU - Wang, Zhong-Nan

AU - Xu, Zhihong

PY - 2023/3/15

Y1 - 2023/3/15

N2 - Micro/milli-reactors have been widely used because of their advantages, e.g., intrinsic safety, fast heat transfer and exquisite control of the reaction conditions. However, the mixing efficiency in microreactors is often limited by slow molecular diffusion in steady laminar flow. The mixing efficiency is higher in the unsteady state, but the lack of an accurate simulation method for unsteady mixing limits the development of highly efficient mixers. Thus, this work establishes a new method to precisely simulate the unsteady mixing process, without being affected by numerical diffusion, based on the Lagrangian scalar transport equation. The method is validated by experimental results. Sensitivity analyses are conducted to confirm the simulation results. The accurate simulation of the mixing process will reduce the number of experiments, hence accelerating the development of highly efficient mixers.

AB - Micro/milli-reactors have been widely used because of their advantages, e.g., intrinsic safety, fast heat transfer and exquisite control of the reaction conditions. However, the mixing efficiency in microreactors is often limited by slow molecular diffusion in steady laminar flow. The mixing efficiency is higher in the unsteady state, but the lack of an accurate simulation method for unsteady mixing limits the development of highly efficient mixers. Thus, this work establishes a new method to precisely simulate the unsteady mixing process, without being affected by numerical diffusion, based on the Lagrangian scalar transport equation. The method is validated by experimental results. Sensitivity analyses are conducted to confirm the simulation results. The accurate simulation of the mixing process will reduce the number of experiments, hence accelerating the development of highly efficient mixers.

KW - Unsteady mixing

KW - Numerical diffusion

KW - Backward particle tracking

KW - T mixer

KW - Mixing index

U2 - 10.1016/j.cej.2023.141760

DO - 10.1016/j.cej.2023.141760

M3 - Article

SN - 1385-8947

VL - 460

JO - Chemical Engineering Journal

JF - Chemical Engineering Journal

M1 - 141760

ER -

A low-dissipative and accurate method of simulating the unsteady mixing process

Abstract

Keywords

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