象山港潮波响应和变形研究 Ⅲ.潮滩位置和平流效应对M₄分潮的作用   总被引：1，自引：1，他引：0  

董礼先  苏纪兰  王丽娅 《海洋学报》1999,21(3):1-6

通过半封闭矩形理想海湾的潮波运动数值模拟,分析了潮滩及平流效应对M₄分潮的生成和增长的影响.结果说明潮滩的作用不但依赖本身的规模和湾内潮波非线性的强弱,而且与潮滩在湾内所处位置关系很大.在存在M₄分潮共振的海湾中,平流效应可以抑制共振对M₄分潮的放大作用.  相似文献   

坡面非均匀沙输移机理实验方法     

王协康  方铎  曹叔尤  姚令侃 《山地学报》1999,17(3):230-234

在分析坡面泥沙输移现象的基础上,以室内沙堆模型实验量化其输沙特征,得出其在空间上具有自相似分形的动力学过程,从理论上应用水动力学弥散特性进一步证实,结果符合较好。  相似文献   

云南严重低温霜冻灾害天气个例分析   总被引：2，自引：1，他引：1  

解明恩程建刚  鲁亚斌范菠 《气象科技》2005,33(3):250-255

1999年12月下旬特大霜冻灾害是云南1951年以来损失最大的一次自然灾害,受灾面积85万hm^2,直接经济损失55亿元。利用高空和地面气象资料,分析了严重低温霜冻灾害的天气成因,并与历史上的1973／1974、1975／1976年冬季云南两次严重霜冻灾害进行了比较。结果表明：特大霜冻灾害是在云南连续暖冬背景下发生的,对云南经济作物和热带作物的危害最大。高空冷平流与地面冷高压控制下长时间夜间晴空辐射冷却降温是此次重霜冻形成的主要原因,500hPa、700hPa偏北气流和干冷南支槽是主要影响天气系统。碧空无云、静风、湿度小、气温低、气压高、露点温度特低是此次重霜冻的主要气象要素变化特征。冻害以滇南热带作物种植区最为严重。关键词霜冻低温冷平流晴空辐射暖冬  相似文献   

全球典型低云区中各类低云云量与水平温度平流关系的单点个例分析     

顾荣直  王必正  章丽娜 《气候与环境研究》2005,10(3):615-625

选取欧洲中心40年再分析资料(ERA40)中2001年7月的775hPa和925hPa等压面上的风场和温度场资料与ISCCP同时段的低云资料,利用条件概率方法(云频数)和逐日演变的动态方法分析全球典型低云区单点的云量与水平温度平流的关系.结果表明:全球典型低云区单点上各种云的云量与水平温度平流之间的关系是十分复杂的,在某种平流下各种云均有可能出现,某种云也能在不同的平流下出现.全球典型低云区单点云量与水平温度平流的逐日演变没有明显的同步性.因此,从已知的水平温度平流条件来预报各类低云云量是没有充分的观测事实作为依据的.  相似文献   

海雾生成过程中平流、湍流和辐射效应的数值试验   总被引：11，自引：0，他引：11  

胡瑞金  董克慧  周发琇 《海洋科学进展》2006,24(2):156-165

利用相对湿度方程,结合数值模式研究了在海雾生成过程中平流、湍流和辐射的效应。结果表明,海雾生成的主要“推动力”是长波辐射冷却,湍流冷却在低层主要发生在平流的初始阶段。随着时间的推移,湍流对低层大气很快变为起加热作用,不利于海雾的生成。湍流和辐射效应在低层大气中符号相反(仅在海雾生成的初始阶段符号相同),量级相同,在高层大气中湍流和辐射效应符号相同,但辐射效应占优势。湍流效应和辐射效应是影响海雾生成的主要因素,平流直接作用似乎不大。平流、湍流和辐射效应及其总效应均随时间推移而减小。另外,还初步研究了风速大小和海温高低对平流、湍流和辐射效应及海雾生成的影响。  相似文献   

热带太平洋盐度变化:2015?2017年盐度异常     

史荒原  杜凌  徐道欢 《海洋学报》2020,42(3):47-58

本文利用Argo海水盐度资料、海流同化数据和同期大气再分析数据,探讨热带太平洋盐度趋势变化和相关动力过程。Argo资料显示,2015?2017年热带太平洋出现显著的盐度异常(SAE),这是改变长期趋势的主要原因,表现为表层显著淡化和次表层咸化特征。这种盐度异常具有明显的区域性特征和垂直结构的差异,体现在热带太平洋北部海区(NTP)和南太平洋辐合区(SPCZ)表层淡化,盐度最大变幅为0.71～0.92,淡化可以达到混合层底;热带太平洋南部海区(STP)次表层咸化,最大变幅为0.46,主要发生在温跃层附近,期间盐度异常沿着等位密面从西向东扩展。平流和挟卷是与SAE密切相关的海洋动力过程,两者在NTP淡化海域有着持续而较为显著的影响,在SPCZ淡化、STP咸化海域后期贡献也较大,其中盐度平流对热带太平洋海区盐度变化起主要贡献。NTP淡化海区表层淡水通量和STP咸化海区密度补偿引起的混合也是SAE的重要影响因素。  相似文献   

