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1.
根据渤海区域地质断层特征和历史地震活动规律,分析得出渤海内潜在最大震级上限为8.1级,并对该海啸源可能的两组震源机制分别进行了数值模拟。模拟结果显示:渤海局部区域海啸波幅最大可达 1.5 m,最大流速可达2.8~3.0 m/s,具备造成灾害损失的风险。在该海啸源情景下,渤海海盆内易激发长期的水位自由振荡,部分区域水位振荡可持续 20 h以上,振荡波幅的大小与海啸首波波幅相当或更大。基于快速傅里叶变换方法对海啸波进行频谱分析,部分长周期频谱成分满足区域固有共振特征。因此,渤海内一旦发生海啸,不仅要关注海啸首波可能造成的灾害性影响,还要密切关注海啸首波到达后,可能产生的长时间、长周期的海啸波共振以及往复式海啸流造成的影响。 相似文献
2.
马尼拉俯冲带潜在地震海啸对我国南部沿海城市构成巨大威胁,利用情景式数值模拟技术重构灾害过程并评估危险等级有助于理解南海海啸传播规律并指导预警预报和防灾减灾工作。根据美国太平洋海洋环境研究中心(Pacific Marine Environmental Laboratory, PMEL)发布的马尼拉俯冲带断层参数设计Mw 7.5、Mw 8.1和Mw 8.5三个震级下共19个震源,应用非静压海啸数值模型(Non-hydrostatic Evolution of Ocean WAVE, NEOWAVE)模拟各震源激发海啸在南海海盆的传播过程,通过最大波辐和测点时间序列发现海啸波能量传输分布并评估代表区域危险等级。研究表明, Mw 7.5级地震海啸对我国南部沿海的影响较低,波幅一般不超过30 cm; Mw 8.1级地震海啸对华南沿海主要造成太平洋海啸预警中心定义的Ⅱ或Ⅲ级海啸危险等级,海啸影响范围和能量分布特征由震源位置决定; Mw 8.5级地震海啸主要对中国沿海构... 相似文献
3.
2017年9月8日4时49分(UTC),墨西哥瓦哈卡州沿岸海域(15.21°N,93.64°W)发生Mw8.2级地震,震源深度30 km。强震在该海域引发海啸,海啸对震源附近数百千米范围内造成了严重影响。位于太平洋上的多个海啸监测网络捕捉到了海啸信号并详细记录了此次海啸的传播过程。本文选用了近场2个DART浮标和6个验潮站的水位数据,通过潮汐调和分析和滤波分离出海啸信号,对近场海啸特征值进行了统计分析,并采用小波变换分析方法进一步分析了海啸的波频特征。基于Okada弹性位错理论断层模型计算得到了强震引发的海底形变分布,并采用MOST海啸模式对本次海啸事件近场传播特征进行了模拟,模拟结果与观测吻合较好。最后,基于实测和模拟结果,详细分析了此次地震海啸的近场分布特征,发现除受海啸源的强度和几何分布特征影响外,近岸海啸波还主要受地形特征控制,在与特定地形相互作用后波幅产生放大效应,会进一步加剧海啸造成的灾害。 相似文献
4.
基于数值模拟的渤海海域地震海啸危险性定量化研究 总被引:1,自引:1,他引:0
根据地震海啸产生的条件,结合渤海海域的地形特征、地质构造、地震学特征和历史地震及海啸记录对渤海海域潜在的地震海啸进行了数值模拟研究。分析了渤海可能引发地震海啸的震源区域,讨论了渤海发生海啸灾害的可能性。文中通过数值模拟再现了渤海历史上几次规模较大的地震事件可能引发的海啸情景,研究分析了可能的地震海啸在渤海及周边海域的传播过程及波动特征.地震海啸传播模型采用基于四叉树原理的自适应网格加密技术,有效解决了局部分辨率与计算效率之间的矛盾。数值计算包括地震海啸产生及传播过程。利用该模型对渤海潜在的地震海啸进行了数值计算,基于数值计算结果定量阐述了渤海海域潜在地震海啸对渤海局部岸段及北黄海沿岸的影响,给出了渤海可能地震海啸危险性划分;研究结果将为我国海啸危险性分析和海啸预警技术研究工作提供技术支持。 相似文献
5.
