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在南海东北部东沙环礁附近,内孤立波被大量地观测报道.在该地区内孤立波的传播和演化过程仍然存在许多待解决的问题.利用改进的地震海洋学处理方法对2009年夏的一段海洋勘探地震测线进行了重新处理,获得了50 m水深之下的水层反射图像,发现了包含8个内孤立波的下沉型内孤立波包.遥感仪器中分辨率成像光谱仪(MODIS)图像在该段地震测量的3 h内,捕捉到同一个内孤立波包,经处理分析,获得前5个内孤立波的清晰图像.本文采用了两种方法计算内孤立波相速度,方法一是利用不同的叠前共偏移距道集剖面估算内孤立波的视相速度,并根据MODIS图像上内孤立波的传播方向对其进行校正;方法二是利用地震与MODIS图像联测直接获得传播相速度.将这两种方法得到的相速度分别进行对比,发现它们在数值大体一致.地震海洋学剖面可直接获得内孤立波包中8个内孤立波的特征参数,包括振幅、视半高宽和视波间距.该内孤立波包的最大振幅为117 m,最大视半高宽为1020 m,最大视波间距为4100 m.由于地震采集船和内孤立波之间存在类多普勒效应,且二者前进方向存在夹角,所以利用地震与MODIS图像联测得到的传播相速度,结合MODIS图像所推断的内孤立波传播方向对视半高宽和视波间距进行校正.首波的半高宽与遥感估算的特征半波宽的比值是1.75,接近理论比值的1.763;校正后的真波间距和遥感量测波间距数值基本一致.最后,结合地震观测前后的遥感图像和潮流数据推断这一内孤立波包为Type-b型.结果表明,将地震海洋学和遥感方法结合,可以更好地研究内孤立波的特征. 相似文献
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Internal solitary waves(ISWs) are frequently observed in the area between Dongsha Island(DI) and Taiwan Island. However, there have been few in-situ observations southwest of DI. To improve our knowledge of ISWs in this area, we observed the ISWs over the continental shelf(115.4°E, 20.3°N) from Aug. 29 to Oct. 10, 2011 with temperature sensors and an acoustic Doppler current profiler(ADCP). The observations showed that the a fully developed ISW produced a current whose maximum westward velocity was 0.92 m/s and maximum northward velocity was 0.47 m/s. During the 41-day observation period the ISWs appeared for three periods with about 7-day gaps between each period. During each day, two types of ISWs were observed. The first type of wave arrived regularly diurnally at the same time each day, with a similar pattern to that of the type- a wave identified by Ramp et al.(2004). The second type arrived about 12 h after the first type and was delayed about 1 hour each day; this wave type was related to the type- b wave. Thus, our observations confirmed that both type- a and type- b waves can reach the area southwest of the DI. Moreover, the waves observed by the mooring propagated toward the directions of 270°–315° clockwise from true north, indicating obvious refraction from uneven topography around DI. 相似文献
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Direct numerical simulations are performed to study the transformation of internal solitary waves (ISWs) of depression type propagating over an underwater ridge in a two-layer fluid system. Bottom ridges with relatively smooth vertex are employed to represent sills in natural lakes and oceans. Consistent with previous experiments, three interaction types (weak, moderate and strong) are observed to be based on the energy loss. In addition, the moderate interaction are found to be categorized into transmitted and reflected type according to their distinct transformation process. General flow characteristics for ISW–ridge interaction in the benthic boundary layer and in the pycnocline is monitored and analysed. A modified degree of blocking Bm considering both the nonlinear effect of incident ISWs and the blockage effect of the submerged ridge is proposed. Different ISW–ridge interactions are discovered to be linked with Bm. Maximum wave-induced velocities, wave energy losses, reflected and transmitted wave amplitudes are found to have a self-similar feature with Bm. The maximum energy loss is up to 35% and the maximum wave-induced velocity can reach 1.8 times of the phase speed of the incident ISW. Empirical equations are obtained based on the data fitting to predict some useful physical parameters during ISW–ridge interaction. 相似文献
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