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基于光学遥感的安达曼海内孤立波传播速度特性研究 总被引:2,自引:1,他引:1
安达曼海内孤立波非常活跃且错综复杂,传播速度是内孤立波的重要特征参量,本文采用光学遥感手段建立了内孤立波传播速度的计算方法。收集并处理大量Terra/Aqua-MODIS遥感图像,利用两景图像追踪同一内孤立波与同一激发源产生的内孤立波波群两种方法定量研究安达曼海内孤立波传播速度。研究结果表明:安达曼海内孤立波传播速度在0.5~2.7 m/s之间,内孤立波传播方向主要受海底地形的影响,传播速度大小在传播过程中随水深变浅而呈减小的趋势,在深水区传播速度大小还呈现出季节性差异。 相似文献
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《中国海洋大学学报(自然科学版)》2021,(11)
高分一号是中国自主发射的光学遥感卫星,空间分辨率达到2、8和16 m,因此可以为尺度较小的第二模态内孤立波研究提供强有力的数据支撑。本文基于2014—2020年共7年高分一号光学遥感图像研究了南海东沙岛北部第二模态内孤立波特性,研究结果表明:在海水层结不变,海域第二模态内孤立波的光学遥感图像条纹亮暗次序与第一模态内孤立波的相反;第二模态内孤立波的波峰线远短于第一模态内孤立波的波峰线;南海东沙岛北部第二模态内孤立波在夏季被光学遥感观测到的概率最大;绝大部分第二模态内孤立波尾随在第一模态内孤立波之后,可能是第一模态内孤立波与地形凸起相互作用而产生了第二模态内孤立波。这一研究结果对于进一步研究全球海域第二模态内孤立波的特性奠定了良好基础。 相似文献
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基于MODIS和VIIRS遥感图像的苏禄-苏拉威西海内孤立波特征研究 总被引:1,自引:0,他引:1
苏禄海和苏拉威西海是内孤立波频发海域,本文基于2016年10月至2019年9月的中分辨率成像光谱仪(Moderate-resolution Imaging Spectroradiometer,MODIS)和可见光红外成像辐射计(Visible Infrared Imaging Radiometer,VIIRS)光学遥感数据开展了苏禄海和苏拉威西海的内孤立波特征分析研究。空间分布特征表明,苏禄群岛的西北部海域(118°—121°E, 6°—10°N)和苏拉威西海南部海域为内孤立波多发区域。苏拉威西海南部海域存在南向和西向交叉传播的内孤立波。苏禄海和苏拉威西海的内孤立波波峰线最长可达400—500km,主要集中在100—150km范围内。利用射线追踪法结合遥感图像分析表明,锡布图岛和锡穆努尔岛附近海域存在4个内波发生源,生成的内孤立波分别向苏禄海的西北方向和苏拉威海的东南方向传播。遥感观测表明苏拉威西海也存在自东向西传播的内孤立波,共有3个发生源,位于邦加岛与比亚罗岛附近海域。苏禄海的内孤立波主要向西北方向传播,其传播速度在2m/s左右。苏拉威西海自东向西传播的内孤立波的速度在3.1m/s左右,自北向南传播的内孤立波的速度为3.0m/s左右。 相似文献
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海洋内孤立波和中尺度涡是南海北部常见的中尺度动力过程。本文利用2010?2015年的Terra/Aqua-MODIS、ENVISAT ASAR和多源卫星高度计资料开展了南海海洋内孤立波和中尺度涡遥感探测研究,分析了中尺度涡对内孤立波传播方向的影响。结果表明,中尺度涡和内孤立波主要在南海东北部海域共存,当二者共存时,气旋(冷涡)促使内孤立波偏离原来的传播方向,向西偏南方向传播;反气旋(暖涡)促使内孤立波向西偏北方向传播,气旋与反气旋改变的内孤立波传播方向刚好相反。内孤立波和中尺度涡共存时间主要集中在3?9月,其中,3月受气旋和反气旋的共同作用,内孤立波传播方向几乎无变化;4月和5月,主要受气旋影响,内孤立波偏离原来传播方向向南传播;6?9月,主要受反气旋影响,内孤立波偏离原来的传播方向向北传播。本文利用遥感手段探索了海洋中尺度涡对内孤立波传播方向的影响,结果与现场观测结果一致。 相似文献
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南海北部陆架区内孤立波向岸传播过程研究 总被引:1,自引:0,他引:1
南海北部是全球海洋中内孤立波最强和最为活跃的海域。然而,内孤立波在传入陆架区后,其形态发生显著变化,其传播演变过程表现出高度的复杂性。本研究综合卫星图像和数值模式手段研究了内孤立波在向岸传播过程中的空间变化特征。可见光卫星图像研究结果显示,南海北部陆架区存在三种形态的内孤立波,分别为第一模态下凹型内孤立波、第一模态上凸型内孤立波和第二模态内孤立波。受水深和层结变化的控制,它们的分布区域显著不同。基于MITgcm的数值模拟研究表明,上凸型内孤立波由第一模态下凹内孤立波经过极性转换过程发展而来,而第二模态内孤立波由第一模态下凹内孤立波与急剧变浅地形相互作用而产生。 相似文献
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一个典型南海北部第二模态内孤立波的观测分析 总被引:1,自引:0,他引:1
第二模态内孤立波在海洋中极少被观测到。本文基于潜标高时空分辨率观测数据,对南海北部陆架区的一个典型第二模态内孤立波进行了分析。结果表明,该第二模态内孤立波的流核出现在135 m深度处,其最大水平流速为0.66 m/s,传播方向为西偏北58°。沿传播方向的内孤立波流速分布在80~170 m的深度范围内,而与传播方向相反的逆流出现在海表和海底附近。垂向模态分析表明,该第二模态内孤立波水平流速的垂向结构与理论结果吻合良好。能量计算结果显示其动能密度的垂向积分可达14 kJ/m2,而波峰线方向单位长度上的动能估算值为5.98 MJ/m。尽管该第二模态内孤立波的动能比陆架区第一模态内孤立波小1个量级,但其高达0.045 s-1的流速垂向剪切约为典型第一模态内孤立波的2倍,表明其导致的混合可能更强。 相似文献
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卫星遥感技术是探测海洋内孤立波的重要手段,目前提取内孤立波特征参数的工作均使用SAR图像。本文首次探讨了基于MODIS可见光图像的内孤立波信息反演方法,并对位于南海北部水深3 000m左右的内孤立波个例进行了研究,发现其振幅为124m,传播速度为3.14m/s,半波宽度为3 258m。根据潜标现场观测结果对反演得到的内孤立波信息进行了检验,结果表明,此方法具有较高的准确度,为研究南海北部深水区内孤立波提供了一条新的可行路径。 相似文献
