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常规长排列非双曲动校正公式是在VTI介质中得到的,它不能满足任意空间取向TI(ATI)条件下的扩展.本文以VTI介质中非双曲动校正公式为基础,基于我们推导得出的ATI介质中精确四次时差系数解析解和NMO速度解析解,给出ATI介质中长排列优化的非双曲动校正公式.通过与各向异性射线追踪方法计算所得出的"精确走时"结果对比,研究表明优化后的非双曲动校正公式能精确地描述任意强弱、ATI介质中随测线方位变化的走时曲线,可以用来替代耗时、多偏移距、多方位的射线追踪方法正演拟合ATI介质中长偏移距反射走时,为利用非双曲时距的各向异性参数反演提供理论基础性认识。 相似文献
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Thomsen各向异性参数的求取对于正确的时深转换和深度域偏移成像处理至关重要。相比其它各向异性参数估算方法,从VSP资料中更容易获取准确的各向异性参数用于地面地震偏移成像。本文分析研究了利用Walkaway VSP资料估算VTI介质Thomsen各向异性参数的方法,该方法基于VTI介质近偏移距动校正公式利用Walkaway VSP近偏移距初至信息求取各向异性参数δ;基于各向异性介质纵波速度Thomsen近似公式采用射线追踪时差扫描方法求取各向异性参数ε。数值模型正演表明利用该方法估算的各向异性参数误差较小。利用塔里木盆地8个方位的Walkaway VSP实际资料求取了该区深度域Thomsen各向异性参数ε和δ值,同时结合地面三维地震资料建立了较为准确的各向异性深度一速度模型用于叠前深度偏移成像,进一步提高了碳酸盐岩储层的成像精度,减小了目标地质体的深度误差。 相似文献
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具有垂直对称轴的横向各向同性介质模型(VTI)是目前各向异性理论研究和多波多分量地震资料叠前成像处理中最常用的一种各向异性模型.VTI介质中反射 P波时距曲线一般不再是双曲线.基于不同的相速度近似公式会得到不同的时距关系式.文中对几种典型的非双曲时距曲线与射线追踪得到的准确时距曲线在不同各向异性强度下进行了对比,结果表明Muir等和Stovas等提出的非双曲时距公式由于过高地考虑了横波垂直速度的影响与精确的时距曲线有很大偏差;Tsvankin等提出的弱各向异性非双曲时距公式在ε-δ<0时误差增大;Alkhalifah等提出的非双曲时距公式在大炮检距任意各向异性强度下都具有较高的精度,适于在实际资料处理中应用. 相似文献
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随着地震勘探的深入,对勘探精度的要求越来越高,目前,提高勘探精度的主要方法之一就是提高地震波走时计算的精度,地震走时精度直接影响如动校正、静校正和偏移成像质量.根据地质模型假设条件的不同,有不同的走时计算方法,常用的有各向同性介质假设和各向异性介质假设条件下的走时计算方法,各向异性假设具有比各向同性假设更好的适用性,具有更高的走时计算精度,能够满足大偏移距和高陡构造情况下成像的要求.本文根据Alkhalifah的VTI介质中走时计算方法,以Fomel的TI介质中群速度的计算为基础,利用各向异性介质中Snell定律,提出了在非椭圆各向异性介质中的高阶优化走时计算方法,通过理论和实际数据的应用,表明该方法克服了常规各向异性走时方法中不能够计算大偏深比情况下地震波走时的缺点,具有走时计算精度高、便于实际应用等特点,对叠加和偏移成像有广阔的应用. 相似文献
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传统二阶动校正方法基于较小最大偏移距与目标层深度比和地震波沿直线传播假设,进行长偏移距地震资料处理时,这些假设不再成立.高阶项动校正公式能提高长偏移动校正精度,文中对几种典型的高阶项动校正方法进行了比较,并提出了优化四阶、优化六阶动校正方法.模型计算表明,高阶项动校正方法能取得较常规动校正方法好的动校正结果,但并非阶数越高动校正精度就越高;在纵向速度变化剧烈时,高阶动校正或优化高阶动校正方法一般不能适用于最大偏移距与目标层深度大于3.5的地震反射同相轴,优化四阶和优化六阶动校正公式由于考虑了无穷大偏移距的影响,具有更稳定、更加精确动校正效果,适合于实际的各向同性长偏移距地震资料处理. 相似文献
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《应用地球物理》2016,(4)
动校正对于长偏移距地震资料尤其是深层反射的地震资料十分重要。基于短偏移距假设的传统双曲动校正方法或者基于连分式展开的动校正方法在长偏移距会失效。本文基于Padé逼近提出了一种适合于各向同性介质的长偏移距动校正新方法。理论分析和数值实验结果表明:该方法在长偏移距的动校正效果明显优于其它已知的动校正方法。传统动校正方法在偏移距与深度比值为2时误差超过5ms,该比值为3时误差超过10ms。相比之下,[3,3]阶Padé逼近动校正方法在偏移距与深度比值为3时的误差不超过5ms。在Cooper盆地Tirrawarra井数据合成的平层模型实验中,[3,3]阶Padé逼近动校正方法的偏移距与深度比值有效范围是其他动校正方法的两倍以上。[7,7]阶Padé逼近动校正方法的精度较[3,3]阶Padé逼近具有更进一步的提升。 相似文献
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近年来,随着横波可控震源技术的发展,国内外已经实现了纯横波地震勘探.相较于地震纵波,地震横波对横波阻抗、横波速度尤其是各向异性参数变化更为敏感,因此地震横波能够用来更好地估算上述地层参数.VTI(具有垂直对称轴的横向各向同性)是地层介质中广泛存在的一种各向异性形式,对振幅随偏移距变化(AVO)影响显著.本文提出了一种改进的VTI介质SH-SH波反射系数近似公式,新公式具有较高的精度且仅包含两项待求参数:横波阻抗和水平横波(SH波)速度.基于新方程建立了VTI介质SH-SH波反演方法,该方法相比VTI介质的PP波反演不确定性明显下降,同时降低了常规PP波各向异性反演对大角度数据的要求.为了获得独立的横波各向异性参数,进一步地提出了一种基于岩石物理关系的横波各向异性参数估算方法.合成地震数据测试和柴达木盆地九分量地震勘探实际地震数据应用结果表明,新方法能够准确地预测地层的横波阻抗、水平横波(SH波)速度、各向异性参数,为各向异性地层的岩性解释和油气储层预测提供了可靠的解决方案,从而深化了横波地震勘探的应用潜力. 相似文献
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在具有垂直对称轴横向各向同性介质中,利用四种参数来确定中间至远偏移距转换波(C-波)动校正。它们是C-波叠加速度Vc2,垂直速度比和有效速度比γ0和γeff以及各向异性参数χeff。我们将这四种参数作为C波叠加速度模型。C-波速度分析的目的就是确定这种叠加速度模型。C-波叠加速度模型Vc2,γ0,γeff,和χeff可以由P-波和C-波反射动校正资料获得。然而错误的传播是C-波反射动校正反演中的严重问题。当前短排列叠加速度由于是从双曲线动校正推算而得,因而其精度不足以为各向异性参数提供有意义的反演值。中间偏移非双曲线动校正不再被人们所勿略,而是可以用一个背景γ加以量化。非双曲线分析通过中间偏移距的γ校正量可以产生Vc2,若数据不含燥音,其误差小于1%。方法稳健,允许γ启始假定值的误差达20%。该方法也适用垂直非均匀各向异性介质。精度的提高使能够用4分量地震资料计算各向异性参数。为此提出了两种工作流程:双扫描和单扫描流程。理论数据和实际数据的应用表明这两种流程得出的结果其精度相似,但是单扫描流程比双扫描更有效。 相似文献
