Seismic risk assessment for central Indo-Gangetic Plains, India

IF 1 Q4 GEOSCIENCES, MULTIDISCIPLINARY Iranian Journal of Earth Sciences Pub Date : 2021-01-09 DOI:10.30495/IJES.2021.678953
Raghucharan Choudari Manikya, S. Somala, O. Erteleva, R. Evgenii
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Abstract

Seismic hazard for the central indo-gangetic plains (CIGP) is either available in terms of generalized hazard spectrum as per IS 1893:2016 or in terms of only Peak Ground Acceleration (PGA) at the city level. Also, the study region falls in the seismic gap region, which has a potential for an earthquake of Mw>8.0. Hence, in this study, the seismic risk is assessed for the first time at the district level in the seismically critical region of India, the CIGP. In addition, the relative contribution of parametric and model uncertainties is also quantified from sensitivity analysis. Seismic risk results reveal that mud mortar bricks with temporary roofing (MMB) have the highest collapse probability of ~0.6. Further, brick walls with stone roof (BSR) and brick walls with metal sheet roof (BMS) also have high extensive and collapse damage compared to other building groups. These building types need immediate retrofitting / replacement for effective disaster mitigation. Also, geo-unit Allahabad, even though lying in zone II as per IS 1893:2016, has the most number of homeless and uninhabitable dwellings. Further, for a future earthquake of magnitude in the range of Mw 7.5 and 8.5, the expected financial loss might vary from 60 to 150 billion dollars, and the human loss might vary between 0.8 and 2.8 lakhs, respectively. Finally, results from this study will create awareness in the general public, policymakers, and structural engineers for taking up necessary mitigation measures on the existing buildings of CIGP for better preparedness from a future strong earthquake.
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印度恒河平原中部的地震风险评估
印度恒河中部平原(CIGP)的地震危险性可根据is 1893:2016的广义危险性谱获得,也可仅根据城市层面的峰值地面加速度(PGA)获得。此外,研究区域属于地震间隙区域,有可能发生Mw>8.0的地震。因此,在这项研究中,首次在印度地震关键地区CIGP的地区层面上评估了地震风险。此外,还从灵敏度分析中量化了参数和模型不确定性的相对贡献。地震危险性结果表明,带临时屋顶的泥浆砂浆砖(MMB)的坍塌概率最高,约为0.6。此外,与其他建筑群相比,石屋顶砖墙(BSR)和金属板屋顶砖墙(BMS)也具有较高的广泛性和坍塌破坏。这些建筑类型需要立即进行改造/更换,以有效缓解灾害。此外,地理单元阿拉哈巴德,尽管根据IS 1893:2016位于II区,但无家可归和不适合居住的住房数量最多。此外,对于未来7.5和8.5级地震,预计的经济损失可能在600亿至1500亿美元之间,人员损失可能分别在8万至28万美元之间。最后,这项研究的结果将提高公众、政策制定者和结构工程师的意识,让他们对CIGP的现有建筑采取必要的缓解措施,以便更好地应对未来的强烈地震。
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来源期刊
Iranian Journal of Earth Sciences
Iranian Journal of Earth Sciences GEOSCIENCES, MULTIDISCIPLINARY-
CiteScore
1.40
自引率
12.50%
发文量
0
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