共查询到19条相似文献,搜索用时 593 毫秒
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2020年3月12日河北省怀来地震台伸缩仪、水管仪、垂直摆和水平摆同步出现快速转折破年变的变化,针对这些异常,从观测和供电系统、洞室环境、气象因素等方面开展现场实地调查与异常核实工作。通过对观测环境的勘查,发现3月10日在观测山洞西侧约80 m处,原有的2排平房因拆迁被拆除。应用点载荷模型对拆迁房屋引起的形变理论值进行计算分析发现,应变、倾斜受载荷干扰的理论值与仪器记录异常幅度在量级上一致。因此,此次形变异常为非地震前兆异常,与房屋拆迁引起的荷载变化有关。 相似文献
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2012年以来,河北省易县地震台SS-Y型伸缩仪NE向观测曲线转折异常,调查发现,该台周边采石场荷载变化可能是导致数据变化的原因。因此,利用三维实体结构有限元模型,结合荷载变化与地应变异常时间进行对比分析,结果表明:计算得到的伸缩仪NE向年变幅理论值为2.62×10~(-7),而实际观测异常年变幅为4.08×10~(-7),实测应变值几乎是理论值的2倍,可见应变异常变化与采石造成的荷载变化有关。 相似文献
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针对张家口定点形变观测场地伸缩仪NS向观测曲线在2020年6月至12月出现加速上升的异常变化,以张家口定点形变观测场地为研究区域,基于Sentinel-1 SAR降轨数据并采用小基线集技术对场地进行形变监测,并获取了2018—2020年该区垂向年平均形变速率和形变时间序列。研究结果表明:张家口断裂两侧地表在垂向的相对运动速率小于1 mm/a,断层活动性较弱;张家口断裂在NNW-SSE向拉张应力作用下,使得断层南盘地表相对北盘出现较为明显的沉降运动,导致张家口伸缩仪NS向观测出现张性加速趋势变化异常现象。 相似文献
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2008年8月30日的攀枝花仁和—凉山州会理间6.1级地震前,距离最近的攀枝花南山定点形变台多套仪器监测到了明显的异常变化。本文对此次6.1级地震前的多套形变仪器记录异常作了总结研究,各套仪器监测在出现中期异常的同时,又存在短临异常。结果表明:南山地震台石英摆仪观测NS向分量存在趋势变化偏小异常的同时,又存在短期突变加速异常;长水管仪的异常变化表现为加速和转向变化;石英伸缩仪NS向分量的异常变化在震前两天出现,表现为原始记录曲线、整点值的畸变。结合历史震例总结显示:攀枝花南山台各套形变监测短临异常的开始或结束时间对台站周边未来地震的时间有一定指示意义,即异常开始后一至两个月内,在监测台站周边地区可能发生6级以上地震;各监测分量方向异常变化对台站周边未来地震可能的方位也有一定的指示意义;异常的变化幅度与未来地震震级关系不明显。 相似文献
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以2017年8月8日四川省阿坝州九寨沟县7.0级地震为研究对象,利用宁夏泾源形变观测资料,采用常用的形态法以及潮汐因子变化分析了此次地震的前兆异常。分析表明,震前泾源形变观测点伸缩仪、垂直摆倾斜仪观测数据均出现了明显的震前异常,趋势异常表现为长期上升,短期、短临异常表现在震前转向或加速,震后观测资料恢复到原来的状况。 相似文献
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为了研究降雨对定点形变观测的影响,在了解呼和浩特地震台形变观测环境后,分析了伸缩仪、水管倾斜仪和垂直摆倾斜仪的观测数据质量,统计了降雨量和各仪器分量的变化,并进行了相关分析,得到不同形变仪器测项数据变化幅度对降雨量的响应函数,结果显示两者间呈较好的线性相关。 相似文献
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Ferenc Székely 《Ground water》2013,51(5):762-767
The vertical variation of drawdown around pumping wells generates an induced flow in the observation wells. A set of governing equations is presented to couple the drawdown variation and the vertical flux distribution in observation wells. A numerical example is performed to justify the governing equations and to verify the solution methods used by the simulation software WT. The example analyzes the effect of skin loss, wellbore storage, and vertical segmentation on the drawdown and induced flow in observation well during pumping. The evaluation of the Fairborn pumping test involves a vertically homogeneous and anisotropic water table aquifer, uniform well‐face drawdown conditions in the pumping well and simulation of the drawdown evolution in the observation well with and without the effect of induced flow. The computer calibrations resulted in small differences between the measured and simulated drawdown curves. 相似文献
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Predicting the future performance of horizontal wells under varying pumping conditions requires estimates of basic aquifer parameters, notably transmissivity and storativity. For vertical wells, there are well-established methods for estimating these parameters, typically based on either the recovery from induced head changes in a well or from the head response in observation wells to pumping in a test well. Comparable aquifer parameter estimation methods for horizontal wells have not been presented in the ground water literature. Formation parameter estimation methods based on measurements of pressure in horizontal wells have been presented in the petroleum industry literature, but these methods have limited applicability for ground water evaluation and are based on pressure measurements in only the horizontal well borehole, rather than in observation wells. This paper presents a simple and versatile method by which pumping test procedures developed for vertical wells can be applied to horizontal well pumping tests. The method presented here uses the principle of superposition to represent the horizontal well as a series of partially penetrating vertical wells. This concept is used to estimate a distance from an observation well at which a vertical well that has the same total pumping rate as the horizontal well will produce the same drawdown as the horizontal well. This equivalent distance may then be associated with an observation well for use in pumping test algorithms and type curves developed for vertical wells. The method is shown to produce good results for confined aquifers and unconfined aquifers in the absence of delayed yield response. For unconfined aquifers, the presence of delayed yield response increases the method error. 相似文献
