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1.
Seismic velocities ( V p and V s ) of compressional (P-) and shear (S-) waves are important parameters for the characterization of marine sediments with respect to their sedimentological and geotechnical properties. P- and S-wave velocity data of near-surface marine sediments (upper 9 m) of the continental slope of the Barents Sea are analysed and correlated to sedimentological and geotechnical properties. The results show that the S-wave velocity is much more sensitive to changes in lithology and mechanical properties than the P-wave velocity, which is characterized by a narrow range of values. The correlation coefficients between S-wave velocity and silt and clay content, wet bulk density, porosity, water content and shear strength are higher than 0.5 while the correlation coefficients of P-wave velocity and the same parameters are always lower than 0.4. Although the relationship between V s and clay content has been widely described, the data show that V s is better correlated with silt content than with clay content for the sediments of the area investigated. However, they show different trends. While V s increases with increasing clay content, it decreases with increasing silt content. 相似文献
2.
The seismic velocity and attenuation of fully saturated shales were measured for the first time under overpressured conditions, using the ultrasonic reflection technique. Shale cores from naturally overpressured horizons in the North Sea were tested in the laboratory, at confining and pore pressures relevant to in situ conditions.
A single-frequency tone-burst pulse wave was used to determine the seismic wave velocities and quality factors of the shale samples, with errors less than 0.3% and 0.1 dB/cm, respectively, at a frequency of 0.75 MHz. Sample length changes with varying confining and pore pressure were measured and the pore pressure equilibration time was monitored for each sample.
The anisotropy of the seismic attributes ( Vp , V s , Q p and Q s ) was determined over a range of differential pressures from 5 to 60 MPa, with respect to the predominant foliation. The ultrasonic velocity data followed a transversely isotropic pattern depending on the direction of wave propagation with respect to the laminations. The Poisson's ratio was found to rise by 5% as the shale material progressed from a normally pressured to an overpressured state. The quality factor ( Q ) characteristics were interpreted in terms of pore geometry and connectivity as well as the directional permeability of the transversely isotropic shale material. The results were converted to bulk and shear loss modulus defects, and a positive bulk loss was observed for waves propagating perpendicular to the lamination plane even above differential pressures of 20 MPa. This indicates different levels of Biot-flow and squirt-flow attenuation mechanisms acting within the shale structure, depending on the wave propagation and vibration directions. 相似文献
A single-frequency tone-burst pulse wave was used to determine the seismic wave velocities and quality factors of the shale samples, with errors less than 0.3% and 0.1 dB/cm, respectively, at a frequency of 0.75 MHz. Sample length changes with varying confining and pore pressure were measured and the pore pressure equilibration time was monitored for each sample.
The anisotropy of the seismic attributes ( V
3.
In a previous study published in this journal, the authors developed a comprehensive methodology for modelling the shear wave velocity profile in crustal rock, for purposes of seismic hazard assessment. The derived shear wave velocity profile was used to estimate the amplification and attenuation mechanisms in the transmission of seismic waves. The ability to conduct seismic hazard assessments in regions of low and moderate seismicity is greatly enhanced by this new modelling approach, given that developing a local attenuation model based on curve-fitting strong motion data is generally not feasible under such conditions. This paper reports a follow-up study conducted to evaluate the significance of near-surface attenuation in bedrock (as distinct from attenuation in unconsolidated soft soil sediments). The κ parameter is used to characterize the extent of this attenuation mechanism. Empirical correlations of κ with two forms of near-surface shear wave velocity parameter in crustal rock have been developed, employing information obtained from global sources in conjunction with that from local studies. The resulting development of two simple equations to predict median values of κ as functions of readily available shear wave velocity parameters represents the key outcome of this study. Applications of the proposed empirical approaches to determine κ have been provided, taking Hong Kong and Melbourne as case studies to illustrate different aspects of the proposed methodology. Consistency between the results obtained by the two recommended approaches has thereby been demonstrated. 相似文献
4.
