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1.
赵各庄井地下流体的映震响应   总被引:1,自引:1,他引:0  
赵各庄井位于首都圈地区,是夏垫断裂带北端的地震观测井。其地下流体同震响应的统计数据显示,在对6级以上远场地震的响应次数上,赵各庄井的水位较水温更显著;在对MS 7.0井水位的响应幅度变化范围为3.0mm—770.0mm,典型水温的响应幅度为0.0129℃,井水位响应幅度明显强于水温,响应形态以振荡型为主。赵各庄井水温、水位的异常变化和夏垫断裂带的活动性密切相关,同时也会影响断裂带的活动性。综合分析认为,在对赵各庄井水温和水位两大测项进行观测时,应以水位为主,还应关注夏垫断裂带的活动性。同时,为了监测夏垫断裂带的活动性,应对赵各庄井水位和水温进行长期监测,以保证首都圈地区的人民生产安全。  相似文献   

2.
新泽5井水位趋势下降分析   总被引:1,自引:1,他引:1  
新泽5井水位1997年以来呈趋势下降动态,至2002年底下降幅度达970mm。为解释该趋势下降的原因,首先对深州市及其周边地区地热开采点的空间分布及地下热水开采量进行了详细调查,而后对华北油田采油和注水情况进行了了解。经调查研究表明,新泽5井1997年以来,水位的趋势下降,水位动态年变规律的改变,是井区及附近地区大量开采地下热水引起的。  相似文献   

3.
建水地下流体监测井水位骤降异常分析   总被引:2,自引:0,他引:2  
2012年2月底至4月上旬,建水县地下流体监测站监测井水位出现了幅度近8m的显著下降变化.通过对该监测井与石屏—建水断裂带观测井同期水位进行对比分析,排除了监测井水位骤降异常是由构造活动引起的可能性.同时,调查了周边的抽水井,运用水文地质分析方法,结合当地水文地质情况,确定该监测井水位骤降异常是由附近的井孔抽水引起.充分了解当地的水文地质情况,根据地下水的运移规律,结合实地调查,可以对地下水异常给出相对合理的解释,并进一步判断地下水异常是否是构造活动引起的地震异常.  相似文献   

4.
1 研究背景 自2014年以来,苏皖交界北部3口流体观测井水位出现群体性异常变化,即淮北皖22井、睢宁苏02井、睢宁苏03井的水位出现同步转折变化(图1),且睢宁苏03井水温出现准同步变化.这些异常在空间上具有集中性,在时间上具有同步性,异常形态相似.诸多研究表明,某些强震前会出现地下流体群体性异常变化,如:车用太等(1997)研究认为同区域不同观测井出现同步同向变化,可能受到同源应力作用;黄辅琼等(2004)研究认为多口深井水位同步上升代表构造应力场压性增强张性减弱,为地震的发生提供背景;刘耀炜等(2015)对鲁甸M S 6.5地震分析得出,流体出现集中、同步异常,反映了该区域的应力变化,可能是地震发生的前兆信息.基于此,本文对苏皖交界北部流体观测井水位群体性异常进行综合分析,判定流体异常性质,为地震趋势判定提供学科依据.  相似文献   

5.
为了验证平原地区深井水动态观测受环境条件影响的情况,我们选择了河北省河间地区马17地震观测井和马16地热开发井进行对比观测,试图探讨马16井开采对马17井水动态观测的影响。结果表明马17井的动水位年变化是气压干扰所致,与马16井采水无明显关系。马16井冬季开采热水对马17井动水位观测无明显影响。  相似文献   

6.
通过对宜宾北4.7级地震震中及附近地区地震地质、地震活动背景、区域地震活动性、水位资料的分析,表明宜宾北4.7级地震震前经历了区域地震活跃至平静、再发震的过程,其部分地震学参数存在异常,川12井水位也出现较大异常,并对宜宾北所处的华蓥山断裂带上的中强震与川滇交界附近地区南北地震带上的强震存在较高的对应关系成因进行了分析,认为华蓥山断裂带上中强地震活动对川滇交界地区南北地震带上强震的发生存在中短期预报意义。  相似文献   

