海洋中含沉积物羽流的动力学

IF 2.8 Q2 MECHANICS
N. Mingotti, A. Woods
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引用次数: 4

摘要

摘要我们提出了一系列实验来说明横流中正浮力或负浮力颗粒羽流的动力学,与深海采矿作业中向海洋排放沉积物有关。在未分级的环境流体中,我们的实验确定了三种不同的状态,对应于(i)密集的载有颗粒的羽流,宿主是相对密集的盐水流体,其中当流速降至颗粒沉降速度以下时,颗粒与下降的羽流分离;(ii)密集的载有颗粒的羽流,其容纳浮力流体,其中流体从下沉的颗粒羽流逐渐上升,以形成第二上升的源流体羽流;以及(iii)载有浮力颗粒的羽流,该羽流是从排放管上升的浮力流体的宿主,颗粒从该浮力流体逐渐沉淀。单相羽流的经典模型描述了情况(i)和(iii)中羽流的初始运动,但当流速降至颗粒下落速度以下时,沉降会导致平均浮力的变化,从而导致羽流速度的变化。我们的数据还表明,与经典的单相羽流相比,沉积导致环境流体的夹带率降低。我们还表明,对于密度分层的环境流体,分层可能会在显著的颗粒沉降之前阻止羽流,在这种情况下,羽流倾向于在颗粒沉降进行的中性浮力水平下向下游扩散。残余羽流流体的体积密度然后可以保持在上层流体和下层流体的密度之间的中间,或者可以变得比上层流体密度低,在这种情况下,在沉积之后,羽流流体通过上层上升。尽管海洋中深海采矿羽流的动力学更为复杂,例如,由于背景湍流和混合,我们新的实验室实验结果突出了一系列流动过程,这些流动过程可能会影响这些羽流中颗粒在释放到水中后的初始分散和沉积,具体取决于初始条件,环境密度和颗粒下落速度。我们还讨论了我们的工作在火山羽流火山灰扩散背景下的相关性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Dynamics of sediment-laden plumes in the ocean
Abstract We present a series of experiments to illustrate the dynamics of positively or negatively buoyant particle-laden plumes in a cross-flow, with relevance for the discharge of sediment into the ocean during deep-sea mining operations. In an unstratified ambient fluid, our experiments identify three different regimes, corresponding to (i) a dense particle-laden plume, host to relatively dense saline fluid, in which the particles separate from the descending plume as the flow speed falls below the particle settling speed; (ii) a dense particle-laden plume, host to buoyant fluid, in which the fluid gradually rises from the sinking plume of particles, to form a second rising plume of source fluid; and (iii) a buoyant particle-laden plume, host to buoyant fluid, which rises from the discharge pipe, and from which particles gradually sediment. Classical models of single-phase plumes describe the initial motion of the plumes in cases (i) and (iii), but as the flow speed falls below the particle fall speed, sedimentation leads to a change in the averaged buoyancy, and, hence, the plume speed. Our data also suggest that the sedimentation leads to a reduction in the rate of entrainment of ambient fluid, compared with the classical single-phase plumes. We also show that with a density stratified ambient fluid, the stratification may arrest the plume prior to significant particle sedimentation, and in this case, the plume tends to spread downstream at the level of neutral buoyancy where particle sedimentation proceeds. The bulk density of the residual plume fluid may then remain intermediate between the density of the upper and lower layer fluid, or may become less dense than the upper layer fluid, in which case, following sedimentation, the plume fluid rises through the upper layer. While the dynamics of deep-sea mining plumes in the ocean are more complex, for example, owing to background turbulence and mixing, the results of our new laboratory experiments highlight the range of flow processes which may influence the initial dispersion and sedimentation of particles in such plumes following release into the water, depending on the initial conditions, the ambient density and the particle fall speed. We also discuss the relevance of our work in the context of ash dispersal by volcanic plumes.
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CiteScore
2.40
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