The effect of mineralization on the ratio of normal to tangential compliance of fractures 总被引:1,自引:0,他引:1
The effect of a fracture on the propagation of seismic waves can be represented in terms of the normal compliance BN and tangential compliance BT of the fracture. If BN / BT = 1 for all fractures, the effective elastic stiffness tensor of an isotropic background containing an arbitrary orientation distribution of fractures is orthotropic (i.e., has three orthogonal planes of mirror symmetry) in the long-wave limit. However, deviations from orthotropy may occur if BN / BT differs significantly from unity and this can cause the principal axes of the P -wave NMO ellipse and of the variation in the PP -reflection amplitude as a function of azimuth, to deviate from the fast and slow polarization direction of a vertically propagating S -wave. Simple models of a fracture in terms of a planar distribution of cracks suggest that BN / BT ≈ 1 for dry fractures. However, naturally occurring fractures often exhibit mineralization in the form of bridges between opposing faces of the fracture. The presence of such bridges leads to significant departures of BN / BT from unity. 相似文献
5.
建立符合油气储层近地表复杂介质强衰减性质的数学-物理模型是油气勘探和开发的重要课题.本文针对D'Alembert黏弹性介质模型存在的量纲不统一和不能充分刻画孔隙介质结构的不足,通过引入孔隙度和渗透率等参数修改耗散项,改进了原D'Alembert模型,获得了能精细刻画具有强吸收衰减特征的近地表复杂介质模型,即改进的近地表黏弹性模型.基于这种改进的模型,推导了波频散和衰减的表达式,并研究了孔隙度、流体黏度等物理参数对波频散和衰减的影响,获得了相应的规律性认识.为了验证新模型预测近地表介质中波衰减的有效性,本文将新模型应用于胜利油田YX工区的近地表实测数据,同时与弹性Biot模型和BISQ模型以及黏弹性BISQ模型进行了比较.结果表明,与其它三个模型比较,改进的近地表黏弹性模型能够很好地刻画近地表介质的强衰减性,而且新模型所涉及到的物理参数明显少于其它几种模型,有利于新模型在油气储层近地表复杂介质地震勘探的实际应用. 相似文献
6.
双相介质中地震波衰减的物理机制 总被引:1,自引:0,他引:1
High-frequency seismic attenuation is conventionally attributed to anelastic absorption. In this paper, I present three studies on high-frequency seismic attenuation and propose that the physical mechanism results from the interference of elastic microscopic multiple scattering waves. First, I propose a new theory on wave propagation in a two-phase medium which is based on the concept that the basic unit for wave propagation is a nano- mass point. As a result of the elasticity variations of pore fluid and rock framework, micro multiple scattering waves would emerge at the wavelength of the seismic waves passing through the two-phase medium and their interference and overlap would generate high- frequency seismic attenuation. Second, I present a study of the frequency response of seismic transmitted waves by modeling thin-layers with thicknesses no larger than pore diameters. Results indicate that high-frequency seismic waves attenuate slightly in a near-surface water zone but decay significantly in a near-surface gas zone. Third, I analyze the seismic attenuation characteristics in near-surface water and gas zones using dual-well shots in the Songliao Basin, and demonstrate that the high-frequency seismic waves attenuate slightly in water zones but in gas zones the 160-1600 Hz propagating waves decay significantly. The seismic attenuation characteristics from field observations coincide with the modeling results. Conclusions drawn from these studies theoretically support seismic attenuation recovery. 相似文献
7.