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在地震资料处理中,速度分析和成像技术极为重要.常规地震资料处理方法是利用双曲线方程来描述反射波时距曲线规律,此方程随着地层非均质性、各向异性和排列长度的增加,其误差变大.目前发展的反射波非双曲时距方程,主要有基于层状各向同性模型的非双曲时距方程、基于均匀弱各向异性模型的时距方程、基于速度随炮检距变化模型的时距方程、基于线性连续速度模型的时距方程.本文针对三个典型的模型:层状均匀各向同性模型、层状弱各向异性模型和层状非均匀模型,对这几种时距方程进行了精度比较与分析,得出了一些有益的结论.最后,从不同角度说明了应用这几种方程的合理性. 相似文献
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波动方程有限差分法是一种使用广泛的地震波数值模拟方法.但是有限差分法本身固有存在着数值频散问题,会降低地震波场模拟的精度与分辨率.为了克服常规有限差分算子的数值频散,本文针对VTI介质地震波数值模拟问题,构造了频率-空间域qP波波动方程高精度有限差分优化算子,根据最优化理论中高斯-牛顿法确定了高精度有限差分算子的优化系数.利用常规差分算子和高精度优化差分算子对归一化相速度的频散关系精度进行了对比分析,并对均匀各向同性介质和均匀VTI介质中的qP波地震波场进行了有限差分数值模拟,通过频散关系精度分析和波场数值模拟结果表明:有限差分优化算子具有较高的波场数值模拟精度,有效压制了传统有限差分算子数值模拟中的数值频散现象,提高了有限差分算子精度,为VTI介质频率-空间域qP波正演模拟奠定了基础. 相似文献
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本文提出了一种新的基于平均导数优化方法(average-derivative optimal method,简称ADM)的二维VTI介质qP波波动方程频率空间域二阶9点格式,这种新算法将二维VTI介质qP波波动方程中中心空间导数项的差分近似表示为正交方向上3个网格点的加权平均形式.通过最小二乘优化方法求取空间导数项和加速度项的加权优化系数从而使数值频散达到极小化,每个波长所需要的网格点数在1%的误差范围内仅为3.57个网格点数,而VTI介质常规9点差分格式在相同的误差范围内则需要约12个网格点数,新方法的计算精度明显提高.复杂BP2007 2D VTI海洋标准模型数值模拟结果也验证了本文VTI介质9点ADM算法的有效性和准确性. 相似文献
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The normal moveout correction is important to long-offset observations, especially deep layers. For isotropic media, the conventional two-term approximation of the normal moveout function assumes a small offset-to-depth ratio and thus fails at large offset-to-depth ratios. We approximate the long-offset moveout using the Padé approximation. This method is superior to typical methods and flattens the seismic gathers over a wide range of offsets in multilayered media. For a four-layer model, traditional methods show traveltime errors of about 5 ms for offset-to-depth ratio of 2 and greater than 10 ms for offset-to-depth ratio of 3; in contrast, the maximum traveltime error for the [3, 3]-order Padé approximation is no more than 5 ms at offset-to-depth ratio of 3. For the Cooper Basin model, the maximum offset-to-depth ratio for the [3, 3]-order Padé approximation is typically double of those in typical methods. The [7, 7]-order Padé approximation performs better than the [3, 3]-order Padé approximation. 相似文献
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Several parameters are needed to describe the converted-wave (C-wave) moveout in processing multi-component seismic data, because of asymmetric raypaths and anisotropy. As the number of parameters increases, the converted wave data processing and analysis becomes more complex. This paper develops a new moveout equation with two parameters for C-waves in vertical transverse isotropy (VTI) media. The two parameters are the C-wave stacking velocity (Vc2) and the squared velocity ratio (7v,i) between the horizontal P-wave velocity and C-wave stacking velocity. The new equation has fewer parameters, but retains the same applicability as previous ones. The applicability of the new equation