7.
滇南地区近期水位趋势上升异常机理初探   总被引:2,自引:1,他引:1       下载免费PDF全文
胡小静  付虹  李琼 《地震学报》2018,40(5):620-631
2014年以来,滇南地区高大、开远和易门3口井的井水位出现趋势上升现象。通过开展井孔周边地下水开采情况的调查、降水影响的定量排除、井孔含水层系统应力状态的定量计算、周边区域构造活动的分析以及井孔水体化学组分的分析等工作,认为易门井的水位年动态主要受控于降水,2003年以来的趋势下降和2014年的趋势转折上升与大椿树工业园区的深井开挖抽水密切相关;高大井和开远井的井水位自2014年以来的趋势转折上升现象不完全受控于降水,但与周边地下水的开采亦无直接联系,可能与近几年该区域南北向强挤压为主的构造活动有关。   相似文献   

8.
高邮-宝应M4.9级地震是江苏陆地22年来发生的最大的地震。在震前2年发现省内流体井水位出现了群体性准同步变化,表现为震中区井水位的同步下降。本文重点分析了江苏省流体井水位变化特征,消除了气压、降雨和地下水开采的影响,用异常幅度与年变幅度比值、从属函数两种方法定量提取了震前异常变化,根据水位资料及其变化机理总结了震前水位的群体性异常特征,认为在弱震区井水位的群体性变化是分析判定地震前兆异常的有效指标。水位的群体性异常反映了震前区域应力场的调整,震源区为应力变化的集中区。  相似文献   

9.
地下水动态的异常变化既有可能是地震前兆异常信息,也有可能是某种环境干扰所引起的,如何及时识别并排除环境干扰,对于成功判定地震前兆异常至关重要。马鞍山皖27井水位自2012年10月以来反复出现下降型异常,下降程度超正常年份最低值,最大降幅达70cm。为了准确客观地判定该异常的成因,本文利用水化学和物理相结合的方法对皖27井地下水动态变化成因及开采干扰进行分析,研究表明:大气降水在皖27井水补给源中占了一定的份额,除此之外,还存在深部补给来源;深井抽水活动影响着皖27井水位的变化,但不能将皖27井本次异常变化完全归因于深井抽水,区域构造活动是引起本次水位异常的主要原因。本文所采取的异常识别与分析方法,为今后地下水动态异常识别及前兆判定工作提供重要依据。  相似文献   

10.
针对2018年青海德令哈台尕海井水位破年变异常,系统梳理和分析该井相关资料,发现该井两套水位仪运行稳定、数据一致性非常好,而这段时期异常与降雨和气压不相关,以及井孔附近地区的视应力值较高,表明该地区地壳应力水平进一步增强。利用水位变幅、去趋势和一阶差分分析,结果显示,该项异常信度较高,反映该区域构造活动信息,是周边两次中等强度地震的共同前兆,属于中短期异常。  相似文献   

11.
The present study investigates the possible hydrologic effects of the proposed lignite open‐cast mining in Drama lignite field (north Greece). Recent years have seen a rapid increase in surface mining. This activity has generated a growing concern for the potential environmental impacts associated with large scale surface mining. In order to achieve a safe mine operation and allow extraction of lignite to considerable depths, extensive dewatering by pumping will be necessary, while at the same time it is desirable to avoid presence of overpumping conditions in the broader area. Based on stratigrafic, hydrologic and hydrogeologic data, a three‐dimensional finite difference model was developed in order to simulate the dewatering process of the western part of the lignite open‐cast mine in Drama and to predict both spatially and temporally the decline of ground water level down to the lignite surface. The dewatering of the part of the aquifer which underlies the mine area will influence the hydrological conditions of the broader region. The most important anticipated effects will be the abandonment of shallow wells as well as the decrease of ground water pumping rates of deep wells. Aquifer discharge towards the ditches of the study area will cease and there will be an inversion of ground water flow from the ditches towards the underlying aquifer. Dewatering activities will probably result in minor subsidence of the nearby peat deposits of Drama Philippi marshes. Moreover, sand pumping as well as the presence of gasses is likely to cause local subsidence phenomena, mainly in the pit slopes. Copyright © 2007 John Wiley & Sons, Ltd.  相似文献   