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利用修正的非线性水平二维Lynett-Liu内长波数值模式,模拟了小振幅孤立子内波进出水道口的传播过程,及其穿过狭窄水道的衍射过程。通过分析孤立子内波垂向波形和水平二维纹理图像随水道口的形状及开阔水域宽度的变化.研究了侧边界对孤立子内波传播所产生的影响,并与卫星遥感图片进行了对比。 相似文献
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基于MCC理论的内孤立波数值模拟 总被引:3,自引:0,他引:3
基于MCC(Miyata-Choi-Camassa)理论,将内孤立波诱导上下层深度平均水平速度为入口条件,结合理想流体完全非线性欧拉方程,建立了两层流体中内孤立波生成与传播的CFD(Computational Fluid Dynamics)数值水槽方法。在系列数值模拟基础上,获得了内孤立波设计振幅与数值模拟振幅之间的相关关系,实现了在振幅可控条件下的内孤立波数值模拟。结果表明,在极限振幅范围内,数值模拟所得内孤立波波形均与MCC理论解吻合良好,而KdV(Korteweg-de Vries)和mKdV(modi-fied KdV)理论解只适用于小振幅的情况。同时,利用CFD数值模拟结果,对内孤立波诱导流速场特性进行了分析,结果表明内孤立波诱导水平速度在上层及波面下方流体层中垂向衰减很小,但在内界面与波面之间流体层中垂向衰减明显。 相似文献
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An investigation on internal solitary waves in a two-layer fluid: Propagation and reflection from steep slopes 总被引:2,自引:0,他引:2
Chen-Yuan Chen John Rong-Chung Hsu Min-Hung Cheng Hsin-Hsun Chen Ching-Feng Kuo 《Ocean Engineering》2007,34(1):171-184
Experimental investigations on internal solitary wave (ISW) propagation and their reflection from a smooth uniform slope were conducted in a two-layered fluid system with a free surface. A 12-meter-long wave flume was in use which incorporated with: (1) a movable vertical gate for generating ISW; (2) six ultrasonic probes for measuring the fluctuation of an ISW; and (3) a steep uniform slope (from one of θ=30°, 50°, 60°, 90°, 120° and 130°) much greater than those ever published in the literature. This paper presents the wave profile properties of the ISW recorded in the flume and their nonlinear features in comparison with the existing Korteweg de Vries (KdV) and modified Korteweg-de Vries (MKdV) theories. Experimental results show that the KdV theory is suitable for most small-amplituded ISWs and MKdV theory is appropriate for the reflected ISWs from various uniform slopes. In addition, both the amplitude-based reflection coefficient and reflected energy approach a constant value asymptotically when plotted against the slope and the characteristic length ratio, respectively. The reflected wave amplitudes calculated from experimental data agree well with those reported elsewhere. The optimum reflection coefficient is found within the limit of 0.85 for wave amplitude, among the test runs from steep normal slope of 30° to inverse angle of 130°, and around 0.75 for the reflected wave energy, produced by an ISW on a vertical wall. 相似文献
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A European Space Agency' s ENVISAT advanced synthetic aperture radar (ASAR) image covering Zhejiang coastal water in the East China Sea (ECS) was acquired on 1 August 2007. This image shows that there are about 20 coherent internal solitary wave (ISW) packets propagating southwestward toward Zhejiang coast. These ISW packets are separated by about 10 kin, suggesting that these ISWs are tide-generated waves. Each ISW packet contains 5-15 wave crests. The wavelengths