Ian Hers Reidar Zapf-Gilje Paul C. Johnson Loretta Li 《Ground Water Monitoring & Remediation》2003,23(2):119-133
Screening level models are now commonly used to estimate vapor intrusion for subsurface volatile organic compounds (VQCs). Significant uncertainty is associated with processes and models and, to date, there has been only limited field-based evaluation of models for this pathway. To address these limitations, a comprehensive evaluation of the Johnson and Ettinger (J&E) model is provided through sensitivity analysis, comparisons of model-predicted to measured vapor intrusion for 11 petroleum hydrocarbon and chlorinated solvent sites, and review of radon and flux chamber studies. Significant intrusion was measured at five of 12 sites with measured vapor attenuation ratios (αm 's) (indoor air/source vapor) ranging from ∼1 × 10−6 to 1 × 10−4 . Higher attenuation ratios were measured for studies using radon, inert tracers, and flux chambers; however, these ratios are conservative owing to boundary conditions and tracer properties that are different than those at most VOC-contaminated sites. Reasonable predictions were obtained using the J&E model with comparisons indicating that model-predicted vapor attenuation ratios (αp 's) were on the same order, or less than the αm 's. For several sites, the αm were approximately two orders of magnitude less than the αp 's indicating that the J&E model is conservative in these cases. The model comparisons highlight the importance in using appropriate input parameters for the J&E model. The regulatory implications associated with use of the J&E model to derive screening criteria are also discussed. 相似文献
8.
按照高信噪比和计算要求,从 2006—2013 年广西龙滩水库地震台网的10个子台记录到的龙滩库区近场数字地震波形中挑选出 3 822 条三分向记录,经滤波和消除环境噪声后,采用Sato单次散射模型,计算了地震波传播路径上的尾波Q ( f )值,对Q ( f )与频率f之间的关系进行了拟合,并在此基础上分析讨论了库区尾波衰减的时空特征. 结果显示,龙滩库区总体呈低Q0值和依赖性指数η较高的特点,这两个参数值均低于浙江珊溪水库,与其地震活动程度高于后者的事实相一致。尾波Q值的空间分布显示,周围小震密集分布的台站和历史地震活跃地区的台站的Q0值低于相对于周围小震分布稀疏的台站的Q0值。库区尾波衰减参数与尾波采样体之间的关系显示,采样深度越深,尾波参数Q0值越低,因此认为该区域可能存在深部高衰减层。衰减参数随时间的变化过程表明,蓄水后地震尾波衰减参数仍主要反映了库区原有地壳内部介质的非均匀性和地震波吸收特性,库区地壳介质特性无显著变化,但局部敏感点有所调整。 相似文献
9.
The study of seismic attenuation property is a major subject in seismology. Seismic waves recorded by seismic stations (seismographs) contain source effect, seismic wave propagation effect, site response of seismic stations and instrumental response. The path effect of seismic wave propagation, site response of seismic stations and instrumental response must be taken out in the study of source property with seismic data. The path effect of seismic wave propagation (seismic attenuation) involves an important influential factor, the anelastic attenuation of medium, which is measured with quality factor Q, apart from geometric attenuation with the distance. As a basic physical parameter of the Earth medium, Q value is essential for quantitative study of earthquakes and source property (e.g. determination of source parameters), which is widely used in earthquake source physics and engineering seismology. 相似文献
10.
We measured in the laboratory ultrasonic compressional and shear‐wave velocity and attenuation (0.7–1.0 MHz) and low‐frequency (2 Hz) electrical resistivity on 63 sandstone samples with a wide range of petrophysical properties to study the influence of reservoir porosity, permeability and clay content on the joint elastic‐electrical properties of reservoir sandstones. P‐ and S‐wave velocities were found to be linearly correlated with apparent electrical formation factor on a semi‐logarithmic scale for both clean and clay‐rich sandstones; P‐ and S‐wave attenuations showed a bell‐shaped correlation (partial for S‐waves) with apparent electrical formation factor. The joint elastic‐electrical properties provide a way to discriminate between sandstones with similar porosities but with different clay contents. The laboratory results can be used to estimate sandstone reservoir permeability from seismic velocity and apparent formation factor obtained from co‐located seismic and controlled source electromagnetic surveys. 相似文献
11.
