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Slumping of non-Boussinesq density currents of various initial fractional depths: a comparison between direct numerical simulations and a recentudshallow-water model

机译：各种初始分数深度的非Boussinesq密度电流骤降：直接数值模拟与最近的 ud之间的比较浅水模型

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Simulations of non-Boussinesq density currents of various initial fractional depths are performed, and auddetailed comparison with a recent shallow-water model [18] is done for a wide range of density ratio 10̄4 ≤ ρc/ρa ≤ 104 and initial depth ratio 1 ≤ H* ≤ 50 in the regime of constant-speed initial phase. Good agreement is observed in a large region of the parameter space. The larger discrepancy is observed in the range of high H* and low-ρc/ρa for which the shallow-water model overpredicts the velocity of the current. Two possible reasons are suspected, namely the fluid motion in the ambient fluid which is not accounted for in the model, and the choice of the model for the front condition.

机译：对各种初始分数深度的非Boussinesq密度电流进行了模拟，并在较宽的密度比10̄4≤ρc/ρa≤104和初始深度比的范围内，与最新的浅水模型[18]进行了详细比较。在恒速初始阶段中，1≤H *≤50。在参数空间的较大区域中观察到良好的一致性。在高H *和低ρc/ρa的范围内观察到较大的差异，浅水模型对此有过高的预测值。怀疑有两个可能的原因，即在模型中未考虑的环境流体中的流体运动，以及针对前部条件的模型选择。

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Bonometti Thomas; Balachandar Sivaramakrishnan;
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年度 2010
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Slumping of non-Boussinesq density currents of various initial fractional depths: a comparison between direct numerical simulations and a recentudshallow-water model

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