of the wave crests within the ISW packets are about 300 m. The lengths of the leading wave crests are about 50 km. The ISW amplitude is estimated from solving KdV equation in an ideal two-layer ocean model. It is found that the ISW amplitudes is about 8 m. Further analysis of the ASAR image and ocean stratification profiles show that the observed ISWs are depression waves. Analyzing the tidal current finds that these waves are locally generated. The wavelength and amplitude of the ECS ISW are much smaller than their counter- parts in the South China Sea (SCS). The propagation speed of the ECS ISW is also an order of magnitude smaller than that of the SCS ISW. The observed ISWs in the ECS happened during a spring tide period. 相似文献
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Internal solitary waves (ISWs) are common mesoscale dynamic processes in the ocean that are spread throughout the world’s oceans. The South China Sea (SCS), Western Pacific (WPAC) and Indian Ocean (EIND) (SCS-WPAC-EIND) are areas where ISWs frequently occur. In particular, in the northern part of the South China Sea, Sulu Sea, Celebes Sea, Andaman Sea, Lombok Strait and northeastern part of Taiwan Island, ISWs exist almost year-round. Remote sensing is an important technique to carry out investigations and research on ISWs on a large scale. In particular, optical sensors represented by the Moderate Resolution Imaging Spectroradiometer (MODIS) can observe ISWs for a long time and on a large scale, while SAR sensors such as Sentinel-1 A/B can compensate for the deficiencies in optical sensors and comprehensively observe ISWs. Based on many years of remote sensing surveys of ISWs, this paper uses MODIS and Sentinel-1 satellite remote sensing images of more than 70 000 scenes from 2010 to 2020 to carry out survey studies of ISWs in the SCS-WPAC-EIND. The survey systematically gives the temporal and spatial distribution characteristics of ISWs in the SCS-WPAC-EIND and focuses on the analysis of the ISW characteristics in main areas in the SCS-WPAC-EIND, thereby providing basic data for further research on ISWs. 相似文献
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合成孔径雷达是海洋内波研究中最重要的工具之一。雷达图像中的斑点噪声会严重降低图像的质量,这一问题在处理和分析信号较弱的二模态内波信号和上升型内波信号时极为明显。合成孔径雷达图像中的海洋内孤立波的信号具有明显的尺度性和方向性。同时,curvelet变换作为一种同时具备尺度分辨率和方向分辨率的数学变换,能够对一幅雷达图像在不同尺度、不同方向和不同位置上进行分析。本文给出了一个基于curvelet变换的合成孔径雷达海洋内孤立波图像的斑点噪声抑制方法。该方法可简述为:(1)对一幅合成孔径雷达海洋内孤立波图像进行curvelet变换,获得curvelet系数;(2)分别仅仅保留一个尺度的系数,将其它尺度的系数置为零,利用处理之后的系数分别重建图像,得到仅仅用一个尺度的系数重建的图像;(3)分别计算上一步中得到的图像的均方差,根据波浪理论,图像的方差代表能量,方差越大则能量越大,以此可以确定内波信息集中的尺度;(4)在每个尺度下,分别计算每个方向的curvelet系数矩阵的平均值,以此确定内孤立波信号集中的方向;(5)在上两步工作的基础上,仅仅保留内波信号集中的尺度和方向的系数,而将其它尺度和方向的系数置为0,得到一幅提取主波信息的图像;(6)将上一步得到的提取主波信息的图像加回到原始图像中,从而达到增强波浪信息并抑制斑点噪声的目的。大量的实验验证表明,该方法不仅能有效地压制斑点噪声,而且能有效地增强波浪信号。 相似文献
