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1.
福建街面水库将于2006年底下闸蓄水,通过收集库区的地震震源机制解资料和本次工作得到的地震震源机制解结果,以及利用中小地震求解的综合震源机制解,本文分析了街面水库库区现代构造应力场特征:最大主压应力P轴为NW—SE方向,P轴倾角为23°;主张应力T轴为NE—SW方向,T轴倾角为3°。在这样的应力场中,主要以发生走滑型断裂运动性质的地震为主,同时还具有发生正断层运动性质的地震。  相似文献   

2.
通过对瀑布沟水库和成都数字遥测地震台网记录的波形数据的研究发现,四川瀑布沟水库库区大量的所谓小震活动皆是爆破成因,从而改变了此前对该库区蓄水前地震活动密集,蓄水后地震活动骤然平静的认识。2009 年11 月水库蓄水后在蓄水区域周边10km 范围内仅发生ML1. 5 以上地震1 次,即2010 年8 月8 日ML1. 7 地震,蓄水前后小震稀少。水库西侧的2 个地震密集区的走滑型地震占较大比例,区域主压应力为NWW 向。水库东、北部区域的地震震源机制解呈多种类型。瀑布沟水库区小震活动总体受区域应力场控制,NWW 向近水平主压应力有利于库区NNW 向中小断裂发生走滑型错动。  相似文献   

3.
龙滩水库蓄水后库区中小地震震源机制   总被引:5,自引:0,他引:5       下载免费PDF全文
本文在对龙滩库区2006年9月30日至2013年5月26日发生的3682次地震进行精定位的基础上,利用FOCMEC方法和改进的格点尝试法反演了ML2.0以上地震震源机制及区域构造应力场,并综合龙滩库区地层岩性、断裂构造和渗透条件等资料,探讨了地震活动类型与库区蓄水过程的关系,获得以下认识:(1)龙滩水库蓄水后的地震活动主要丛集在罗妥、八茂、拉浪、坝首和布柳河5个深水区,地震类型以逆断为主,正断和走滑也占有一定比例.蓄水初期,库区地震类型呈现多样性,蓄水约4年3个月后,地震主要发生在浅部地层中,并大多为逆断型地震.(2)5个地震丛构造应力场最大主应力方向以NW—SE为主,倾角均较小,中等和最小主应力分布较凌乱,在此构造应力环境中,龙滩库区主要断裂整体上呈现走滑运动的性质,局部伴生不同程度的逆倾滑或正倾滑运动分量.(3)库区深、浅部地震活动水平和地震性质之所以会随蓄水过程发生变化,可能与深、浅部构造应力环境、岩体力学性质和渗透性能的差异有关.  相似文献   

4.
卡里巴水库蓄水引起库区应力场变化影响分析   总被引:3,自引:0,他引:3  
水库地震是近几年国际上地震学和地球动力学领域研究的热点问题.作为世界上库容最大的卡里巴(Kariba)水库在其蓄水后库区地震活动性不断增加,并于1 963年9月23日发生M6.1地震,是世界上公认发生过6级以上水库地震的四大水库之一.对该水库蓄水引起库区应力场变化进行量化估算,有助于对特大大型水库蓄水后库区应力场变化及应力触发地震这一基础性科学问题的深入了解.本文分别应用解析解和数值解方法对卡里巴水库蓄水引起库区弹性应力场、不排水和排水孔隙压力变化进行了计算分析.结果表明,卡里巴水库蓄水引起M6.1地震震源处孔压变化为0.015~0.22 MPa,库仑应力变化约0.03~0.17 MPa,触发了此次地震的发生.  相似文献   

5.
福建街面水库地震活动背景   总被引:2,自引:0,他引:2  
林松建 《华南地震》2006,26(4):41-47
福建街面水库2006年10月下闸蓄水,分析了街面水库库区历史地震和现今地震震中分布、震源深度、震源机制解等地震活动特点,并结合水库诱发地震的特点认为街面水库存在诱发地震的可能。  相似文献   