南海潜在海啸灾害的模拟 总被引:7,自引:0,他引:7
结合南海海域的地形条件、地质构造、地震学特征以及历史地震记录,在回顾总结国内外学者研究的基础上,分析了南海可能引发地震海啸的震源区域,并讨论了在我国南海沿岸发生海啸灾害的潜在可能性。采用目前在国际上广泛使用的COMCOT海啸模式,对马尼拉海沟的潜在地震引发的海啸进行了数值模拟计算,计算中包含了由地震参数到海面初始变形的转换、海啸的深水传播过程以及海啸的浅水传播过程。采用三重嵌套网格,外层网格对应于大范围的深水区域,使用球坐标系下的线性控制方程;第二层网格对应中等范围的较浅水区域,使用球坐标系下的非线性控制方程;第三层网格对应小范围的浅水区域,使用直角坐标系下的非线性控制方程。由模拟计算得到的海啸传时分布、近岸海面升降强度、四个特定点上海面高度随时间变化等的结果表明,我国南海沿岸遭受海啸袭击的可能性是存在的,应进一步对南海海啸进行监测、预警和研究。COMCOT模式性能良好,可用于对南海潜在地震海啸的进一步模拟研究。 相似文献
6.
浙江沿海潜在区域地震海啸风险分析 总被引:3,自引:2,他引:1
采用COMCOT海啸模型建立三重网格模型模拟了2011年3月11日日本东北部9.0级地震引发的海啸发生、发展以及在我国东南沿海传播过程。震源附近浮标站以及浙江沿海的潮位站实测资料验证结果显示,大部分监测站首波到达时间和海啸波的计算值相差在15%以内,表明模型可较好的模拟海啸在计算域内的传播过程。研究表明日本南海海槽、冲绳海槽以及琉球海沟南部是影响浙江沿海主要的区域潜在震源,通过情景计算分别模拟3个潜在震源9.1级、8.0级和8.7级地震引发的海啸对浙江沿海的海啸风险,计算结果表明,海啸波产生后可在3~8h内传至浙江省沿岸,海啸波达1~3m,最大可达4m,此时浙江沿岸面临Ⅲ~Ⅳ级海啸风险,达到淹没至严重淹没等级。 相似文献
7.
《海洋通报(英文版)》2015,(1)
近年来,全球海啸灾害频发,给人们带来了巨大损失。为了探索海啸地震发震时的规律,本文统计分析了1976-2010年的美国全球CMT地震矩心矩张量数据,并结合美国海洋与大气局的海啸灾害数据库,从海啸事件和较大海啸事件两个方面对震源机制解展开了对比统计分析,给出了海啸地震在震源方面的统计特征。 相似文献
8.
2011 年11 月, 联合国教科文组织政府间海洋学委员会(IOC/UNESCO)发起了代号为“Exercise Pacific Wave 11”的跨国海啸演习, 演习区域为整个太平洋海区。中国应邀参加了本次演习, 演习在我国海域地震带上假设了两个震源, 分别位于琉球海沟和马尼拉海沟。为了评估这两个潜在海啸对我国的影响, 本文采用数值模拟的方式, 对其进行了计算。计算结果表明: 这两处震源所引发的海啸均能对我国造成灾害性影响, 受影响严重的省市有江苏、上海、浙江、福建、广东和海南等; 从传播时间图上看, 若发生大海啸, 海啸波将在5 h 内, 陆续影响沿海各省市; 相比琉球海沟, 马尼拉海沟震源产生的海啸会更快到达我国沿岸。 相似文献
9.