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本文通过对卫星遥感图像中的内孤立波及相互作用现象进行统计分析,讨论了南海北部内孤立波及相互作用现象的时空分布特征,验证了利用卫星遥感图像反演内孤立波振幅和传播速度以及研究内波相互作用现象的可行性。统计结果表明,南海北部的内孤立波主要集中在东沙群岛以及海南岛南部,内波相互作用主要集中在东沙岛西北部以及海南岛南部。本文对此给出解释:内波传播至东沙岛附近发生绕射,绕射的内波分裂成两列后以不同的传播方向继续向西传播,相遇并发生相互作用;内波在海南岛浅滩处发生反射,与后续传来的内波发生相互作用。同时,本文利用Korteweg-de Vries (KdV)方程和Benjamin-One(BO)方程,结合观测数据,对内波振幅和传播速度进行了反演实验。反演所得的内波振幅和传播速度与南海北部实际内波振幅和传播速度相近。 相似文献
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Mooring observations of internal solitary waves in the deep basin west of Luzon Strait 总被引:6,自引:3,他引:3
A total of 137 internal solitary waves (ISWs) are captured during a field experiment conducted in the deep basin west of the Luzon Strait (LS) from March to August, 2010. Mooring observations reveal that a fully developed ISW owns a maximum westward velocity of more than 1.8 m/s and an amplitude of about 200 m. The ISWs in the South China Sea (SCS) are most active in July, which may be due to the strong stratification in summer. Most of the ISW episodes are detected around and after the 1st or 15th lunar day, indicating that the ISW in the SCS is triggered by astronomic tides. Half part of the observed ISWs were detected around 19:00 local time, which can be explained by the fact that type-a ISWs emerged in the evening at roughly the same time each day. The propagation direction of the ISWs and the astronomic tides in the LS show that the area south of the Batan Island is probably the main source region of the type-a ISWs, while the area south of Itbayat Island and south of the Batan Island is likely the main source region of the type-b ISWs observed at the mooring. Moreover, for the resonance of semidiurnal internal tides emitting from the double ridges in the LS, the underwater ridge south of the Itbayat Island and south of the Batan Island is believed to favor the generation of the energetic ISWs. 相似文献
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南海北部陆坡区内孤立波的垂向热量输送 总被引:1,自引:0,他引:1
An integrated analysis of internal solitary wave(ISW) observations obtained from two moorings over the continental slope in the northern South China Sea(SCS) leads to an assessment of the vertical heat transport of the ISWs. The clusters of ISW packets are phase-locked to the fortnightly cycle of the semidiurnal tide. The ISWs appear during large semidiurnal tides, and there is a period of 5–6 d when no ISWs are observed. The effect of the ISWs on the continental slope heat budget is observed. The ISWs can modify a local temperature field in which the temperature in the upper layer can be changed by O(100) °C after the ISWs passed the mooring. Both ISWinduced diffusion and ISW-induced advection contribute to the temperature variation. The estimates imply an average vertical heat flux of 0.01 to 0.1 MW/m~2 in the ISWs in the upper 500 m of the water column. The vertical heat transport ranges from 0.56 to 2.83 GJ/m~2 with a mean value of 1.63 GJ/m~2. The observations suggest that the vertical heat transport is proportional to the maximum vertical displacement. 相似文献