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我国新的地震区划图(1990年版)是采用地震危险性慨率分析方法编制的。该图给出的是场点地震烈度值,该值在50年内被突破的概率为0.1。人们普遍关注该图与我国曾经编制的地震区划图(1957年版,1977年版)的区别,该图超越概率概念的内含和外延以及超越概率水平为什么采用50年超越概率0.1。本文围绕这些问题进行了讨论。分析结果表明,前两张地震区划图编图的基本着眼点都是地震预测,而新的地震区划着眼于场点的地震动预测。新的地震区划图是按场点地震危险性分析方法给出的,它所表示的地震危险性只能针对具体的场点,不能完全反映区域的地震危险性特征。而弄清场点地震危险性和区域地震危险性的差异是正确进行区域防灾对策的基础。作者希望这些讨论能对正确使用新的地震区划图有所裨益。 相似文献
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以编制《中国地震动参数区划图》时所构建的地震潜在震源区模型和地震活动性模型为基本输入,在四川省丹棱县及其周缘地区开展基于阿里亚斯烈度的概率地震危险性分析,计算50年超越概率10%的阿里亚斯烈度(Arias Intensity,Ia)。结果表明:丹棱县及其周缘绝大部分地区的Ia值都在0.11m/s以上,部分地区在0.32m/s甚至0.54m/s以上,具有较高的地震诱发滑坡风险,应当加强人员密集区的地震诱发滑坡危险性评估。根据不同Ia预测方程计算得到的Ia分布有较大差异,因此在计算Ia时应考虑多个Ia预测方程,对最终结果进行加权平均,以减小Ia结果的不确定性。同时还发现Ia值与1.0s的谱加速度具有很好的相关性,这也印证了Ia和1.0s谱加速度与砂土液化的相关性。 相似文献
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利用1970~1994年华北地区仪器记录到的地震目录,通过层次模型,将该地区分为不同大小的单元,在每个单元中,由小震活动情况,通过G-R关系是到较大地震的活动情况;并根据震级和烈度之间的关系,得到未来50a不同地震烈度的发生概率,文中还将所得结果与历史地震活动情况以及第三代区划图进行对比研究,结果表明,由近代小震活动对地震危险性进行评估是可能的。 相似文献
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新版地震区划图地震活动性模型与参数确定 总被引:11,自引:4,他引:7
地震活动性模型和地震动预测模型是概率地震危险性分析的两个核心。在新版地震区划图中,依据板内地震活动空间不均匀性分布的特点,在概率地震危险性分析方法(CPSHA)中采用了由地震统计区、背景潜在震源区和构造潜在震源区构成的三级层次性潜在震源区模型,并构建了相应的地震活动性模型。本文在论述CPSHA方法及其地震活动性模型基本概念的基础上,重点介绍了新版地震区划图地震活动性模型的三级潜在震源区模型的构成、地震活动性假定和基本特点,同时,也对新版地震区划图地震活动性模型的重要参数确定思路、方法与结果进行了介绍。本文将为更好地认识与理解我国新版地震动参数区划图提供有益的参考。 相似文献
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高州水库建于广东省鉴江上游,由两个水库经人工渠联通而成,总库容量约11亿立方米,两座土坝坝高分别为52.5米和43.2米。60年代初建库时未能认真考虑地震影响,蓄水后二十余年库区地震平静,但到1983年中,距北库主坝4公里左右开始出现区震活动,至翌年中约一年时间共发生≥1.0级地震一百余次,(最高震级ML3.6)。从而引起工程部门严重关切,为此委托我们进行三方面研究工作: 1.判断1983年以来地震的性质(是诱发地震抑或天然构造地震)。 根据我们的工作结果,此水库发生诱发地震的概率仅为1.012,初步判断这次震群为构造地震(小震群);即使从诱发地震考虑,其最大震级也不会超过4级,不会对大坝构成威胁。 2.地震基本烈度复核和地震危险性分析。 根据地震基本烈度的传统评定方法,两个坝址的基本烈度均为Ⅵ度。根据地震危险分析,以使用年限为100年,超越概率为1.1计,两个坝址的基本烈度也为Ⅵ度(相应的超越概率分别为0.1091和0.0921)。因此,无论用传统的确定性烈度评价方法或是地震危险性分析的方法,高州水库的基本烈度宜为Ⅵ度。 3.大坝抗震稳定性分析。 虽然地震基本烈度为Ⅵ度,但发生更大地震的小概率事件也不是绝对不可能发生的,(例如坝受Ⅷ度影响的超越概率分别为0.0083和0.0055)因此必须了解大坝的最大抗震能力。 相似文献
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本文介绍一种新的评估场地地震危险性的概率方法。该方法主要依据场地历史地震影响烈度资料,其特点是吸收了地震危险性分析的某些思想,并能引进区域未来地震活动趋势估计。文中提出有关参数综合确定方法并对一些问题进行了讨论。作为实例,预测了14个工程场地地震危险性。与地震危险性分析方法相比,该方法具有计算简便,不确定性和敏感性因素较少的优点,并能用实际资料检验所求的场地总危险性P(I≥i)。在地震和烈度史料丰富的地区,本方法可以取得比目前危险性分析更稳定的结果。 相似文献
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中国地震烈度区划图(1990)及其说明 总被引:9,自引:0,他引:9
《中国地震》1992,8(4):1-11
中国地震烈度区划图(1990)采用地震危险性概率分析方法编制,编制中充分考虑了我国地震活动的时、空非均匀性特征,对地震危险性分析方法做了重要改进。在地震活动特点和构造活动特点对比分析的基础上,先划分出26个地震带作为地震活动分析的统计单元,再进一步在地震带内划分潜在震源区,据此将全国划分为733个不同震级上限的潜在震源区。按各震级段地震资料的可信时期,求得地震带的地震重复率系数(b值),并根据对地震活动的时间不均匀性及空间不均匀性分析求得未来时间段的年发生率及其空间分布函数。采用分区烈度椭圆衰减模型,求得全国共约三万个点不同超越概率的烈度值,最后以50年超越概率为10%的风险水平给出1∶400万的中国地震烈度区划图。本图可作为中小工程的抗震设计依据、国土利用规划的基础资料以及制定减轻地震灾害对策的依据。 本图反映了我国八十年代的地震科学水平,也使我国工程建设的抗震设防进入概率设计阶段。 相似文献