12.
长期过量开采地下水,使地下水位持续下降、水质发生变化,动水位观测井断流;地面沉降造成井管上窜,观测管路系统被损坏等,这些现象对地震地下流体观测地震前兆异常的正确判断带来很大困难。应用水文地质理论与方法,分析含水层的水均衡状态、应力-应变状态及其与水位动态的关系,初步探讨了超采区井水位异常性质的理论与方法。结果表明,根据井孔所在区水位下降漏斗的扩散特征,结合以上所提到的理论和方法,依据资料多年变化特征,可以较准确地判断异常的性质。研究结果有助于区分单一集中抽水与长期地下水超采对水位观测的影响,有助于正确识别超采区水位前兆异常,有助于地震分析预报水平的提高  相似文献   

13.
A geochemical study was carried out in a small spa area (Onyang Spa, Korea) where intensive pumping of deep thermal groundwater (1 300 000 m3 year−1) is taking place. This has caused the deep fractures to lose their artesian pressure and the upper shallow fractures have been encroached by shallow, cold waters. To quantify the influence of long‐term heavy pumping on the quality of the geothermal water, groundwater sampling and chemical analysis, water‐level measurement, and well loggings were performed for the selected deep thermal wells and shallow cold wells. Chemical analysis results indicate a big contrast in water chemistry and origins between the two water types. Shallow groundwater shows a wider concentration ranges in solutes that are closely related to human activity, illustrating the water's vulnerability to contamination near the land surface. Plots of water chemistry as a function of fluoride reveal that the quality of the thermal water was greatly influenced by the shallow, cold groundwater and that intensive pumping of the deep thermal groundwater has caused the introduction of shallow groundwater into the deeper fractures. Although the deep and the shallow fractures were piezometrically separated to some extent, a mixing model based on fluoride and nitrate indicated that the cold‐water fractions in the thermal wells are up to 50%. This suggests that the thermal water is faced with water quality degradation by the downward flow of the shallow, cold water. Restriction on the total of all the pumpage permits per unit area is suggested to restore the artesian pressure of the deep thermal aquifer and to prevent cold‐water intrusion in the study area. Copyright © 2004 John Wiley & Sons, Ltd.  相似文献   

14.
河南省濮阳地区地下热水的开采对处于同水层的地震观测井—豫01井水位观测产生了严重的干扰影响。豫01井水位自1996年9月出现下降变化以来,其水位动态一直受到大家的关注。十几年来,地震界专家学者对有可能影响该井水位动态的诸多因素逐一进行了追踪研究。认为豫01井自1996年9月至今水位变化与中原油田抽水、注水、采油无关;其...  相似文献   

15.
陈其峰  车用太  刘允  冯恩国  温丽媛 《地震》2022,42(1):169-180
地热井的观测规范要求尽可能将水温传感器放置在井下深处, 一般放置深度应当大于100 m, 小于200 m。 然而, 近几年的观测结果表明, 水温传感器的放置深度对水温动态特征的影响较大。 在多数观测井中, 同井水温与水位的时值动态、 潮汐效应、 同震响应及震后阶变等动态特征的相关性或一致性, 多与水温传感器的放置深度有关。 本文主要探讨了传感器放置深度对水温动态特征的影响, 水温传感器放置在观测含水层中, 都受井—含水层间水流运动的影响, 会造成水温动态随井水位变化而变化; 当放置在观测含水层下部时, 水温动态则不受井水位变化的影响, 多表现为动态相对稳定。 其原因是水温动态的形成受水热动力学与地热动力学两种不同机制的控制, 此外, 井—含水层系统的条件也会产生影响。  相似文献   

16.
重庆大足井水位对邻井抽水的奇异响应及其机理   总被引:1,自引:0,他引:1  
大足井位于重庆市大足县拾万镇,井深108.7m,观测含水层为J2S泥岩夹砂层的风化裂隙潜水层。多年的观测结果表明,每当相距仅14.6m的邻井抽水时,该井水位不仅不降,反而上升,是国内外罕见的奇异现象。通过对这一现象进行的观测资料分析、井区地质-水文地质条件调查、现场试验观测及理论分析等得出,大足井水位对邻井抽水的奇异响应是在特定的水文地质条件下,抽水降落漏斗外边界带上因水流速度较大引起的动水压力使该处的观测井产生的特殊井水位动态。  相似文献   