and the accuracy of the parameter estimation are checked using model and real data. The form of the new equation is the same as that for layered isotropic media. The new equation can simplify the procedure for C-wave processing and parameter estimation in VTI media, and can be applied to real C-wave processing and interpretation. Accurate Vc2 and Yvti can be deduced from C-wave data alone using the double-scanning method, and the velocity ratio model is suitable for event matching between P- and C-wave data. 相似文献
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Estimation of Thomsen's anisotropic parameters is very important for accuratetime-to-depth conversion and depth migration data processing. Compared with othermethods, it is much easier and more reliable to estimate anisotropic parameters that arerequired for surface seismic depth imaging from vertical seismic profile (VSP) data, becausethe first arrivals of VSP data can be picked with much higher accuracy. In this study, wedeveloped a method for estimating Thomsen's P-wave anisotropic parameters in VTImedia using the first arrivals from walkaway VSP data. Model first-arrival travel times arecalculated on the basis of the near-offset normal moveout correction velocity in VTI mediaand ray tracing using Thomsen's P-wave velocity approximation. Then, the anisotropicparameters 0 and e are determined by minimizing the difference between the calculatedand observed travel times for the near and far offsets. Numerical forward modeling, usingthe proposed method indicates that errors between the estimated and measured anisotropicparameters are small. Using field data from an eight-azimuth walkaway VSP in TarimBasin, we estimated the parameters 0 and e and built an anisotropic depth-velocity modelfor prestack depth migration processing of surface 3D seismic data. The results showimprovement in imaging the carbonate reservoirs and minimizing the depth errors of thegeological targets. 相似文献
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A simple and accurate traveltime approximation is important in many applications in seismic data processing, inversion and modelling stages. Generalized moveout approximation is an explicit equation that approximates reflection traveltimes in general two-dimensional models. Definition of its five parameters can be done from properties of finite offset rays, for general models, or by explicit calculation from model properties, for specific models. Two versions of classical finite-offset parameterization for this approximation use traveltime and traveltime derivatives of two rays to define five parameters, which makes them asymmetrical. Using a third ray, we propose a balance between the number of rays and the order of traveltime derivatives. Our tests using different models also show the higher accuracy of the proposed method. For acoustic transversely isotropic media with a vertical symmetry axis, we calculate a new moveout approximation in the generalized moveout approximation functional form, which is explicitly defined by three independent parameters of zero-offset two-way time, normal moveout velocity and anellipticity parameter. Our test shows that the maximum error of the proposed transversely isotropic moveout approximation is about 1/6 to 1/8 of that of the moveout approximation that had been reported as the most accurate approximation in these media. The higher accuracy is the result of a novel parameterization that do not add any computational complexity. We show a simple example of its application on synthetic seismic data. 相似文献
