当热带气旋马库斯使用ARGO Float数据时,位于印度洋东南部的湍流湍流

M. I. Khaldun, Yuli Naulita, A. F. Koropitan
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引用次数: 0

摘要

热带气旋是由于海洋和大气环流之间的相互作用而产生的一种现象。印度洋东南部是热带气旋活动频繁的地区之一。穿越水域的热带气旋会导致水团混合。混合过程在下层和上层之间产生水团夹带,从而降低上层的温度。本研究的目的是利用Argo Float数据估计热带气旋引起的湍流混合强度。研究结果表明,热带气旋引起的湍流混合在表层非常强烈。旋流器之前未发现湍流混合,旋流器出现时湍流混合增加。在50m深度处记录到湍流混合的增加,其能量耗散值范围为6.86x10-8-1.93x10-4W/Kg,湍流混合值范围为1.0x10-3-2.51x10-1 m2 s-1。这项研究得出结论,表层的湍流混合是由热带气旋引起的,这是触发现场动能和湍流能量耗散增加的主要因素。
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Percampuran Turbulen Di Tenggara Samudera Hindia Saat Siklon Tropis Marcus Menggunakan Data ARGO Float
Tropical cyclones are a phenomenon that occurs because of the interaction between oceans and atmospheric circulation. The southeastern Indian Ocean is one of the areas that has a high activity of tropical cyclones. Tropical cyclones that cross waters can result in mixing of water masses. The mixing process produces water mass entrainment between lower and upper layers which decreases temperature in the upper layer. The purpose of this study was to estimate the strength of turbulent mixing caused by tropical cyclones using Argo Float data. The result of this study shows the turbulent mixing caused by tropical cyclones was very strong in the surface layer. Turbulent mixing is not found before the cyclone and increases when the cyclone occurs. The increase in turbulent mixing was recorded at a depth of 50 m which had an energy dissipation value ranging from 6.86x10-8 - 1.93x10-4 W/Kg and a turbulent mixing value with a range of 1.0x10-3 - 2.51x10-1 m2 s-1. This study concluded that the turbulent mixing in the surface layer is caused by tropical cyclones which is the main factor triggering the increase in the dissipation of kinetic and turbulent energy at the sites.
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