后向台阶后浮力对污染物捕获和扩散的影响

IF 2.8 Q2 MECHANICS
Samuel Charlwood, D. Frank, M. D. Davies Wykes
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引用次数: 0

摘要

摘要浮力相对于自由流的重要性是使用一个自适应的弗劳德数$Fr’=U/f_0^{1/3}$来描述的,其中$U$是流速,$f_0$是每单位长度的排气浮力通量。我们通过改变自由流流速、排气流速和排气浮力来改变$Fr'$。根据$Fr'$的值,我们通过实验确定了两种流态。对于高$Fr’$(低浮力),尾流中的惯性力驱动分散,尾流的污染物量与$Fr‘$无关。对于中等的$Fr'$,壁羽流在台阶后面形成,直接将污染物送入剪切层,但不会改变尾流的形状。这种壁羽流减少了台阶后面的污染物数量。我们开发了一个分析模型来描述台阶后面的污染物数量。该模型预测了从浮力可忽略到尾流内主要传输机制的转变。我们已经假设并观察到了第三种情况的一些证据,即在低$Fr'$时,浮力足以扭曲剪切层和尾流的宏观结构。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The influence of buoyancy upon pollution trapping and dispersal in the wake of a backward-facing step
Abstract The importance of buoyancy relative to free-stream flow is described using an adapted Froude number $Fr' = U/f_0^{1/3}$, where $U$ is the flow speed and $f_0$ is the exhaust buoyancy flux per unit length. We varied $Fr'$ by changing the free-stream flow rate, the exhaust flow rate and the buoyancy of the exhaust. We have experimentally identified two flow regimes, depending on the value of $Fr'$. For high $Fr'$ (low buoyancy), dispersion is driven by inertial forces in the wake and the amount of a pollutant in the wake is independent of $Fr'$. For moderate $Fr'$, a wall plume develops up the back of the step, directly feeding the pollutant into the shear layer, but without altering the shape of the wake. This wall plume reduces the amount of pollutant trapped behind the step. We developed an analytic model to describe the quantity of pollutant trapped behind the step. The model predicts the transition from buoyancy being negligible to being the dominant transport mechanism within the wake. We have hypothesised and observed some evidence of a third regime at low $Fr'$, when the buoyancy is sufficient to distort the macrostructure of the shear layer and wake.
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CiteScore
2.40
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