2015年9月16日22时54分(当地时间)智利中部近岸发生Mw8.3级地震,震源深度25 km。同时,强震的破裂区长200 km,宽100 km,随之产生了中等强度的越洋海啸。海啸影响了智利沿岸近700 km的区域,局部地区监测到近5 m的海啸波幅和超过13 m的海啸爬坡高度。太平洋区域的40多个海啸浮标及200多个近岸潮位观测站详细记录了此次海啸的越洋传播过程,为详细研究此次海啸近场及远场传播及演化规律提供了珍贵的数据。本文选择有限断层模型和自适应网格海啸数值模型建立了既可以兼顾越洋海啸的计算效率又可以实现近场海啸精细化模拟的高分辨率海啸模型。模拟对比分析了海啸的越洋传播特征,结果表明采用所建立的模型可以较好地再现远场及近场海啸特征,特别是对近场海啸的模拟结果非常理想。表明有限断层可以较好地约束近场、特别是局部区域的破裂特征,可为海啸预警提供更加精确的震源信息,结合高分辨率的海啸数值预报模式实现海啸传播特征的精细化预报。本文结合观测数据与数值模拟结果初步分析了海啸波的频散特征及其对模型结果的影响。同时对观测中典型的海啸波特征进行的简要的总结。谱分析结果表明海啸波的能量主要分布在10~50 min周期域内。这些波特征提取是现行海啸预警信息中未涉及,但又十分重要的预警参数。进一步对这些波动特征的详细研究将为海啸预警信息及预警产品的完善提供技术支撑。 相似文献
10.
影响地震海啸的震源参数众多且具有很强的不确定性,充分评估海啸风险需要大量的情景模拟。本文基于建立的概率海啸风险模型,采用一种高效的海啸模拟方法,评估了南海主要岛礁的概率海啸风险。通过对历史地震数据的分析,综合考虑震级、震中位置、震源深度的随机性,形成了百万数量级的潜在地震情景集,并通过叠加近似方法实现了大量地震情景引发海啸过程的模拟。该方法将数量庞大的地震海啸情景转化为有限的单位源水位扰动的传播计算,利用单位扰动源的传播演进数据库,计算目标位置的水位波动过程,可以很大程度上降低大规模情景模拟的计算负担。基于大规模情景模拟,结合各情景出现的概率,客观地给出了南海主要岛礁的海啸波高重现期,为海岛防灾减灾提供参考。研究结果表明,大多数目标岛礁处百年一遇的海啸波高不超过0.4 m。南海内不同位置处的海啸风险有较大差异,东沙群岛附近百年一遇的海啸波高超过0.6 m,而西沙的永乐群岛和南沙群岛的海啸波高显著低于其他区域。 相似文献
11.
海洋环境不仅决定着工程及人员的安全,也决定着工程建设的效率和经济收益。由此,在海上丝路建设过程中,需要重视海洋环境对经济建设、岛礁建设和战略通道安全的影响,以达到更好更快地建设海上丝路。文章利用ERA-interim阵风资料、ERA-interim海浪再分析资料,采用Gumbel曲线法推算了海上丝路0.25°×0.25°逐网格点上的50年一遇极值风速、极值波高。另外,还计算了某边远海岛的1年一遇、2年一遇、10年一遇……1 000年一遇的极值风速、极值波高。期望可以为海上丝路建设提供参考。 相似文献
12.
Shandong province is located on the east coast of China and has a coastline of about 3100 km. There are only a few tsunami events recorded in the history of Shandong Province, but the tsunami hazard assessment is still necessary as the rapid economic development and increasing population of this area. The objective of this study was to evaluate the potential danger posed by tsunamis for Shandong Province. The numerical simulation method was adopted to assess the tsunami hazard for coastal areas of Shandong Province. The Cornell multi-grid coupled tsunami numerical model (COMCOT) was used and its efficacy was verified by comparison with three historical tsunami events. The simulated maximum tsunami wave height agreed well with the observational data. Based on previous studies and statistical analyses, multiple earthquake scenarios in eight seismic zones were designed, the magnitudes of which were set as the potential maximum values. Then, the tsunamis they induced were simulated using the COMCOT model to investigate their impact on the coastal areas of Shandong Province. The numerical results showed that the maximum tsunami wave height, which was caused by the earthquake scenario located in the sea area of the Mariana Islands, could reach up to 1.39 m off the eastern coast of Weihai city. The tsunamis from the seismic zones of the Bohai Sea, Okinawa Trough, and Manila Trench could also reach heights of >1 m in some areas, meaning that earthquakes in these zones should not be ignored. The inundation hazard was distributed primarily in some northern coastal areas near Yantai and southeastern coastal areas of Shandong Peninsula. When considering both the magnitude and arrival time of tsunamis, it is suggested that greater attention be paid to earthquakes that occur in the Bohai Sea. In conclusion, the tsunami hazard facing the coastal area of Shandong Province is not very serious; however, disasters could occur if such events coincided with spring tides or other extreme oceanic conditions. The results of this study will be useful for the design of coastal engineering projects and the establishment of a tsunami warning system for Shandong Province. 相似文献
13.