6.
首先讨论龙滩库区水库蓄水与地震活动之间的关系,发现龙滩水库诱发地震特征十分明显,地震共分5丛呈丛集分布.利用库区架设的24个固定和流动台站记录的数字记录资料,在研究得到龙滩库区非弹性衰减和台站场地响应的基础上,精确测定得到了该地区总共1616个ML≥0.1级地震的震源参数,比较了水库诱发地震与构造地震震源参数特征的差异,得到了以下主要结论:1)龙滩水库地震活动与水库蓄水关系密切,不同蓄水阶段5丛的地震活动状态不同,局部断裂构造发育以及岩石透水性能影响着地震活动对蓄水过程的响应.2)龙滩水库诱发地震的地震矩M0随震级ML的增大而增大,两者之间存在较好的线性关系,统计关系为LogM0=1.07 ML+10.17.应力降与地震大小之间的关系和Nuttli的板内地震为增加应力降(ISD)模型的结果比较吻合,统计关系为LogΔσ=0.71 ML-2.89.3)龙滩水库地区地震辐射能量和地震视应力均随震级的增大而增大,后者意味着大地震是比小地震更高效率的地震能量辐射体.4)总体上不同丛地震应力降水平存在差异.地震应力降空间分布上与库水深度有较好的一致性,即库水深的区域应力降水平高.5)与同震级的构造地震相比,水库诱发地震的应力降值比前者明显偏低,大约小10倍.这可能是由于水库蓄水造成地下介质孔隙压力增大或者水的润滑作用,从而导致在一个比较低的构造应力情况下发生水库诱发地震.  相似文献   

7.
龙滩库区蓄水后地震性质分析   总被引:2,自引:0,他引:2  
龙滩水库2006年10月蓄水以来,库区地震活动频繁,这可能是原有构造地震的进一步活动,也可能是水库诱发地震。因此,有必要对龙滩水库蓄水后发生的地震性质进行判断。本文根据国内外已发生水库诱发地震震例资料和以往经验,结合龙滩库区具体情况,利用定性判断法和概率统计法对龙滩库区地震性质进行验证和判断,结果认为:龙滩库区蓄水后发生的地震属诱发地震。  相似文献   

8.
利用2009年小浪底地震台网数字化改造后记录到的2009-2011年水库周围20 km范围内发生的地震,分析其时空分布特征以及其中61次地震的震源机制解。结果表明,小浪底水库存在诱发地震活动,以弱震和微震为主,最大ML2.8。地震集中分布在2个丛集区,分别与库区的石井河断层、塔底断层有关。库区地震的张应力轴与构造背景最大主压应力轴方向基本一致,倾角30°左右,表明这些地震是在受到一定的相对直立压应力作用下发生的,可能与水库蓄水后库水载荷的长期作用有关。  相似文献   

9.
2002年3月3日大桥水库诱发了Ms4.6级水库地震,其发震构造是安宁河东支断裂近傍具有正断层性质的一个分支断裂。据大桥台网7年多库区地震观测事件记录,地震空间分布上水体附近有一个明显的活跃过程,大坝上游发生小震群,大坝下游发生主震序列。地震的震源深度在蓄水前后有明显变化。4.6级地震的震源机制解的主压应力轴方位和倾角与大多数活动断裂上的地震有明显的差别,主压应力轴的倾角与其它的水库地震相比也存在较大差别。  相似文献   

10.
龙滩水库地震精定位及活动特征研究   总被引:18,自引:6,他引:12       下载免费PDF全文
本文利用结合了波形互相关技术的双差定位法对龙滩库区2006年至2007年发生的地震进行了精确定位,并对其活动特征进行了分析.通过定位结果的比较,证明利用波形互相关技术提取的地震对的P、S波走时差数据及双差精定位法显著地提高了定位的精度和质量.对龙滩库区地震活动特征的研究结果表明,龙滩库区的地震活动与水库蓄水过程密切相关,成丛分布的地震活动分别表现出对水库蓄水过程不同的响应过程和活动特征,反应了龙滩库区在岩性特征、渗透条件、地质构造及应力场等方面存在局部性差异.  相似文献   

