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871.
基于卫星遥感影像和水下地形数据,分析了近年来东山岛东南侧的岸滩演变特征。进一步,分别建立潮流、波浪、沿岸输沙数值模型,结合人类活动的影响,分析东山岛东南侧岸滩侵蚀的动力成因。研究结果表明,2002-2012年金銮湾的北侧海域海床侵蚀较为严重;1971-2003年,乌礁湾北侧湾顶呈现出侵蚀现象,2003-2012年,乌礁湾北侧湾顶由之前的侵蚀现象转变为一定的淤积趋势。主要原因如下:(1)岬角的挑流作用使得金銮湾和乌礁湾北侧岬角附近海域流速较大,容易产生冲刷侵蚀。(2)金銮湾和乌礁湾的北部波高较高,波能较大,容易遭受侵蚀。(3)金銮湾和乌礁湾北部海岸输沙强度较大,净输沙方向以自东向西为主,容易发生岸滩侵蚀。(4)20世纪90年代以来,东山岛人类活动强度增大,海滩不合理的人工建筑物、海岸防护林破坏以及养殖场的建造在一定程度上加重了侵蚀。(5)2003年后乌礁湾北侧修建了码头工程,导致近岸潮流和波浪动力有所减弱,使得侵蚀现象转变为一定的淤积。 相似文献
872.
利用常规观测资料、卫星FY-2G逐时TBB资料,采用WRF中尺度数值模式,对2016年5月5日湘桂粤边界南岭山脉的一次强西南急流背景下预报失败的暖区大暴雨过程(简称16·5过程,下同)进行数值模拟和诊断分析,研究了南岭山脉特殊地形对此次暖区降水过程的动力结构、水汽输送和云降水微物理机制的影响。结果表明,中低层西南气流由于受到南岭多处山脉地形的阻挡、侧摩擦和峡谷等效应的影响反复出现强烈辐合区,导致连续出现超强的水汽辐合中心,造成了湘桂粤边界暖区大暴雨的发生;在南岭特殊地形导致的动力、水汽条件下和有利于云内微物理过程发展的环境下,局地对流云系强烈发展与大尺度西南气流引导的深厚高层冰相云系结合后,云内的过冷云水在强盛的上升气流作用下抬升,丰富的过冷云水有利于贝吉隆过程和结凇进程,促进云内固态粒子增长,这是导致此次暖区大暴雨发生的重要云微物理内因。 相似文献
873.
南海的天然气水合物矿藏 总被引:61,自引:1,他引:61
讨论了南海的地形地貌特征,以及中新生代的构造运动历程,认识到中中新世之前,这里经历了一系列的构造运动,但在中国新世之中,这里无构造运动,只是发生区域沉降,由此认为南海应有丰富的天然气水合物矿藏,进而估算了南海天然气水合物的总资源达643.5亿一772.2亿t油当量。 相似文献
874.
2020年第4号台风“黑格比”在浙南登陆后过境北雁荡山期间在山区引发了特大暴雨。基于中尺度数值模式WRFV4.0.2对台风进行高分辨率数值模拟,分析北雁荡山地形对此次台风暴雨的作用,并设置了升降地形敏感性试验。结果表明:数值试验较好地模拟了台风移动及特大暴雨的落区和强度,台风大风区明显不对称分布,台风登陆后第一、四象限过境山区,其东侧强偏南气流向山区输送了充足水汽。台风登陆前山区低空存在一条由台风内核拖曳出的狭长螺旋辐合带,水汽通量辐合与风场辐合相一致。台风眼墙过境时沿着降水中心的迎风坡有强烈上升运动,动力条件极好,水汽输送带由近地面向对流层低层延展,山区有零星对流单体触发加强。台风后部环流影响时在高海拔山区风速减弱、绕流激发了中尺度低涡,强降水中心迎风坡上出现持续性、停滞不动的强正涡度中心,是特大暴雨发生的主要原因。地形敏感性试验中无地形时降水减幅40%~50%,地形高度翻倍降水增幅超过60%。 相似文献
875.