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蓟县地震台小辛庄山洞定点形变观测干扰 总被引:1,自引:1,他引:0
整理蓟县地震台小辛庄山洞定点形变观测资料,分析强降雨、气压变化、机井抽水、爆破、仪器故障和标定、人为干扰等因素对观测数据的影响,强化认识干扰特征和一般规律,为地震前地球物理异常判定提供准确可靠依据,为同类型地震观测台站提供借鉴。 相似文献
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整理蓟县地震台小辛庄山洞定点形变观测资料,分析强降雨、气压变化、机井抽水、爆破、仪器故障和标定、人为干扰等因素对观测数据的影响,强化认识干扰特征和一般规律,为地震前地球物理异常判定提供准确可靠依据,为同类型地震观测台站提供借鉴。 相似文献
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In this study, we attempted to analyse a drawdown pattern around a pumping well in an unconfined sandy gravelly aquifer constructed in a laboratory tank by means of both experimental and numerical modelling of groundwater flow. The physical model consisted of recharge, aquifer and discharge zones. Permeability and specific yield of the aquifer material were determined by Dupuit approximation under steady‐state flow and stepwise gravitational drainage of groundwater, respectively. The drawdown of water table in pumping and neighbouring observation wells was monitored to investigate the effect of no‐flow boundary on the drawdown pattern during pumping for three different boundary conditions: (i) no recharge and no discharge with four no‐flow boundaries (Case 1); (ii) no recharge and reservoir with three no‐flow boundaries (Case 2); (iii) recharge and discharge with two no‐flow boundaries (Case 3). Based on the aquifer parameters, numerical modelling was also performed to compare the simulated drawdown with that observed. Results showed that a large difference existed between the simulated drawdown and that observed in wells for all cases. The reason for the difference could be explained by the formation of a curvilinear type water table between wells rather than a linear one due to a delayed response of water table in the capillary fringe. This phenomenon was also investigated from a mass balance study on the pumping volume. The curvilinear type of water table was further evidenced by measurement of water contents at several positions in the aquifer between wells using time domain reflectometry (TDR). This indicates that the existing groundwater flow model applicable to an unconfined aquifer lacks the capacity to describe a slow response of water table in the aquifer and care should be taken in the interpretation of water table formation in the aquifer during pumping. Copyright © 2001 John Wiley & Sons, Ltd. 相似文献
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INFLUENCE OF PUMPING ON FOUR-COMPONENT BOREHOLE STRAIN AT TAI'AN SEISMIC STATION AND ITS INTERFERENCE MECHANISM 
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下载免费PDF全文 JIA Yuan GAN Wei-jun LI Jie ZHU Cheng-lin YIN Hai-tao LU Shuang-ling JU Jia-bin 《地震地质》2019,41(6):1429-1443
Four-component borehole strainmeter (FCBS) is one kind of high-precision borehole strain observation instruments invented in China. As a kind of near-surface deformation observation instrument, FCBS is also easily disturbed by the external environment factors. As a common factor, pumping has significant influence on FCBS observation. Existing studies mostly identify the pumping interference from the perspective of observation curve morphology, relatively few studies focus on its interference mechanism. In order to truly capture earthquake precursor information, it is necessary to study the interference mechanism. In recent years, RZB-3 type FCBS at Tai'an seismic station has been seriously affected by pumping, so it is necessary and also feasible to study the interference mechanism of pumping. Since the influence of pumping interference on borehole strainmeter is common, this work would be very practical and be used for reference by other borehole strain observation stations.