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地下岩石的速度各向异性影响地震波的传播与成像.横向各向同性(TI)介质为最普遍的等效各向异性模型.引入TI介质拟声波方程可以避免复杂的弹性波方程求解以及各向异性介质波场分离,以满足对纵波成像的实际需要.本文从垂直横向各向同性(VTI)介质弹性波方程出发,推导出正应力表达的拟声波方程以及相应的纵波分量的表达式,进而分析从频散关系得到的拟声波方程的物理意义,而后将拟声波方程扩展到更一般的倾斜横向各向同性(TTI)介质中.波前快照与群速度平面的对比验证了拟声波方程可以很好地近似描述qP波的运动学特征.在此基础上,将拟声波方程应用在逆时偏移中并与其特例声波近似方程进行对比,讨论了计算效率、稳定性等实际问题.数值试验表明VTI介质情况下采用声波近似方程可以提高计算效率,而TTI介质qP-qSV波方程则在效率相当的情况下可以保证稳定性.SEG/HESS模型和逆冲模型逆时偏移试验验证了本文TI介质拟声波方程的实用性. 相似文献
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The azimuthally varying non‐hyperbolic moveout of P‐waves in orthorhombic media can provide valuable information for characterization of fractured reservoirs and seismic processing. Here, we present a technique to invert long‐spread, wide‐azimuth P‐wave data for the orientation of the vertical symmetry planes and five key moveout parameters: the symmetry‐plane NMO velocities, V(1)nmo and V(2)nmo , and the anellipticity parameters, η(1), η(2) and η(3) . The inversion algorithm is based on a coherence operator that computes the semblance for the full range of offsets and azimuths using a generalized version of the Alkhalifah–Tsvankin non‐hyperbolic moveout equation. The moveout equation provides a close approximation to the reflection traveltimes in layered anisotropic media with a uniform orientation of the vertical symmetry planes. Numerical tests on noise‐contaminated data for a single orthorhombic layer show that the best‐constrained parameters are the azimuth ? of one of the symmetry planes and the velocities V(1)nmo and V(2)nmo , while the resolution in η(1) and η(2) is somewhat compromised by the trade‐off between the quadratic and quartic moveout terms. The largest uncertainty is observed in the parameter η(3) , which influences only long‐spread moveout in off‐symmetry directions. For stratified orthorhombic models with depth‐dependent symmetry‐plane azimuths, the moveout equation has to be modified by allowing the orientation of the effective NMO ellipse to differ from the principal azimuthal direction of the effective quartic moveout term. The algorithm was successfully tested on wide‐azimuth P‐wave reflections recorded at the Weyburn Field in Canada. Taking azimuthal anisotropy into account increased the semblance values for most long‐offset reflection events in the overburden, which indicates that fracturing is not limited to the reservoir level. The inverted symmetry‐plane directions are close to the azimuths of the off‐trend fracture sets determined from borehole data and shear‐wave splitting analysis. The effective moveout parameters estimated by our algorithm provide input for P‐wave time imaging and geometrical‐spreading correction in layered orthorhombic media. 相似文献