共查询到19条相似文献,搜索用时 234 毫秒
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固原体应变观测资料综合分析 总被引:1,自引:0,他引:1
对固原海子峡体应变2008年1月以来的观测数据进行了连续率、日漂移、内在精度以及噪声水平等方面的统计分析,结果显示观测资料连续率高,内在精度高,漂移快,噪声水平相对偏高.并从中选取了4个时段与气压进行相关分析,结果显示两者存在高度相关性,且体应变随气压变化在时间上存在40min的滞后效应,应用相关分析方法去除气压对体应... 相似文献
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分析合肥地震台钻孔体应变观测资料干扰因素及特征,发现水位和气压等因素对TJ-Ⅱ型钻孔应变仪影响显著.在该地震台观测优化改造期间,钻孔体应变受到临近钻孔灌水的影响,而降雨和灌水导致的水位变化,对体应变干扰程度不同. 相似文献
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应用相关性分析和小波分析方法,研究气压、水位与榆树沟分量应变之间的关系及影响机制,结果表明:(1)水位是榆树沟分量应变长周期变化的主要影响因素,尤其对分量应变EW、NE向影响较显著,表现为中高度线性负相关;2016—2018年EW向相位滞后水位约1 d, NE向相位滞后水位约8 d; 2019—2021年EW向相位滞后水位约4 d, NE向相位滞后水位约7 d;(2)气压是分量应变短周期变化的主要影响因素,EW、NW向对其响应更为灵敏,表现为中高度线性负相关;EW向与气压不存在相位滞后,NW向相位滞后气压约55 min;(3)小波分析结果显示,气压对EW分量影响的显著频段为26~28 min、210~215 min,对NW分量影响的显著频段为26~28 min、211~214 min。 相似文献
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《地震地磁观测与研究》2015,(4)
对连云港地震台钻孔体应变2009年1月—2013年12月数字化观测资料与气压、水位、降雨的影响进行相关分析,并进行潮汐因子M2波、周日波变化分析,获得地震前形变临震异常特征。结果表明:1气压变化以短周期正相关干扰为主,在时间上表现为准同步变化;体应变和水位变化具有较好的准同步性;降雨过程、降雨量及降雨时间等与体应变密切相关;2当地下介质性质发生变化时,固体潮发生畸变,潮汐因子变化可作为取得地震前兆的有效途径之一。 相似文献
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不同周期气压波对钻孔体应变仪观测结果的影响 总被引:4,自引:0,他引:4
应用相关分析与谱分析方法,研究了天津宝坻、北京东三旗和河北张家口台2003~2006年钻孔体应变与气压之间的关系。分析结果表明,同一台站不同周期的气压波与体应变具有不尽相同的关系,如宝坻台年周期体应变与气压负相关,回归系数为-13.35×10-11/Pa,滞后气压变化62.15天;月周期和日、半日周期体应变与气压均呈同步、线性、正相关关系,回归系数平均值分别为7.489×10-11/Pa和6.301×10-11/Pa。不同台站日、半日周期和月周期气压波对体应变的影响较为接近,而与年周期相比差异较大。根据岩石力学和弹性力学原理,进一步探讨了不同周期气压波与体应变相关性存在差异的原因。 相似文献
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宽城地震台体应变仪观测数据干扰因素及其映震能力分析 总被引:2,自引:0,他引:2
本文通过分析宽城地震台体应变仪自运行以来所有的观测数据,对宽城地震台体应变仪运行良好的区段(2005年-2008年)的动态特征进行分析研究,在此基础上对影响宽城地震台体应变仪的地下水位、温度、气压等相关因素进行了相关性分析,得出了宽城地震台体应变仪数据主要受到地下水位和气压的影响,温度则对宽城地震台体应变仪影响较小。通过观测数据拟合分析来看,宽城地震台体应变仪映震能力较好,体应变仪在震情监测预报以及地震研究工作起到重要的作用,对地震监测预报工作的长远发展做了较大的贡献。 相似文献
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分时段研究降雨、钻孔水位、工程施工等因素对青岛地震台体应变的影响,研究结果表明:钻孔水位反映区域地下水主要由降雨补给,降雨下渗改变地下水状态,并影响体应变观测;青岛体应变与钻孔水位的相关性及其周期特性均在2015年前后出现变化,可能与2015—2016年降雨偏少及工程施工有关;2018年1月17日台站钻孔施工很可能改变了体应变周围岩石孔隙环境,并扩大孔隙压力作用系数,可解释2018年3月以来水位小幅上升引起的体应变显著压性上升现象,受钻孔施工的影响,体应变与钻孔水位相关性的滞后特征明显减弱。 相似文献
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利用江苏省南京市六合地震台钻孔体应变2003年1月1日至2008年12月31日的数字化观测资料,对气压和降雨这二种主要干扰因素的基本变化规律进行分析,讨论了发生在该台预报效能范围内的3次中强地震的短临异常特征.结果表明:气压变化在各个季节对观测值均有较大的影响,以短周期的正相关干扰影响为主,在时间上往往表现为准同步,相关系数能达到0.6~0.7以上;降雨对体应变的影响与降雨过程、降雨量及降雨时间等有密切的关系,持续降雨只有积累到一定程度才能促成固体潮畸变,这一过程虽较复杂,但仍有一定的规律可循.六合体应变对区域内中强地震有1~2月的突出短临异常变化. 相似文献
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Hydrogeological parameter is an important index to characterize the hydrogeological properties of the aquifer, and has a clear physical basis and mechanism. Although the predecessors have made significant achievements in these areas, research is lacking on the changing law and relationship of the hydrogeological parameters of well-aquifer system. The digital water level and barometric pressure data of Dadianzi Well are used as the basis in this study. Based on the theories of elastic mechanics, rock mechanics and fluid mechanics, and using barometric pressure coefficient and tidal factor, the hydrogeological parameters in Dadianzi well-aquifer system in undrained conditions are studied. The corresponding water storage rate can also be obtained quantitatively. In addition, with the thickness of the aquifer, the pressure