平直斜坡上破波带内质量输移流对污染物输移影响的数值研究     

任春平  梁荣荣  郁重  白玉川 《海洋学报(英文版)》2019,38(9):102-112

破波带内外都有质量输移流存在,其对破波带内污染物输移有怎样的影响,需要进一步深入研究。本文基于实验以及考虑质量输移流的对流扩散数学模型研究了平直斜坡上破波带内质量输移流对污染物输移影响。数学模型包括波浪模型、近岸流模型以及对流扩散模型。首先建立了破波带内污染物输移数学模型,其中波浪场基于波能守恒方程来计算,波导流场基于Longuet-Higgins提出的辐射应力模拟,污染物对流扩散方程中考虑了质量输移流的影响,并利用算例验证该数学模型。其次简要介绍了平直斜坡上破波带内污染物输移实验,并分析了污染物输移特性。连续投放污染物会形成污染带,本文分析了两种波况下不同时刻污染带与岸线夹角的变化,以及污染物在垂直岸线和沿岸线方向的输移速度,结果表明对两种波况来说在初始10-40s污染团向岸线方向输移速度分别约为0.05m/s、0.017m/s,之后速度分别减小为0.001m/s、0.011m/s。数值模拟结果与实验结果比较表明：考虑质量输移流的模拟结果与实验更为吻合。因而,通过实验以及数模研究表明破波带内质量输移流对破波带内污染物在垂直岸线方向的输移有重要影响,而对沿岸方向的输移则影响较小。  相似文献   

Physical processes causing the formation of hypoxia off the Changjiang estuary after Typhoon Chan-hom, 2015     

GUO Yaru  RONG Zengrui  LI Bo  XU Zhao  LI Pixue  LI Xiaodan 《海洋湖沼学报（英文）》2019,(1):1-17

Severe hypoxia was observed in the submarine canyon to the east of the Changjiang estuary in July 14, 2015, two days after typhoon Chan-hom. The oxygen concentration reached as low as 2.0 mg/L and occupied a water column of about 25 m. A ROMS model was con?gured to explore the underlying physical processes causing the formation of hypoxia. Chan-hom passed through the Changjiang estuary during the neap tide. The strati?cation was completely destroyed in the shallow nearshore region when typhoon passing. However, it was maintained in the deep canyon, though the surface mixed layer was largely deepened. The residual water in the deep canyon is considered to be the possible source of the later hypoxia. After Chan-hom departure, not only the low salinity plume water spread further of fshore, but also the sea surface temperature(SST) rewarmed quickly. Both changes helped strengthen the strati?cation and facilitate the formation of hypoxia. It was found that the surface heat ?ux, especially the solar short wave radiation dominated the surface re-warming, the of fshore advection of the warmer Changjiang Diluted Water(CDW) also played a role. In addition to the residual water in the deep canyon, the Taiwan Warm Current(TWC) was found to ?ow into the deep canyon pre-and soon post-Chan-hom, which was considered to be the original source of the hypoxia water.  相似文献   

NUMERICAL STUDY ON FUNCTIONS AFFECTING TROPICAL CYCLONE STRUCTURE AND MOTION     

陈联寿  罗哲贤 《Acta Meteorologica Sinica》1998,(4)

By using a beta-plane quasigeostrophic barotropic model,four numerical experiments withintegration time more than five days are performed.Results show that the vorticity advection termand beta term are two basic factors significantly affecting tropical cyclone structure and motion.  相似文献   

On the Second-Year Warming in Late 2019 over the Tropical Pacific and Its Attribution to an Indian Ocean Dipole Event※     

Licheng FENG  Fei LIU  Rong-Hua ZHANG  Xue HAN  Bo YU  Chuan GAO 《大气科学进展》2021,38(12):2153-2166

After its maturity, El Ni?o usually decays rapidly in the following summer and evolves into a La Ni?a pattern. However, this was not the case for the 2018/19 El Ni?o event. Based on multiple reanalysis data sets, the space-time evolution and triggering mechanism for the unusual second-year warming in late 2019, after the 2018/19 El Ni?o event, are investigated in the tropical Pacific. After a short decaying period associated with the 2018/19 El Ni?o condition, positive sea surface temperature anomalies (SSTAs) re-intensified in the eastern equatorial Pacific in late 2019. Compared with the composite pattern of El Ni?o in the following year, two key differences are evident in the evolution of SSTAs in 2019. First, is the persistence of the surface warming over the central equatorial Pacific in May, and second, is the re-intensification of the positive SSTAs over the eastern equatorial Pacific in September. Observational results suggest that the re-intensification of anomalous westerly winds over the western and central Pacific, induced remotely by an extreme Indian Ocean Dipole (IOD) event, acted as a triggering mechanism for the second-year warming in late 2019. That is, the IOD-related cold SSTAs in the eastern Indian Ocean established and sustained anomalous surface westerly winds over the western equatorial Pacific, which induced downwelling Kelvin waves propagating eastward along the equator. At the same time, the subsurface ocean provided plenty of warm water in the western and central equatorial Pacific. Mixed-layer heat budget analyses further confirm that positive zonal advection, induced by the anomalous westerly winds, and thermocline feedback played important roles in leading to the second-year warming in late 2019. This study provides new insights into the processes responsible for the diversity of El Ni?o evolution, which is important for improving the physical understanding and seasonal prediction of El Ni?o events.  相似文献