11.
HUANG Hao  FU Hong 《地震地质》2019,41(6):1413-1428
Using the seismic waveform data of Xiaowan seismic network and Yunnan seismic network, we determined the focal mechanisms of 36 earthquakes(ML ≥ 3.0)from Jun. 2005 to Dec. 2008 and 51 earthquakes(ML ≥ 2.5)from Jan. 2009 to Dec. 2015 by generalized polarity and amplitude technique. We inverted tectonic stress field of the Xiaowan reservoir before impounding, using the focal mechanisms of 36 earthquakes(ML ≥ 3.0)from Jun. 2005 to Dec. 2008 and CAP solutions of 58 earthquakes(ML ≥ 4.0)collected and the solutions in the Global Centroid Moment Tensor(GCMT)catalog; We inverted local stress field of the reservoir-triggered earthquake clustering area, using 51 earthquakes(ML ≥ 2.5)from Jan. 2009 to Dec. 2015. Focal mechanisms statistics show that, the Weixi-Qiaohou Fault is the seismic fault. Focal mechanisms were strike-slip type in initial stage, but normal fault type in later stage. Focal depths statistics of 51 earthquakes(ML ≥ 2.5)show that, the average value of focal depths in period Ⅰ, period Ⅱ and period Ⅲ are 8.2km, 7.3km and 7.8km respectively and the standard deviations are 4.3km, 3.5km and 6.0km respectively. The average value of focal depths is basically stable in different period, only the standard deviation is slightly different. Therefore, there is not positive connection between focal depth and deviation of focal mechanisms. What's more, there are 2 earthquakes(number 46 and number 47 in Fig.5 and Table 3)with almost the same magnitude, epicenter and focal depth, but they have different faulting types as normal and strike-slip. The focal mechanism of event No.46 is strike:302°, dip:40° and rake:-97° for plane Ⅰ, however, the focal mechanism of event No.47 is strike:292°, dip:82° and rake:140° for plane Ⅰ. Likewise, earthquake of number 3 and number 18 have similar characteristic. Therefore, the obvious focal mechanism difference of similar earthquake pair indicates the complexity of Weixi-Qiaohou Fault. Considering the quiet-active character of reservoir-triggered earthquakes, we discussed the change of local stress field in different period. The σ1 of tectonic stress field was in the near-south direction, with a dip angle of 14° before the impoundment, however, the direction of σ1 of local stress field changed continuously, with the dip angle getting larger after the impoundment. The direction of σ1 of local stress field of reservoir-triggered earthquake clustering area is close to the strike of Weixi-Qiaohou Fault, and reservoir impoundment increased the shear stress in the fault, so the weakening of fault was beneficial to trigger earthquakes. Comprehensive analysis suggests that fluid permeation and pore pressure diffusion caused by the water impounding, and the weakening of fault caused by local stress field are the key factors to trigger earthquake in the Xiaowan reservoir.  相似文献   

12.
Reservoir induced earthquakes (RIE) are caused by impoundment of reservoir,with the characteristics of small magnitude and shallow focal depth,but they can also lead to not only economic loss,but also many serious secondary disasters,such as dam destruction,landslide,producing greater damages far more than the damages directly produced by earthquakes.So study on RIE is quite significant in the field of dam construction,thus more attentions should be paid to RIE.There are many factors to induce reservoir earthquakes,such as geological condition,rock mass mechanical index,state of crustal stress,pore pressure distribution,all of which are extremely difficult to measure due to the presence of many randomness;even if applying most advanced methods to measure them,the values fluctuate in great range,without a certain value in time and space.The great variety of these parameters gives rise to troubles to analyze RIE by deterministic approaches.How to handle the randomness of these factors has become vital problem in the field of RIE research.In this study,based on probability theory,and taking the main influence factors as stochastic variables,a new method to analyze probability of RIE was proposed by applying reliability theory.Firstly,the factors inducing reservoir earthquakes were analyzed,of which pore pressure in fault caused by water impounding of reservoir plays a vital role in triggering earthquakes.Then,taking these factors,including attitude,friction coefficient,cohesion of fault plane,stress state of fault plane and pore pressure in fault,as stochastic variables,performance function of triggering earthquakes was established by applying Coulomb stress on the fault plane,and reliability theory was used to analyze probability of earthquake induced by main factors.A special case analysis showed that:(1) The probability of induced earthquakes dramatically increases as pore pressure in fault increases;under the condition of equal pore pressure at triggering earthquakes area,probability of induced earthquakes obviously rises with enlarging of variation of pore pressure;(2) those faults with strike approximately parallel to horizontal maximum principal stress direction or with steep dip angle about more than 60° are prone to inducing earthquake;(3) as horizontal minimum principal stress increases,which has greater effect on induced earthquakes than horizontal maximum principal stress,probability of induced earthquakes becomes lower and fault keeps in more stable condition;(4) probability of induced earthquakes gradually decreases with the increase of friction coefficient and cohesion of fault plane;However,the effect of friction coefficient on induced earthquakes is much greater than the cohesion of fault plane.  相似文献   

13.
紫坪铺水库区小地震震源机制研究   总被引:4,自引:1,他引:3       下载免费PDF全文
用紫坪铺水库专用台网的地震记录测定紫坪铺水库区262次小震震源机制参数,结果表明:节面I的优势方向与断裂走向展布一致性很好;库区地震断层有逆断层、正断层、左旋和右旋走滑断层,走滑断层占45%;库区断层66%陡峻,35%几近直立;受水库蓄水的影响,2006年7月1日后以走滑断层活动方式明显增多,水库地震群时段走滑断层活动方式表现突出  相似文献   

