Direct numerical simulations of two-dimensional gravity currents with small and medium density varia-tions are performed using different non-Boussinesq buoyancy approximations.Taking the full low-Mach-number approximation as the reference,the accuracy of several buoyancy terms are examined.It is found that all considered buoyancy terms performed well in the cases with small density variation.In the cases with medium density variation,the classical gravitational Boussinesq's buoyancy term showed the lack of accuracy,and a simple correction did not make any improvement.In contrast,the recently introduced second-order buoyancy term showed a significantly higher accuracy.The present results and our previ-ous derivations indicate that simple algebraic buoyancy approximations extended from the Boussinesq's gravitational buoyancy are unlikely to achieve an accuracy beyond first order.Instead,it seems necessary to solve at least one extra Poisson equation for buoyancy terms to capture the higher-order baroclinic effect.An approximate analysis is also provided to show the leading term of the non-Boussinesq effect corresponding to gravity.

Shengqi Zhang;Zhenhua Xia

State Key Laboratory for Turbulence and Complex Systems,College of Engineering Peking University,Beijing 100871,China;Department of Engineering Mechanics,Zhejiang University,Hangzhou 310027,China

力学快报（英文）

[1]Shengqi Zhang;Zhenhua Xia-.Capturing the baroclinic effect in non-Boussinesq gravity currents)[J].力学快报（英文）,2022(01):10-16

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