transmitting coefficient, the radius of the well and the frequency of the tidal wave, the permeability coefficient and transmissibility coefficient of well-aquifer system can be obtained, and the relationships between them are derived. The results show that: 1)There is an obvious power function relationship between porosity and solid skeleton volume compression coefficient, volume compression coefficient of water in aquifer, water storage rate, permeability coefficient and transmissibility coefficient. The volume compression coefficient of solid skeleton, water storage rate, permeability coefficient and transmissibility coefficient have a positive correlation with the porosity, the volume compression coefficient of water in aquifer decreases with increasing porosity. The volume compression coefficient of solid skeleton and water in aquifer can be well fitted to one of two quadratic polynomials. And the volume compression coefficient of water in aquifer is larger than the solid skeleton volume compression coefficient, water is more easily compressed. In addition, with the increase of water storage rate, the permeability coefficient and transmissibility coefficient also increase linearly; 2)Different from the traditional pumping test and indoor experiment, this paper uses the digital water level and other data, combined with the pressure coefficient and Venedikov tidal harmonic analysis results to access to the porosity, the volume compression coefficient of solid skeleton and water in aquifer medium, water storage rate, the permeability coefficient and the transmissibility coefficient. This method is simple and accurate. 相似文献
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Peng-Jun Zhao 《地震学报(英文版)》1995,8(2):317-323
Based on the partial differential equation governing the effect of atmospheric pressure on water level of confined well, deriving
the boundary condition and considering the seepage water between well and aquifer, the author obtained the analytical solution
of water level change in time domain under the action of an atmospheric pressure history with the Laplace transform method.
This solution is composed of two terms:stable and retarded terms. The stable term is the multiplication of barometric efficiency
and simultaneous atmospheric pressure, and it implies the value of water level after infinite time when the atmospheric pressure
is a constant from the time in question. The retarded term is the transient process due to the time lag of water exchange
between well and aquifer. From the solution, it is obtained that the interference of atmospheric pressure on water level is
the integral superimposition of the contribution of all atmospheric pressure changes before the time in question. So that,
we further found out the response function of pulsive atmospheric pressure history. Calculation shows: (1) The pulsive response
function starts from zero and tends to a steady value, which is proportional to the barometric efficiency, when the time tends
to infinity; (2) The retarded time depends on the mechanical property of aquifer and the radius of well. The larger the seepage
coefficient, the smaller the radius of well and the thicker the aquifer, then the shorter the retarded time gets. This solution
can be used as the theoretical basis for further analysis of the atmospheric effect and practical correcting method in the
future. 相似文献