An Effective AUSM-Type Scheme for Both Cases of Low Mach Number and High Mach Number

A new scheme called AUSMAS (Advection Upstream Splitting Method for All Speeds) is proposed for both high speed and low speed simulation cases. For the cases of low speed, it controls the checkerboard decoupling by keeping the coefficient of the pressure difference to the order of O(Ma−1) in the mas...

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Published inApplied sciences Vol. 12; no. 11; p. 5464
Main Authors Li, Nan, Qu, Feng, Sun, Di, Wu, Guanghui
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.06.2022
Subjects
Accuracy
all speeds
AUSM
AUSMAS
Coefficients
computational fluid dynamics
Decoupling
Dissipation
Flow simulation
Fluctuations
High Mach number
High resolution
Low speed
Mach number
shock anomaly
Variables
Velocity
Viscosity
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Abstract A new scheme called AUSMAS (Advection Upstream Splitting Method for All Speeds) is proposed for both high speed and low speed simulation cases. For the cases of low speed, it controls the checkerboard decoupling by keeping the coefficient of the pressure difference to the order of O(Ma−1) in the mass flux. Furthermore, it is able to guarantee a high level of accuracy by keeping the coefficients of the dissipation terms to the order of O(Ma0) in the momentum flux. For the cases of high speeds, especially at supersonic and hypersonic speeds, it is able to avoid the appearance of the shock anomaly by controlling the coefficients of the density perturbation in the mass flux. AUSMAS is testified to have the following attractive properties according to various numerical tests: (1) robustness against the abnormal shock; (2) high resolution in discontinuity; (3) the appearance of the unphysical expansion shock is avoided; (4) high resolution and low dissipation at low speeds; (5) independent of any tuning coefficient. These properties determined that AUSMAS has great promise in efficiently and accurately simulating flows of all speeds.
AbstractList A new scheme called AUSMAS (Advection Upstream Splitting Method for All Speeds) is proposed for both high speed and low speed simulation cases. For the cases of low speed, it controls the checkerboard decoupling by keeping the coefficient of the pressure difference to the order of O(Ma−1) in the mass flux. Furthermore, it is able to guarantee a high level of accuracy by keeping the coefficients of the dissipation terms to the order of O(Ma0) in the momentum flux. For the cases of high speeds, especially at supersonic and hypersonic speeds, it is able to avoid the appearance of the shock anomaly by controlling the coefficients of the density perturbation in the mass flux. AUSMAS is testified to have the following attractive properties according to various numerical tests: (1) robustness against the abnormal shock; (2) high resolution in discontinuity; (3) the appearance of the unphysical expansion shock is avoided; (4) high resolution and low dissipation at low speeds; (5) independent of any tuning coefficient. These properties determined that AUSMAS has great promise in efficiently and accurately simulating flows of all speeds.
Author Li, Nan
Qu, Feng
Wu, Guanghui
Sun, Di
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CitedBy_id crossref_primary_10_1016_j_icheatmasstransfer_2023_107204
crossref_primary_10_1063_5_0164328
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SubjectTerms Accuracy
all speeds
AUSM
AUSMAS
Coefficients
computational fluid dynamics
Decoupling
Dissipation
Flow simulation
Fluctuations
High Mach number
High resolution
Low speed
Mach number
shock anomaly
Variables
Velocity
Viscosity
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Title An Effective AUSM-Type Scheme for Both Cases of Low Mach Number and High Mach Number
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