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《地震工程与工程振动》2017,(2)
本文划分了西宝高速公路研究区域地震区带和潜在震源区,采用历史地震资料计算了地震活动性参数,在PGA衰减关系、地震危险性概率计算方法和场地地震动影响分析的基础上,计算了西宝高速公路未来50年超越概率2%、10%和63%的PGA分布,基于Arc GIS绘制了西宝高速公路地震危险性分区图;从设计地震危险性和实际地震危险性2方面总结了公路结构物地震危险性评价方法,开展了漆水河大桥、千河大桥、沣河大桥和渭河大桥等典型结构物的地震危险性评价。研究结果表明:西宝高速公路PGA跨越Ⅶ度和Ⅷ度基本烈度区,评价结果略高于我国第四代地震区划图,这是与渭河断陷盆地地震活跃的现实一致的;漆水河大桥和千河大桥的地震危险性是可控的,沣河大桥和渭河大桥的地震危险性不可控,应采取工程措施进行抗震加固。 相似文献
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本文以第三代地震区划图的编图思路为基础,采用考虑地震活动时空非均匀性的地震危险性分析方法进行成都市地震危险性评价。首先根据成都市及邻区的地震地质、地球物理和地震活动特征,确定不同震级上限Mu的潜在震源区;再估计各地震带的b值、地震年发生率及地震年均发生率分配函数;然后建立适合于成都市及邻区地震动(或烈度)衰减特征的等效圆、椭圆、长椭圆和断层破裂4种衰减模型。最后,采用考虑时空非均匀的地震危险性概率分析模型,评价了成都市不同超越概率的地震烈度。 相似文献
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General Seismic Zoning Map of the USSR(GSZ-78),included in the Building Code,in spite of relative improvement in comparison with previous ones(1937,1957,1968),is characterized by significant reduction of seismic hazard.In some regions strong earthquakes exceeding the predicted intensity occurred almost every year.Such cases in Kazakhstan are the earthquakes of Bakanasskoye(1979,M=14,I=6~7)and Zaysanskoye (1990,M=7.0,K=16,I=8).Besides,there are territories that are platforms in tectonic aspect,but which have been undergone activization at neotectonic evolution stage (Mangishlak,Ariskum desert near the Aral sea).Their potential seismic hazards are not estimated in General Seismic Zoning Map(GSZ-78).Mentioned circumstances induce the necessity to compile new seismic zoning map. 相似文献
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The Seismic Intensity Zoning Map of China(1990)was based on the probabilistic method of seismic hazard analysis.In compiling the map,the characteristics of inhomogeneity of earthquake distribution both in space and time in China are considered sufficiently,and some necessary modifications in the model of seismic hazard analysis are carried out.Based on the analysis of the seismic activity and seismotectonic environment,26 seismic provinces are divided first as the statistical elements of the seismicity analysis; the seismic potential source areas are then divided in the seismic provinces.The 733 potential source areas with various upper limit magnitudes have been divided in the country.According to the reliable time domain of earthquake data with various magnitude intervals,the b values in magnitude-frequency relationship are calculated in the seismic provinces.According to the analysis of the inhomogeneity of seismicity distribution both in space and time,the annual average occurrence rates of the eart 相似文献
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AdeterministicmethodfordesigningnearfieldandfarfieldearthquakesMeng-TanGAO;(高孟潭)Jia-QuanYAN;(鄢家全)andWeiHAN;(@2韩炜)(Instituteof... 相似文献