Carlo G. Lai Glenn J. Rix Sebastiano Foti Vitantonio Roma 《Soil Dynamics and Earthquake Engineering》2002,22(9-12):923-930
Surface wave tests are non-invasive seismic techniques that have traditionally been used to determine the shear wave velocity (i.e. shear modulus) profile of soil deposits and pavement systems. Recently, Rix et al. [J. Geotech. Geoenviron. Engng 126 (2000) 472] developed a procedure to obtain near-surface values of material damping ratio from measurements of the spatial attenuation of Rayleigh waves. To date, however, the shear wave velocity and shear damping ratio profiles have been determined separately. This practice neglects the coupling between surface wave phase velocity and attenuation that arises from material dispersion in dissipative media. This paper presents a procedure to measure and invert surface wave dispersion and attenuation data simultaneously and, thus, account for the close coupling between the two quantities. The methodology also introduces consistency between phase velocity and attenuation measurements by using the same experimental configuration for both. The new approach has been applied at a site in Memphis, TN and the results obtained are compared with independent measurements. 相似文献
12.
采用分布于鄂尔多斯地块及其周缘的32个地震台站记录到的19次地震事件共487条数字化波形记录, 利用遗传算法反演得到了整个鄂尔多斯地块地壳内S波的三段几何扩散参数、S波非弹性衰减Q值随频率变化的关系式、32个台站的场地响应以及19次地震的震源参数. 计算结果表明, 鄂尔多斯地块地壳内S波非弹性衰减在1 Hz处的Q值比地质构造活跃地区的结果要大得多. 32个地震台站的场地响应在高频部分除个别台站外基本没有表现出明显的放大效应,但在低频区间部分台站之间有一定的差异. 19次地震事件的地震矩对数值与震级ML有很好的线性关系. 相似文献
13.
本文采用2008—2017年宁夏及邻区内15个数字地震台站记录的131次地震的波形资料,基于地震波衰减与场地响应联合反演方法,分析频率介于1—7 Hz之间的Lg波衰减及场地响应。采用2.2—3.6 km/s的速度窗截取了1 069条Lg波,计算得到Lg波各分量的地震波衰减品质因子Q( f )与频率f之间的关系。结果显示:Lg波垂直、东西及南北向各分量的Q0分别为237.1,201.8及245.9;Q( f )对f的依赖性指数分别为0.44,0.52及0.44,该结果与全球其它地震活跃地区的相应研究结果相一致。对Q( f )在时间域的分析结果表明,研究时段内该地区地壳介质的衰减属性并未改变,15个台站的最大场地响应幅值不大于6。 相似文献
14.
2013年8月28日、31日云南德钦、四川得荣交界地区分别发生M_S 5.2、M_S 5.9地震,采用纵横比与偏振分析相结合的方法,测定此次地震序列S波分裂参数,即快波偏振方向和慢波延迟时间。BZL流动地震台得到272对S波分裂参数,等面积玫瑰图显示快波优势方向为NWW向,与台站附近断层走向和地震序列分布长轴方向一致;在M_S 5.9地震发生后,快波偏振方向出现紊乱现象;观测到在M_S 5.9地震发生的前一天慢波延迟时间迅速下降,表明较大地震发生前地壳应力突然释放。 相似文献
15.
利用三峡数字地震台网2009年1月—2015年2月记录的1300多次ML>1.5小震事件6000多条射线的S波数据, 利用S波衰减层析成像技术获得了三峡库区秭归—巴东段上地壳QS成像分布图. 结果显示, 三峡库区上地壳QS值存在明显的横向不均匀性, 沿水库近岸区主要为QS高值区, 外围NE, NW, SW和SE 等4个方向上均存在QS低值异常区, 这是由于这些异常区位于不同地层转换带, 岩层较易破碎, 易于库水渗流所致. 在巫山—秭归段剖面上, 本文QS成像结果与人工地震测深剖面上基底至上地壳底部之间岩层的Q值变化形态基本一致, 前者均值比后者低, 反映了上地壳深部介质对地震波衰减特性的影响. 2013年巴东MS5.1震群活动和2014年秭归MS4.5, MS4.7震群活动均分布在QS高值与低值过渡区, 这种区域的地下介质位于“软”、 “硬”转换带上, 岩层易破碎, 应力和能量易集聚, Q值易受水的渗透引起变化, 从而降低发震断层抗剪切强度而诱发地震. 相似文献
16.
