Numerical simulation of flow transition in microchannel

Xing Yuan; Zhi Tao; Hai Wang Li

doi:10.13224/j.cnki.jasp.2016.10.016

Numerical simulation of flow transition in microchannel

Xing Yuan
, Zhi Tao
, Hai Wang Li

航空发动机研究院

Beihang University

科研成果: 期刊稿件 › 文章 › 同行评审

1 引用（Scopus）

摘要

Numerical simulation was conducted with CFD software ANSYS CFX to investigate the characteristics of gas flow in a rectangular microchannel with a hydraulic diameter of 0. 4 mm. Three flow models, namely, γ-Re_θt model, laminar model and shear stress transport (SST) model, were taken in the simulation. The simulation results were compared with the experimental data. Results indicate that laminar model and SST model are incapable of predicting transition. γ-Re_θt model forecasts the critical Reynolds number well and the relative errors of friction factor keep under 20%. Before Reynolds number reaches the critical value, local turbulent regions appear at the rear of the microchannel and the regions expand with the growing Reynolds number. The streamwise position where the inlet and the rear turbulent regions meet is almost identical with the position where the skin friction reaches its minimum value.

源语言	英语
页（从-至）	2432-2436
页数	5
期刊	Hangkong Dongli Xuebao/Journal of Aerospace Power
卷	31
期	10
DOI	https://doi.org/10.13224/j.cnki.jasp.2016.10.016
出版状态	已出版 - 1 10月 2016

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10.13224/j.cnki.jasp.2016.10.016

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title = "Numerical simulation of flow transition in microchannel",

abstract = "Numerical simulation was conducted with CFD software ANSYS CFX to investigate the characteristics of gas flow in a rectangular microchannel with a hydraulic diameter of 0. 4 mm. Three flow models, namely, γ-Reθt model, laminar model and shear stress transport (SST) model, were taken in the simulation. The simulation results were compared with the experimental data. Results indicate that laminar model and SST model are incapable of predicting transition. γ-Reθt model forecasts the critical Reynolds number well and the relative errors of friction factor keep under 20\%. Before Reynolds number reaches the critical value, local turbulent regions appear at the rear of the microchannel and the regions expand with the growing Reynolds number. The streamwise position where the inlet and the rear turbulent regions meet is almost identical with the position where the skin friction reaches its minimum value.",

keywords = "Critical Reynolds number, Friction factor, Gas flow, Intermittency, Microchannel, Skin friction, γ-Re model",

author = "Xing Yuan and Zhi Tao and Li, \{Hai Wang\}",

year = "2016",

month = oct,

day = "1",

doi = "10.13224/j.cnki.jasp.2016.10.016",

language = "英语",

volume = "31",

pages = "2432--2436",

journal = "Hangkong Dongli Xuebao/Journal of Aerospace Power",

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}

TY - JOUR

T1 - Numerical simulation of flow transition in microchannel

AU - Yuan, Xing

AU - Tao, Zhi

AU - Li, Hai Wang

PY - 2016/10/1

Y1 - 2016/10/1

N2 - Numerical simulation was conducted with CFD software ANSYS CFX to investigate the characteristics of gas flow in a rectangular microchannel with a hydraulic diameter of 0. 4 mm. Three flow models, namely, γ-Reθt model, laminar model and shear stress transport (SST) model, were taken in the simulation. The simulation results were compared with the experimental data. Results indicate that laminar model and SST model are incapable of predicting transition. γ-Reθt model forecasts the critical Reynolds number well and the relative errors of friction factor keep under 20%. Before Reynolds number reaches the critical value, local turbulent regions appear at the rear of the microchannel and the regions expand with the growing Reynolds number. The streamwise position where the inlet and the rear turbulent regions meet is almost identical with the position where the skin friction reaches its minimum value.

AB - Numerical simulation was conducted with CFD software ANSYS CFX to investigate the characteristics of gas flow in a rectangular microchannel with a hydraulic diameter of 0. 4 mm. Three flow models, namely, γ-Reθt model, laminar model and shear stress transport (SST) model, were taken in the simulation. The simulation results were compared with the experimental data. Results indicate that laminar model and SST model are incapable of predicting transition. γ-Reθt model forecasts the critical Reynolds number well and the relative errors of friction factor keep under 20%. Before Reynolds number reaches the critical value, local turbulent regions appear at the rear of the microchannel and the regions expand with the growing Reynolds number. The streamwise position where the inlet and the rear turbulent regions meet is almost identical with the position where the skin friction reaches its minimum value.

KW - Critical Reynolds number

KW - Friction factor

KW - Gas flow

KW - Intermittency

KW - Microchannel

KW - Skin friction

KW - γ-Re model

UR - https://www.scopus.com/pages/publications/84992520158

U2 - 10.13224/j.cnki.jasp.2016.10.016

DO - 10.13224/j.cnki.jasp.2016.10.016

M3 - 文章

AN - SCOPUS:84992520158

SN - 1000-8055

VL - 31

SP - 2432

EP - 2436

JO - Hangkong Dongli Xuebao/Journal of Aerospace Power

JF - Hangkong Dongli Xuebao/Journal of Aerospace Power

IS - 10

ER -

Numerical simulation of flow transition in microchannel

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