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The New Seismic Zoning Map of China was prepared from 1987 to 1990 and officially promulgated in 1991.In comparison with the previous two seismic zoning maps prepared in 1957 and 1977,some new methods were applied to upgrade the method currently used for seismic hazard analysis.First,a probabilistic method was used instead of the deterministic analysis was used for previous mapping.Second,by taking advantages of the long history of historical seismic data in China,the nonhomogeneity of seismicity both in space and in time has been fully considered and hence the over-and/or underestimation of seismic hazard could be avoided.Third,the results of middle-and long-term earthquake prediction based on tectonic evidence have been incorporated into seismic hazard analysis.In addition,the attenuation laws for both intensity and peak acceleration of strong motion as the mapping parameters are also presented.Finally,an evaluation of the New Seismic Map and its effect on engineering application,such as aseismic desi 相似文献
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Use of Seismotectonic Information for the Seismic Hazard Analysis for Surat City, Gujarat, India: Deterministic and Probabilistic Approach 总被引:1,自引:0,他引:1
T. P. Thaker Ganesh W. Rathod K. S. Rao K. K. Gupta 《Pure and Applied Geophysics》2012,169(1-2):37-54
Surat, the financial capital of Gujarat, India, is a mega city with a population exceeding five millions. The city falls under Zone III of the Seismic Zoning Map of India. After the devastating 2001 Bhuj earthquake of Mw 7.7, much attention is paid towards the seismic microzonation activity in the state of Gujarat. In this work, an attempt has been made to evaluate the seismic hazard for Surat City (21.170?N, 72.830?E) based on the probabilistic and deterministic seismic hazard analysis. After collecting a catalogue of historical earthquakes in a 350?km radius around the city and after analyzing a database statistically, deterministic analysis has been carried out considering known tectonic sources; a further recurrence relationship for the control region is found out. Probabilistic seismic hazard analyses were then carried out for the Surat region considering five seismotectonic sources selected from a deterministic approach. The final results of the present investigations are presented in the form of peak ground acceleration and response spectra at bed rock level considering the local site conditions. Rock level Peak Ground Acceleration (PGA) and spectral acceleration values at 0.01?s and 1.0?s corresponding to 10% and 2% probability of exceedance in 50 years have been calculated. Further Uniform Hazard Response Spectrum (UHRS) at rock level for 5% damping, and 10% and 2% probability of exceedance in 50 years, were also developed for the city considering all site classes. These results can be directly used by engineers as basic inputs in earthquake-resistant design of structures in and around the city. 相似文献