越洋海啸的数值模拟及其对我国的影响分析 总被引:7,自引:2,他引:5
简要介绍了地震海啸产生的物理机制、海啸波在大洋中的传播特性以及海啸所具有的超强破坏力可能引发的巨大灾害;概述了全球地震海啸发生的频率和太平洋区域历史海啸的时空分布;整理分析了我国沿海发生海啸的频次和空间分布。针对越洋海啸传播的特点,采用基于波浪追逐原理和自适应网格加密技术的海啸数值模型对1960智利海啸进行了数值模拟,将模拟的结果与历史记录进行了对比,验证了模型的可靠性。通过对数值模拟结果的分析,初步讨论了我国沿海地区越洋海啸的危险性,并定量阐述了越洋海啸对我国各海区的影响。 相似文献
14.
水下考古已成为考古领域的重要组成部分。在中国沿海,尤其在古海上丝绸之路沿线,留存了大量前人活动的遗迹。水下考古需要使用高新探测设备,并配合合理的操作流程。本文以广东川岛水下考古为例,由多波束测深系统、浅地层剖面仪、侧扫声呐系统和磁力仪等新型高精度海洋物探设备构成水下考古系统,建立了水下考古的基本流程。川岛是古海上丝绸之路的重要泊靠点,在此次川山群岛海域考古调查中,根据多波束大规模覆盖和侧扫声呐拖曳式作业,在泥湾水道、打铁湾以及乌猪洲等处有新的发现,包括清代瓷器碎片和古代铁炮等。川岛水下考古文物的发现,对于进一步沿古海上丝绸之路的文物调查具有重要促进作用,也使水下考古得到更多关注。 相似文献
15.
This study attempts to identify the key factors that will make a tsunami warning system most effective, to develop a framework in which results of natural science and engineering research can be effectively integrated into coastal natural hazard planning, and to develop a numerical example that illustrates how benefit-cost analysis may be used to assess early warning systems. Results of the study suggest that while the science of tsunami wave propagation and inundation is relatively advanced, our knowledge on the relationships between tsunami generation and undersea earthquakes, volcanic eruptions, and landslides remains poor, resulting in significant uncertainties in tsunami forecasting. Probabilities of damaging tsunamis for many coastal regions are still unknown, making tsunami risk assessment and management difficult. Thus it is essential to develop new techniques to identify paleo-tsunami events and to compile and develop size and frequency information on historical tsunamis for different locations. An effective tsunami early warning system must include not only the ocean technologies for accurately detecting an emerging tsunami, but also a civil communication system through which the population can be timely warned by the local government and other sources. Since minimizing the evacuation time is a key factor to make a warning system effective, adequate pre-event education and preparation of the population must be a critical component of the system. Results of a numerical example of the South Pacific region suggest that investments in a tsunami warning system in the region may lead to significant economic benefits. 相似文献
16.
海啸是自然灾害中对人类生命财产安全有严重威胁的灾难之一。随着全球气候变化和全球化贸易日益增强,越来越多的人口和经济暴露于海啸灾害。历史海啸灾害的时空分异分析可以帮助我们认识海啸灾害的演变规律,为灾害预警、灾害防控等提供有益参考。本文通过提取具有完整性和同质性的数据(爬高高度(RH))进行全球海啸的时空分异规律研究,结果表明:(1)对于0.1 m≤RH<0.5 m、0.5 m≤RH<1 m、1 m≤RH<5 m、5 m≤RH<10 m、10 m≤RH<20 m和20 m≤RH的间隔,海啸目录分别自1963年、1940年、1950年、1946年、1922年和1885年以来可以被认为是完整的;(2)全球海啸发生有一定的增加趋势,大约每年会多观测到7次波浪爬高事件。在0.1 m≤RH<5 m区间内,海啸发生呈现一定的周期性。当RH大于5 m时,表现出明显的增加趋势;(3)西北太平洋区域、南太平洋区域、东南太平洋区域、印度洋区域海啸发生有一定的增加趋势,而在北美区域则呈减少趋势,东北大西洋区域无显著变化;(4)除北美区域外,其他区域的海啸发生遵循一定的自组织临界行为,相比来说,东北大西洋区域更容易发生小的海啸事件,而西北太平洋区域和印度洋区域更容易发生各种强度的海啸事件。 相似文献
17.
