Dahlia Prihatini, M. Purba, Y. Naulita, A. Purwandana
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引用次数: 3
摘要
望加锡海峡是印尼通流(ITF)的主要通道之一。本研究的目的是研究望加锡海峡温跃层(深度约100-350 m)垂直湍流的空间分布,并分析引发垂直湍流的强迫。该研究使用了2013年6月Widya Nusantara考察队(Ewin)的水文数据,该考察队由分布在望加锡海峡的29个CTD站组成。对CTD数据采用GK试验的水质量试验,消除了噪声引起的密度反演。研究结果表明,一个动能耗散率(e)为0(10 -9 -10 -8)Wkg -1,垂向扩散系数K ρ为0(10 -5 -10 -3)m 2 s -1的活跃湍流。这些结果被归类为相对较强的垂直湍流,在Arlindo入口处的海峡北部100-200 m深度处发现。同时,在海峡南部靠近Arlindo出口通道处,海峡西侧垂直湍流更为强烈,为e (10 -9) Wkg -1和K ρ (10 -4) m 2 s -1。
Vertical Turbulent at Thermocline Layer in Makassar Strait
Makassar Strait is one of the main passage of Indonesian Throughflow (ITF). The purpose of this research is to study the spatial distribution of vertical turbulent at thermocline layer (at a depth about 100-350 m) of the Makassar Strait and to analyze the forcing that trigger it. Hydrographic data obtained from Widya Nusantara Expedition (Ewin) in June 2013, which consists of 29 CTD stations spread across Makassar Strait were use for this study. Water-mass test of GK test was applied to the CTD data to eliminate density inversion caused by noise. The result of this study show that an active turbulent with kinetic energy dissipation rate (e) of 0(10 -9 -10 -8 ) Wkg -1 and diffusivity vertical of K ρ 0(10 -5 -10 -3 ) m 2 s -1 . These results were categorized as relatively strong vertical turbulent and found at a depth of 100-200 m in the northern part of the strait at the entrance of Arlindo. Meanwhile at the southern part of the strait near the exit passage of Arlindo, the vertical turbulent was more intensive on the west side of the strait with e (10 -9 ) Wkg -1 and K ρ (10 -4 ) m 2 s -1 .
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