初始释放质量大小变化对滑坡海啸动力学的影响

J. Kafle, Gr Acharya, Parameshwari Kattel, Puskar R. Pokhrel
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引用次数: 2

摘要

当泥石流、滑坡或任何重力质量流撞击海洋、峡湾、水库、山湖、海湾、滑坡坝等封闭或部分开放的水源时,通过将其冲击能量转化为水体而产生海啸(脉冲水波),可能造成近场和远海岸基础设施的破坏和人员伤亡。灾害的强度取决于滑坡的规模、位置和过程,也取决于水库的体积和周围的地形。初始释放体的体积或大小是决定飞溅程度、传播速度和流体波的振幅以及潜在的溃坝或水溢出的主要因素之一。本文对两相质量流模型进行了数值积分[j]。Res. 117(F03010), 2012]的准三维、高分辨率模拟结果,包括纵向和横向两阶段初始滑坡或碎片的大小变化。在我们的数值实验结果中,我们观察到储层中固体和流体的演化以及波浪结构有着根本的不同。通过沿下坡和/或跨坡方向扩展或收缩基底面积,不同体积的释放质量,水下固体流动动力学也有显著差异。模拟结果表明,通过增加释放基地的长度和宽度,增加以三角形楔形形式出现的初始释放质量的体积,从而增加释放基地的面积,从而迅速增加海啸的振幅和耗尽程度。这项研究有助于制定和实施减轻海啸危害的战略,以加强公共安全,减少因滑坡引起的波浪危害而造成的潜在损失。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Impact of variation of size of the initial release mass in the dynamics of landslide generated tsunami
When debris flows, landslides, or any gravitational mass flows hit closed or partially open water sources such as seas, oceans, fjords, hydraulic reservoirs, mountain lakes, bays, and landslide dams, it results in tsunami (impulse water waves) by transforming their impact energy to water body, potentially causing damages of infrastructures and human casualties both near field and the distant coastlines. The intensity of hazard depends on the scale, location and process of the landslide, and also on the reservoir volume and topography that surrounds it. Volume or size of the initial release mass that fails and slides along a slope is one of the dominant factors to determine the degree of splash, propagating speed and the amplitudes of the fluid waves, and potential dam breach or water spill over. Here, we numerically integrate the two-phase mass flow model [Pudasaini S. P., J. Geophysi. Res. 117(F03010), 2012] for quasi-three-dimensional, high-resolution simulation results with variation of size of the two-phase initial landslide or debris both longitudinally and laterally. In our numerical experimental results, we observe fundamentally different solid and fluid evolution and wave structures in the reservoir. There are also significant differences in the flow dynamics of solid under water for different volumes of the release mass by extending or contracting the base area along downslope and/or cross-slope directions. The simulation results show that tsunami amplitudes and run out extents are rapidly increased when the volume of the initial release mass in the form of a triangular wedge is increased by increasing the base area through the increment of the length and breadth of the release base. This study can be useful to develop and implement tsunami hazard mitigation strategies to enhance public safety and reduce potential loss due to landslide-generated wave hazards.
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