目前在地震勘探频带范围内通常假设品质因子Q与频率无关,且呈衰减各向同性.事实上,相比较速度各向异性,介质的衰减各向异性同样不可忽视.本文将衰减各向异性和速度各向异性二者与常Q模型相结合,建立了黏弹性衰减VTI介质模型,并基于分数阶时间导数理论,给出了对应的本构关系和波动方程.利用均匀平面波分析和Poynting定理,推导出准压缩波qP、准剪切波qSV和纯剪切波SH的复速度、相速度、能量速度以及品质因子的解析表达式.对模型的正确性进行了数值验证,并分析了qP,qSV和SH波在介质中的传播特性.数值试验结果表明:本模型能够实现理想的恒定Q行为,表现了品质因子和速度的各向异性特征,显示出黏弹性增强将导致能量速度和相速度的频散曲线变化剧烈;速度和衰减各向异性参数与传播角度之间的耦合效应对qP,qSV和SH波的速度和能量影响明显;qP,qSV和SH波的频散曲线和波前面随着衰减各向异性强度的改变发生显著变化,其中耦合在一起的qP和qSV波变化趋势相同,而SH波与它们呈现相反的变化规律.本研究为从常Q模型角度分析地震波在衰减各向异性黏弹性介质中的传播特征奠定了理论基础. 相似文献
17.
多分量地震勘探在减小地球物理反演问题多解性的同时提供了更丰富的地下信息,可以从量化的意义上真正实现岩性勘探.由于地壳结构的复杂性及转换横波的特殊性,南黄海地壳结构研究中基本未涉及横波.本文使用南黄海OBS数据,在不同剖面上对比分析纵横波走时、视速度以及质点运动轨迹,基于纵波理论模型对转换横波震相进行射线追踪和走时试算,识别并拟合了来自不同地层的转换横波震相.研究表明,北部坳陷中主要发生了PPS转换,转换界面为陆相沉积层底界面.千里岩隆起区除了发生转换界面为陆相沉积底界面的PPS转换还有转换界面为海底的PSS转换.断层活动引起岩石破碎,高波速比特征的断层边界为胶莱盆地在海上部分的边界圈定再添证据.千里岩地区高速地层成分含有花岗岩,其纵横波速比为1.67~1.68;推测北部坳陷中的海相沉积北-南地层不同,依次为碳酸盐岩及砂岩两类地层. 相似文献
18.
A series of cone penetration tests (CPTs) were conducted in the vicinity of the New Madrid seismic zone in central USA for quantifying seismic hazards, obtaining geotechnical soil properties, and conducting studies at liquefaction sites related to the 1811–1812 and prehistoric New Madrid earthquakes. The seismic piezocone provides four independent measurements for delineating the stratigraphy, liquefaction potential, and site amplification parameters. At the same location, two independent assessments of soil liquefaction susceptibility can be made using both the normalized tip resistance (qc1N) and shear wave velocity (Vs1). In lieu of traditional deterministic approaches, the CPT data can be processed using probability curves to assess the level and likelihood of future liquefaction occurrence. 相似文献
19.
实验表明,在应变小于10-6范围内,砂岩对地震波的吸收主要由孔隙流体的局部运动引起,而且Q值随频率的变化出现谐振现象。据此,作者认为,地壳上部地震波能量的耗损可以表示为以下两种成分的线性组合:1.由滑动摩擦、热弹性驰豫、位错运动等引起的能量消散,它们主要与岩石的固相成分有关,可近似地用恒Q模型描述;2.由孔隙流体运动引起的能量消散,可以用谐振公式描述。根据这一认识,利用描述因果关系的Kramers-Krnig关系式可推导出表示地壳上部岩石粘弹性(复弹性模量,相速度频散和衰减函数)的公式,它们综合地描述了由各种机制引起的波的频散和吸收,并在谐振Q值等于参考常数Q值时退化为目前常用的Futterman模型。作为这种谐振Q模型的应用,介绍了它用于Q值测量结果外推和频散一吸收研究以及粘弹性介质中反射地震道合成的结果。 相似文献