利用HVSR曲线初步分析曼谷盆地近期中至大地震的放大地震动

IF 3.8 Q2 ENVIRONMENTAL SCIENCES
Teraphan Ornthammarath, Amorntep Jirasakjamroonsri, Patinya Pornsopin, Rajesh Rupakhety, Nakhorn Poovarodom, Pennung Warnitchai, Tun Tun Tha Toe
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引用次数: 0

摘要

曼谷盆地从对当地人口的非仪器观测中得知,由于深冲积沉积物和盆地几何形状,该盆地受到地面运动放大的影响。本研究分析了现有的地震资料,证实了曼谷盆地的盆地效应是显著的。本文通过表征曼谷盆地的工程地震动参数和HVSR曲线,有助于评价盆地效应,这些参数和HVSR曲线相对于附近的岩石场地产生了地震动持续时间的延长,尽管地震动非常低。为此,我们分析了2007年至2021年曼谷冲积盆地地震台站的地面运动记录。在8次Mw≥5.5级地震中,盆地内地震台站记录的峰值水平地面加速度(PGA)均超过1 cm/s2。其中,2次是岩内地震,6次是浅层地壳地震。这些记录到的地面运动震动了曼谷的高层建筑,尽管震中距离超过600公里。通过对曼谷盆地地震动记录进行残差分析、HVSR分析、Hodogram plots等时域和频域分析,确定了记录地震动的频率含量,论证了深盆诱发的表面波对工程地震动幅值的影响。此外,利用无心圆阵微震分析确定了沉积盆地至基岩的深度。基于与位于曼谷盆地以外的台站的比较,我们观察到曼谷盆地的冲积沉积物将地面运动记录放大了约3倍。我们观察到,在0.3 ~ 0.1 Hz之间,由于局部表面波的作用,存在独特的场地放大效应,而在2 ~ 0.5 Hz之间,由于软层的作用,与其他大都市地区的其他深层冲积盆地一样,存在中等放大效应。我们注意到,在0.1 ~ 0.3 Hz之间有一个独特的位点放大效应,在2 ~ 0.5 Hz附近有一个较小的峰值,这与深盆地相关的位点放大效应的预期一致。此外,我们注意到盆地内产生的表面波存在低频含量,值得通过盆地地形和速度模型进行二维/三维地震动建模进行进一步研究。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Preliminary analysis of amplified ground motion in Bangkok basin using HVSR curves from recent moderate to large earthquakes
The Bangkok Basin has been known from non-instrumental observations of the local population to be subject to ground motion amplification due to the deep alluvial sediments and basin geometry. This study analyzes available seismic data to confirm that basin effects are significant in the Bangkok Basin. The paper contributes to the evaluation of basin effects by characterizing the engineering ground motion parameters and HVSR curves for the Bangkok basin which produce lengthening of ground motion duration with respect to nearby rock sites, albeit with very low ground motions. For this purpose, we analyzed ground motion records from seismic stations located within the Bangkok alluvial basin from 2007 to 2021. Recorded peak horizontal ground acceleration (PGA) for seismic stations inside the basin always exceeded 1 cm/s2 during eight earthquakes with Mw ≥ 5.5. Of these, two were intraslab events and six were shallow crustal earthquakes. These recorded ground motions shook high-rise buildings in Bangkok even though their epicentral distance exceeded 600 km. Several time and frequency domain analyses (such as analysis of residual, HVSR, Hodogram plots, etc.) are used on the ground motion records in the Bangkok basin to determine the frequency content of recorded ground motion and to demonstrate the significance of surface waves induced by the deep basin in altering the engineering ground motion amplitudes. In addition, centerless circular array microtremor analysis is used to determine the depth of sedimentary basin to the bedrock. Based on comparisons from those stations located outside the Bangkok basin, we observed the capability of alluvial deposits in the Bangkok basin to amplify ground motion records by about 3 times. We observed that there is a unique site amplification effect between 0.3 and 0.1 Hz due to local surface waves and other moderate amplifications between 2 and 0.5 Hz due to a soft layer like other deep alluvial basins in other metropolitan areas. We noticed that there is a unique site amplification effect between 0.1 and 0.3 Hz and smaller peaks around 2 and 0.5 Hz consistent with expectations for site amplification effects associated with deep basins. Moreover, we noticed the presence of low frequencies content of the surface wave generated within the basin which deserved further studies using the 2D/3D ground motion modelling through basin topography and velocity models.
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来源期刊
Geoenvironmental Disasters
Geoenvironmental Disasters Social Sciences-Geography, Planning and Development
CiteScore
8.90
自引率
6.20%
发文量
22
期刊介绍: Geoenvironmental Disasters is an international journal with a focus on multi-disciplinary applied and fundamental research and the effects and impacts on infrastructure, society and the environment of geoenvironmental disasters triggered by various types of geo-hazards (e.g. earthquakes, volcanic activity, landslides, tsunamis, intensive erosion and hydro-meteorological events). The integrated study of Geoenvironmental Disasters is an emerging and composite field of research interfacing with areas traditionally within civil engineering, earth sciences, atmospheric sciences and the life sciences. It centers on the interactions within and between the Earth''s ground, air and water environments, all of which are affected by climate, geological, morphological and anthropological processes; and biological and ecological cycles. Disasters are dynamic forces which can change the Earth pervasively, rapidly, or abruptly, and which can generate lasting effects on the natural and built environments. The journal publishes research papers, case studies and quick reports of recent geoenvironmental disasters, review papers and technical reports of various geoenvironmental disaster-related case studies. The focus on case studies and quick reports of recent geoenvironmental disasters helps to advance the practical understanding of geoenvironmental disasters and to inform future research priorities; they are a major component of the journal. The journal aims for the rapid publication of research papers at a high scientific level. The journal welcomes proposals for special issues reflecting the trends in geoenvironmental disaster reduction and monothematic issues. Researchers and practitioners are encouraged to submit original, unpublished contributions.
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