14.
The Longtan reservoir is located in Tian'e County, Guangxi Zhuang Autonomous Region, southwestern China on the upper reaches of Hongshui River, the main stream of the Pearl River. The dam of the reservoir is 200m high, and the maximum water depth can be up to 194m as the water level reaches 400m. The reservoir storage capacity is 27.3 billion cubic meters, so it is a typical high-dam reservoir with large storage capacity. Terrain of the reservoir is high in the west and low in the east. The reservoir is located at the confluence of the Hongshui River, Buliu River, Nanpan River, Beipan River, Mengjiang River and Caodu River. The construction of Longtan hydropower station officially started in July 2001, and the reservoir impoundment was on September 30, 2006. The power station is equipped with 9 sets of 700 000kW water turbine generator units, with a total installed capacity of 6.3 million kW and an average annual generating capacity of 18.7 billion kW·h. So its storage and hydropower capacity rank third only to the world-famous Three Gorges hydropower project and the ultra-large hydropower project in Xiluodu of Jinsha River in China. Seismicity enhanced rapidly in the reservoir area after the impoundment. More the 5 000 earthquakes have been recorded so far, with the maximum magnitude of ML4.8, which occurred on September 18, 2010. The earthquakes are mainly concentrated in the deep water area where fault zones run through. Assuming the seismogenic fault can be simulated by a plane and most small earthquakes occur nearby the fault plane, the information of seismogenic fault can be obtained by the hypocenter location parameters of small earthquakes.  相似文献   

15.
水库区地壳稳定性与地震预测研究的途径和方法   总被引:6,自引:0,他引:6  
随着经验的积累和科学技术的不断进步,水库地震预测的研究从以往的“现象描述-定性评价”逐渐进入“模式机制研究-定量评价”阶段。其重点是深入研究库区各种新构造运动的现象;地壳运动方式所决定的形变场与应力场和水载荷的作用等。具体作法较多,本文仅就水库区地质环境、水库规模、蓄水位、孔隙压和地形变与地震关系进行讨论。后两种方法是作者近期承担湖北省科委下达的有关课题研究时完成的。这些方法虽出于对水库区不同因素  相似文献   

16.
于品清 《华南地震》1991,11(1):76-82
本文从库区的地层岩性、断裂构造、水文地质条件和库水能起的作用'判断,认为拟建的东津水库蓄水后发生水库诱发地城的可能性很少。建立在相似地质构造背景和水文地质条件上的黄龙滩水库,至今未发生水库诱发地震就是一个很好的例证。  相似文献   

17.
龙滩水库地震危险性分析   总被引:5,自引:0,他引:5  
郭培兰  姚宏  袁媛 《高原地震》2006,18(4):17-23
龙滩水库位于云贵高原东南部,是一座高坝、大库容水库,根据已有水库诱发地震的特征,并对该库区的地质构造与主要断层特征、地层与岩性、地震活动背景及水文地质条件等进行分析,认为龙滩水库蓄水后约6年会诱发6-6.5级地震。通过对龙滩水库地震危险性分析,对未来该库区的地震趋势判断具有一定的指导意义。  相似文献   

18.
The Xiluodu (XLD) reservoir is the second largest reservoir in China and the largest in the Jinsha River basin. The occurrence of two M > 5 earthquakes after reservoir impoundment has aroused great interest among seismologists and plant operators. We comprehensively analyzed the seismicity of the XLD reservoir area using precise earthquake relocation results and focal mechanism solutions and found that the seismicity of this area was weak before impoundment. Following impoundment, earthquake activity increased significantly. The occurrence of M ≥ 3.5 earthquakes within five years of impoundment also appear to be closely related to rapid rises and falls in water level, though this correlation weakened after five years because earthquake activity was far from the reservoir area. Earthquakes in the XLD reservoir area are clustered; near the dam (Area A), small faults are intermittently distributed along the river, while Area B is composed of multiple NW-trending left-lateral strike-slip faults and a thrust fault and Area C is composed of a NW-trending left-lateral strike-slip main fault and a nearly EW-trending right-lateral strike-slip minor fault. The geometries of the deep and the shallow parts of the NW-trending fault differ. Under the action of the NW-trending background stress field, a series of NW-trending left-lateral strike-slip faults and NE-trending thrust faults in critical stress states were dislocated due to the stress caused by reservoir impoundment. The two largest earthquakes in the XLD reservoir area were tectonic earthquakes that were directly triggered by impoundment.  相似文献   

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