We find that the original observation curves and observed surface strain, shear strain from RZB-3 type FCBS at Tai'an seismic station have the characteristics of synchronous change with the borehole water level, in which the linear correlation coefficient between the two observed shear strain curves and borehole water level reached 0.70 and 0.82 respectively. We further find that the principal strain direction of borehole and borehole water level after normalization meet the nonlinear function as y=1.217arctan(x)0.224-0.284. The above phenomenon indicates that the observation of RZB-3 type FCBS at Tai'an seismic station is significantly affected by the borehole water level, and the influence is more obvious and the gradient is larger at the stage of low water level. Pumping interference often appears in low water level stage and changes the rock pore pressure state. Statistics show that pumping interference affects the borehole strain state.
To investigate the interference mechanism of pumping to RZB-3 type FCBS at Tai'an seismic station, we take a known pumping as an example, in which we study the principal strain state of the borehole in three periods of normal pumping, interruption of pumping and resuming pumping respectively. During each period, we solve 3 parameters of the principal plane strain state, i.e. the maximum principal strain rate, the minimum principal strain rate and the maximum principal strain direction from four observation equations of FCBS by nonlinear iterative least squares algorithm. On the other hand, concentrated load model (CLM) is used to simulate the mechanical mechanism of pumping. Firstly, the depth of FCBS relative to pumping source and the concentrated load at pumping source are inversed, then, the strain state surrounding the pumping well, including the state at RZB-3 borehole, is simulated by forward modeling. By comparing these results, we find that:
(1)The concentrated load at pumping source inversed by CLM during periods of normal pumping and resuming pumping are both located at or near the bottom of the pumping well, which is consistent with the actual situation, indicating that mechanism and degree of the influence of pumping on borehole strain are well simulated by CLM.
(2)The observed strain state is consistent with the simulation result of pumping interference by forward modeling, indicating that the principal strain state of borehole calculated based on observation of FCBS reflects the true strain state of borehole under different pumping states.(3)The inversed concentrated load at pumping source during pumping periods is significant greater than the load of the pumped water, indicating that the pumping process has more significant influence on the pore pressure of rocks than the load of the pumped water.
Even though CLM is an approximate simulation since it's based on some elastic assumptions, the interference mechanism of pumping on RZB-3 type FCBS at Tai'an seismic station is well explained, which is maybe very helpful for studying the influence of pumping interference on other deformation instruments, locating the unknown pumping source and studying the characteristics of pore pressure of rocks. 相似文献
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Temporal Variations of Chlorinated Solvents in Abstraction Wells 总被引:1,自引:0,他引:1
Michael O. Rivett David N. Lerner John W. Lloyd 《Ground Water Monitoring & Remediation》1990,10(4):127-133
Data obtained during an organic water quality survey of abstraction (pumping) wells in the Triassic Sandstone Aquifer of Birmingham (U.K.) indicate that there are important variations of chlorinated solvent concentrations with time. Short-term observation of solvent concentrations with elapsed pumping time indicates widely differing well responses; such observations are important in establishing good sampling protocols. Long-term monitoring indicates that solvent concentrations, particularly trichloroethene, are often stable with time. When large solvent variations do occur, these are shown to be due to the variation in the abstraction history of the well or significant migration of solvent plumes during the monitoring period. The latter effect is particularly exemplified by rising trends in 1,1,1-trichlroethane concentrations. The changes observed in solvent concentrations during long-term monitoring of the Birmingham Aquifer are slow to occur, but often large. 相似文献
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《Advances in water resources》2005,28(10):1057-1075
The theory of a pumping test or a slug test to measure aquifer transmissivity or storativity assumes that the aquifer properties are uniform around the well. The response of the drawdown to small spatial variations in aquifer properties in the volume of influence is determined by spatial weighting functions or Fréchet kernels, which in general are functions of space and time. The Fréchet kernels determine the effective “volume of influence” of the measurements at any time. Under the assumption that the well is a line sink we derive explicit analytical expressions for the Fréchet kernels for storativity and for transmissivity for both pumping and slug tests. We also derive the total sensitivity functions for uniform variations in storativity and transmissivity and show that they are the spatial integrals of the Fréchet kernels. We consider both the case of separate pumping and observation wells and also the radially symmetric case of observations made at the pumped or slugged well. The “volume of influence” is symmetric with respect to the pumping or slugged well and the observation well, and far from the well the contours of equal spatial sensitivity approach the shapes of ellipses with a well at each focus, rather than circles centered on the pumping well. We use the analytical solutions to investigate the nature of the singularities in the spatial sensitivity functions around the wells, which govern the importance of inhomogeneities close to the well or observation point. 相似文献