考虑潮汐效应和海岸滑坡情景的Makran地震对卡塔尔海岸线的海啸危害评估

Khaled Al-Salem, Mohammad Al-Sarawi
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引用次数: 0

摘要

为了协助分析卡塔尔沿海地区的海啸灾害,我们使用了数值模式。考虑到沿马克兰俯冲带(MSZ)的里氏(Mw) 8.6级和里氏9.0级海底地震引起的海啸,以及阿拉伯海湾内伊朗海岸1.25 ~ 2.0 km3的土壤层滑坡。本研究采用TUNAMI-N2KISR模型(Al-Salem)预测海啸传播和海啸波高震级。该模型用于求解描述非线性长波理论的浅水方程组。该模型还考虑了阿拉伯湾内部的潮汐效应,在大潮期间,海啸从Makran俯冲到卡塔尔海岸线的时间超过9小时,潮汐差约为1.6 m。对于沿海滑坡,通过求解非线性长波方程建立了一个双层数值模型来模拟海啸的产生。采用两层模型确定滑坡的初始波变形。然后利用TUNAMI-N2KISR模拟海啸波的传播。山体滑坡引发的海啸波在2.5 - 3小时后到达,Ras laffan-Qatar沿岸的最大海啸震级为0.8 - 1.0米。由于卡塔尔海岸及附近地区的潮汐差较小,因此发现海潮的加入对该地区Mw 9.0级地震的海啸振幅有较小的影响。此外,还发现海啸到达时间变短了。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Tsunami Hazard Assessment on Qatar Coastline from Makran Earthquakes Considering Tidal Effect and Coastal Landslides Scenarios
To assist the analysis of tsunami hazards for Qatar coastal areas were using numerical model. By Tsunamis waves created from submarine earthquakes of magnitude of (Mw) 8.6 and 9.0 in Richard scale along the Makran Subduction Zone (MSZ) as well as coastal landslides with soil volume of 1.25 to 2.0 km3 along Iranian coast inside the Arabian Gulf is considered. TUNAMI-N2KISR model (Al-Salem) was applied in this study to predict the tsunami propagation and magnitude of Tsunami induced wave heights. The model adopts to solve shallow water equations describing nonlinear long-wave theory. The model also incorporate tidal effect inside the Arabian Gulf as a tsunami travel time from Makran Subduction to Qatar coastline takes more than 9 hours with the tidal range of about 1.6 m during Spring Tide event. For coastal landslides, tsunami generation was simulated using a two-layer numerical model, developed by solving nonlinear long-wave equations. Two-layer model was used to determine initial wave deformation generated by a landslide case. Then TUNAMI-N2KISR was use to simulate tsunami wave propagation. Tsunami waves from landslide scenario arrived after 2.5 - 3 hr with maximum tsunami amplitudes along coasts of Ras laffan-Qatar were 0.8 to 1.0 m. Incorporation of ocean tide is found to impose some small effect on tsunami amplitude at Qatar coastline and nearby areas for the Mw 9.0 earthquake due to small tidal range in this area. In addition, it is found that the tsunami arrival time has become shorter.
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