Wenyan Sui Junru Guo Jun Song Zhiliang Liu Meng Wang Xibin Li Yanzhao Fu Yongquan Li Yu Cai Linhui Wang Lingli Li Xiaofang Guo Wenting Zuo 《海洋学报(英文版)》2021,40(3):142-152
The new gravity field models of gravity field and steady-state ocean circulation explorer(GOCE), TIM_R6 and DIR_R6, were released by the European Space Agency(ESA) in June 2019. The sixth generation of gravity models have the highest possible signal and lowest error levels compared with other GOCE-only gravity models, and the accuracy is significantly improved. This is an opportunity to build high precision geostrophic currents. The mean dynamic topography and geostrophic currents have been calculated by the 5 th(TIM_R5 and DIR_R5), 6 th(TIM_R6 and DIR_R6) release of GOCE gravity field models and ITSG-Grace2018 of GRACE gravity field model in this study. By comparison with the drifter results, the optimal filtering lengths of them have been obtained(for DIR_R5, DIR_R6, TIM_R5 and TIM_R6 models are 1° and for ITSG-Grace2018 model is 1.1°). The filtered results show that the geostrophic currents obtained by the GOCE gravity field models can better reflect detailed characteristics of ocean currents. The total geostrophic speed based on the TIM_R6 model is similar to the result of the DIR_R6 model with standard deviation(STD) of 0.320 m/s and 0.321 m/s, respectively. The STD of the total velocities are 0.333 m/s and 0.325 m/s for DIR_R5 and TIM_R5. When compared with ITSG-Grace2018 results, the STD(0.344 m/s) of total geostrophic speeds is larger than GOCE results, and the accuracy of geostrophic currents obtained by ITSG-Grace2018 is lower. And the absolute errors are mainly distributed in the areas with faster speeds, such as the Antarctic circumpolar circulation, equatorial region, Kuroshio and Gulf Stream areas. After the remove-restore technique was applied to TIM_R6 MDT, the STD of total geostrophic speeds dropped to 0.162 m/s. 相似文献
876.
低纬高原地形对强降水过程影响的数值试验研究 总被引:4,自引:0,他引:4
在对云南2001年5月31日~6月2日的强降水过程较为真实模拟的基础上,对云南特有的地形对此次强降水过程的影响进行了对比试验.结果表明:红河河谷的喇叭口地形结构对此次云南强降水的落区和降水强度都有着不可忽视的作用,它不但能改变近地层气流的走向,而且对低层水汽通量散度分布也有一定的影响;同时,改变云南南部地形对此次强降水过程的气流走向和水汽分布也都有影响,但相对而言不如红河河谷的作用显著;而降低云南东北部地形,则使云南北部的近地层气流辐合线发生变化,它主要对此次云南北部地区的降水产生影响,但对该地区水汽输送影响不大. 相似文献
877.
Gravity and magnetic data inversion for 3D topography of the Moho discontinuity in the northern Red Sea area, Egypt 总被引:1,自引:0,他引:1
The main goal of our study is to investigate 3D topography of the Moho boundary for the area of the northern Red Sea including Gulf of Suez and Gulf of Aqaba. For potential field data inversion we apply a new method of local corrections. The method is efficient and does not require trial-and-error forward modeling. To separate sources of gravity and magnetic field in depth, a method is suggested, based on upward and downward continuation. Both new methods are applied to isolate the contribution of the Moho interface to the total field and to find its 3D topography. At the first stage, we separate near-surface and deeper sources. According to the obtained field of shallow sources a model of the horizontal layer above the depth of 7 km is suggested, which includes a density interface between light sediments and crystalline basement. Its depressions and uplifts correspond to known geological structures. At the next stage, we isolate the effect of very deep sources (below 100 km) and sources outside the area of investigation. After subtracting this field from the total effect of deeper sources, we obtain the contribution of the Moho interface. We make inversion separately for the area of rifts (Red Sea, Gulf of Suez and Gulf of Aqaba) and for the rest of the area. In the rift area we look for the upper boundary of low-density, heated anomalous upper mantle. In the rest of the area the field is satisfied by means of topography for the interface between lower crust and normal upper mantle. Both algorithms are applied also to the magnetic field. The magnetic model of the Moho boundary is in agreement with the gravitational one. 相似文献
878.
879.
YANG JianWen FENG ZuoHai LUO XianRong & CHEN YuanRong Faculty of Earth Sciences Guilin University of Technology Guilin China 《中国科学:地球科学(英文版)》2010,(1)
Both topography and buoyancy can drive groundwater flow;however,the interactions between them are still poorly understood.In this paper,the authors conduct numerical simulations of variable-density fluid flow and heat transport to quantify their relative importance.The finite element modeling experiments on a 2-D conceptual model reveal that the pattern of groundwater flow depends largely upon the relative magnitude of the flow rate due to topography alone and the flow rate due to buoyancy alone.When fluid ... 相似文献
880.
Guoliang Zhou Xiaojun Li Xingjun Qi Institute of Engineering Mechanics China Earthquake Administration Harbin China School of Civil Engineering Sh ong Jianzhu University Ji’nan China 《地震学报(英文版)》2010,(1):53-61
To evaluate the importance of the canyon topography effects on large structures, based on a rigid frame bridge across a 137-m-deep and 600-m-wide canyon, the seismic response of the canyon site is analyzed using a two-dimensional finite element model under different seismic SV waves with the assumptions of vertical incidence and oblique incidence to obtain the ground motions, which are used as the excitation input on the pier foundations of the bridge with improved large mass method. The results indicate th... 相似文献