7.8级廓尔喀地震对加德满都谷地的频率影响

N. Thapa, P. Kiran, ey, S. Ghimire, K. K. Acharya
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引用次数: 1

摘要

2015年4月25日发生的7.8级廓尔喀地震是尼泊尔中部发生在加德满都山谷西北约77公里处的强烈地震。几项研究表明,加德满都谷地相对较大的地震破坏与谷地地面结构有关。研究重点是加德满都谷地7.8 Mw主震损伤以一定模式聚集的原因及其与破碎波频率含量的关系。满足本研究目的的数据主要是地震动数据和震害数据,地震动数据主要采用谷内地震台站。损坏数据由主要和次要来源收集。在研究中引入频域频谱分析,发现最大功率和幅值,关联和归属于特定的窄频带。频率的空间分量是波长,它可以表示最大功率的波峰和波谷的周期性重复。为了估计最大振幅的空间分布,采用了简化的波动关系。研究表明,峰破坏带的横向延伸为波长的四分之一,峰破坏带之间的连续距离为波长的一半。波峰破坏区,即在传播波的波峰或波谷处受到的破坏最大的区域。研究表明,廓尔喀地震的震波传播方向为S45oE。加德满都谷地的地质变化导致了峰破坏带损伤的非均质性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Frequency Dependent Damage Pattern in Kathmandu Valley Due to Mw 7.8 Gorkha Earthquake
The Mw 7.8 Gorkha Earthquake (25th April 2015) is powerful earthquake ripped through Central Nepal occurs about 77 Km northwest of Kathmandu Valley. Several studies reveal the fact that comparatively larger earthquake damage in the Kathmandu valley are associated with the valley ground structure. Study focus on reason behind clustering of damages due to mainshock (7.8 Mw) inside Kathmandu valley in certain pattern and its dependency with frequency content of the shattered waves. Data used to meet objective of present research are ground motion data and damage data, for ground motion data seismic stations inside the valley are use. The damage data are collected by both primary and secondary sources. Frequency domain spectral analysis is incorporated in research and found that the maximum power and amplitude, associated, and attributed for particular narrow frequency band. Spatial component of frequency is wavelength which may indicate periodic repetition of maximum power with crest and trough. To estimate spatial distribution of maximum amplitude simplified wave relation is used. Study reveals that the lateral extension of the peak destruction zone as fourth of wavelength and the successive distance between peak destruction zones is half of wavelength. Peak destruction zone, the zone where the damage is maximum and lies either on crest or trough of the propagated wave. Study reveals that propagation of waves is S45oE form the epicenter of Gorkha Earthquake. Heterogeneity in damage on peak destruction zone can be contributed by the variation in geology of Kathmandu Valley.
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