Bathing beaches are usually the first to suffer disasters when tsunamis occur, owing to their proximity to the sea. Several large seismic fault zones are located off the coast of China. The impact of each tsunami scenario on Chinese bathing beaches is different. In this study, numerical models of the worst tsunami scenarios associated with seismic fault zones were considered to assess the tsunami hazard of bathing beaches in China. Numerical results show that tsunami waves from the Pacific Ocean could affect the East China Sea coast through gaps between the Ryukyu Islands. The Zhejiang and Shanghai coasts would be threatened by a tsunami from Ryukyu Trench, and the coasts of Hainan and Guangdong provinces would be threatened by a tsunami from the Manila Trench. The tsunami hazard associated with the Philippine Trench scenario needs particular attention. Owing to China’s offshore topography, the sequential order of tsunami arrival times to coastal provinces in several tsunami scenarios is almost the same. According to the tsunami hazard analysis results, Yalongwan Beach and eight other bathing beaches are at the highest hazard level. A high-resolution numerical calculation model was established to analyze the tsunami physical characteristics for the high-risk bathing beaches. To explore mitigating effects of a tsunami disaster, this study simulated tsunami propagation with the addition of seawalls. The experimental results show that the tsunami prevention seawalls constructed in an appropriate shallow water location have some effect on reducing tsunami hazard. Seawalls separated by a certain distance work even better. The analysis results can provide a scientific reference for subsequent preventive measures such as facility construction and evacuation. 相似文献
18.
文章构建国内外首份"21世纪海上丝绸之路"波浪能资源大数据框架,主要包括波浪能气候背景特征、波浪能等级区划、波浪能短期预报、涌浪能特征、资源长期变化趋势和资源中长期预测6大模块;按照三维网格和时间序列实现波浪能信息的全面数字化和全息化存储,对数据进行质量控制并实现四维可视化。研究成果可广泛运用于海上风能和海流能等海洋新能源的大数据建设,为国家和参与"21世纪海上丝绸之路"建设的决策人员、研究人员和工程人员提供数据支撑和决策支持,助力"21世纪海上丝绸之路"新能源开发。 相似文献
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Jonathan Nott 《Marine Geology》2004,208(1):1-12
The tsunami hypothesis proposes that prehistoric tsunamis may have been larger than historic ones along coasts normally (historically) not associated with major tsunamis. The evidence for the hypothesis rests with the types of unusual sedimentary deposits and erosional forms along coasts where the largest historic and prehistoric storm waves do not appear capable of forming the features. This is especially the case at locations where boundary conditions, i.e. offshore water depth, coastal geomorphology and meteorological limitations, are not conducive to the propagation of sufficiently large storm waves at the shore. The tsunami hypothesis has been barely debated in the literature. This is despite the view of some, who suggest that storms have been overlooked, or underestimated, as a cause. Few comparisons have been made of the supposed tsunami generated features and the impacts on coasts of extreme intensity storms. Four of the most powerful tropical cyclones anywhere in the world in recent times struck the Western Australian coast between 1999 and 2002. The results of post-event surveys of these storms showed that none of them produced the enigmatic forms attributed elsewhere to tsunamis. 相似文献
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Abstract A necessary stage in calculations for prediction purposes is the study of the tsunami recurrence function which yields mean recurrence of tsunami with maximum wave height not greater than a specified level h. The major problem in using these functions for prediction purposes is the fact that a well‐grounded approximation of empirical data on wave heights is difficult to obtain, because the mathematical model for prediction is an extrapolation of this function for tsunami heights whose recurrence remains uncertain. We shall show that the natural relation of observable tsunamis statistics to extremum statistics leads to the discovery of at least two and possibly three temporal scale intervals with different tsunami modes. It has also been clarified that for the 10 years < T < 103 years range of time periods, which is the most important one for tsunami wave height prediction purposes, the tsunami recurrence is described by two parameters: frequency A of occurrence of large tsunamis and coefficient k of wave ampliflcation near the shore. As an example, a diagram of tsunami hazard zoning of the eastern Honshu coast has been plotted. 相似文献