17.
Ground subsidence in the southeastern border of the Granada Basin (SE Spain) has been studied using remote sensing techniques. Over the last decades, the region has experienced a huge urban expansion, which has caused a substantial increase in water supply requirements. Water needs are exclusively met by groundwater by means of numerous pumping wells, which exploit a confined detrital aquifer of alluvial fan deposits with a heterogeneous facies distribution. A general piezometric level decline (up to 50 m) has been recorded in the aquifer during the past 30 years that has induced the generation of a subsiding area with oval shape oriented WNW‐ESE just where the new urban areas and pumping wells are located. Subsidence has been monitored by exploiting synthetic aperture radar (SAR) images from ENVISAT (2003–2009) and Cosmo‐SkyMed (2011–2014). A new approach, which combines A‐DInSAR and small‐area persistent scatterer interferometry (PSI) analysis, has been applied obtaining a good accuracy regarding temporal and spatial dimension of the subsidence. ENVISAT data (2003–2009) reveal subsidence rates up to 10–15 mm/year, and Cosmo‐SkyMed (2011–2014) values slightly lower; up to 10 mm/year. Temporal variations in the subsidence velocity are in accordance with the rainfall pattern and piezometric fluctuations in the aquifer. The sector with highest rates of subsidence does not correspond to the area with more intense groundwater exploitation but to the area with greater presence of clays in the confining layer of the aquifer. There is a clear lithological control in the spatial distribution of the ground subsidence. This work integrates detailed geological and hydrogeological data with differential SAR interferometry monitoring with the aim to better understand subsidence processes in detrital aquifers with small‐scale heterogeneity. Copyright © 2016 John Wiley & Sons, Ltd.  相似文献   

18.
The combination of flowmeter and depth-dependent water-quality data was used to evaluate the quantity and source of high-chloride water yielded from different depths to eight production wells in the Pleasant Valley area of southern California. The wells were screened from 117 to 437 m below land surface, and in most cases, flow from the aquifer into the wells was not uniformly distributed throughout the well screen. Wells having as little as 6 m of screen in the overlying upper aquifer system yielded as much as 50% of their water from the upper system during drought periods, while the deeper parts of the well screens yielded 15% or less of the total yield of the wells. Mixing of water within wells during pumping degraded higher-quality water with poorer-quality water from deeper depths, and in some cases with poorer-quality water from the overlying upper aquifer system. Changes in the mixture of water within a well, resulting from changes in the distribution of flow into the well, changed the quality of water from the surface discharge of wells over time. The combination of flowmeter and depth-dependent water quality data yielded information about sources of high-chloride water to wells that was not available on the basis of samples collected from nearby observation wells. Changing well design to eliminate small quantities of poor-quality water from deeper parts of the well may improve the quality of water from some wells without greatly reducing well yield.  相似文献   

19.
Detecting and quantifying small drawdown at observation wells distant from the pumping well greatly expands the characterized aquifer volume. However, this detection is often obscured by water level fluctuations such as barometric and tidal effects. A reliable analytical approach for distinguishing drawdown from nonpumping water‐level fluctuations is presented and tested here. Drawdown is distinguished by analytically simulating all pumping and nonpumping water‐level stresses simultaneously during the period of record. Pumping signals are generated with Theis models, where the pumping schedule is translated into water‐level change with the Theis solution. This approach closely matched drawdowns simulated with a complex three‐dimensional, hypothetical model and reasonably estimated drawdowns from an aquifer test conducted in a complex hydrogeologic system. Pumping‐induced changes generated with a numerical model and analytical Theis model agreed (RMS as low as 0.007 m) in cases where pumping signals traveled more than 1 km across confining units and fault structures. Maximum drawdowns of about 0.05 m were analytically estimated from field investigations where environmental fluctuations approached 0.2 m during the analysis period.  相似文献   

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