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四川石棉—西昌地区地震区划研究 总被引:1,自引:0,他引:1
本文基于对石棉—西昌地区全新世断层活动与地震活动在时间上、空间上、强度上不均匀性的认识,结合四川省近廿年来对该区地震趋势估计,采用地震危险性概率分析方法,编制了此区50年超越概率10%的地震烈度和地表基岩水平峰值加速度区划图。区划结果表明,烈度和加速度的最高值均位于冕宁以南—西昌一带,这与该段全新世地表破裂最强烈、断错地貌和古地震遗迹相对集中、强震活动频繁具有较好的一致性;区划图等烈度线和等加速度线的总体分布形态近呈南北,与断裂走向基本一致。 相似文献
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鄂尔多斯块体周缘历史上多次发生大地震,同时该地区人口稠密,城市群集中,有必要分析该地区未来30年的大地震危险性,为该地区的应急备灾工作提供参考.本文利用块体周缘活动断层的滑动速率、历史地震古地震等资料,建立了考虑大地震发生率的时间非平稳性质和大地震危险性近断层分布特征的地震危险性模型.计算了块体周缘未来30年Ⅷ度地震动的超越概率分布图,并同《中国地震动参数区划图》的地震危险性模型进行了比较.本文研究认为,由断层滑动速率估算的断层地震活动性与基于地震目录统计的地震活动性总体差别不大,但断层源的地震危险性在沿断层破裂面地区增大明显.结果认为,鄂尔多斯块体周缘未来30年地震危险性最高的地区在块体西南缘,六盘山东麓断裂和会宁—义岗断裂及周边地区是未来30年地震危险性较高的地区. 相似文献
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A. M. Korzhenkov V. A. Kol’chenko D. V. Luzhanskii S. V. Abdieva E. V. Deev J. V. Mazeika E. A. Rogozhin S. N. Rodina M. V. Rodkin A. B. Fortuna T. A. Charimov A. S. Yudakhin 《Izvestiya Physics of the Solid Earth》2016,52(2):218-232
We carried out archaeoseismological studies in the Southern Issyk-Kul region (Kyrgyz Tien Shan) and obtained radiocarbon datings of the collected samples. These data suggest that the sources of strong earthquakes have occurred in this territory in the 11th and (probably) 16th centuries. These earthquakes had magnitude M ≥ 7 and seismic intensity of at least I ≥ 9. The sources of these earthquakes were associated with the local adyr (piedmont) faults—components of the Pre-Terskei border fault. Our results demonstrate considerable underestimation of the seismic hazard for the South Issyk-Kul region in the latest Seismic Zoning Map of Kyrgyz Republic (2012), which should be taken into account in the construction of the new seismic zoning map for Kyrgyzstan. 相似文献
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With the central part of Shanxi Province as an example, this paper studied seismic intensity zonation directly by use of the response intensity of historical earthquakes. From the result, some conclusions can be drawn as follows: (1) For areas rich in data of historical earthquakes, the seismic intensity zonation map with probabilistic meanings can be compiled by use of the statistical features of the response intensity of sites; (2) When determining the length of time for statistics, the completeness of response intensity data and the inhomogeneity of regional seismic activities should be fully considered; (3) By comparing the seismic intensity zonation result for recurrence interval of 500 years with the new Seismic Intensity Zonation Map of China (1990), it has been found that the two are roughly similar; though they are somewhat different for some localities, each has its own reasonableness. 相似文献