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相比地面地震勘探,垂直地震剖面(VSP)资料信噪比高,从VSP偏移结果中能够准确地识别井旁小的地质构造.在VSP偏移方法中,VSP逆时偏移方法基于双程波动方程,具有成像精确且无倾角限制、适应任意复杂速度模型等诸多优点,受到人们广泛关注.传统的VSP逆时偏移方法会在成像剖面上产生低频噪声,同时井中检波点分布位置附近会产生井轨迹噪声,严重影响了成像剖面的质量.在本文中,我们利用优化时空域频散关系求解差分系数,提高数值模拟精度;采用混合吸收边界条件压制边界反射,减少边界反射对成像的影响;通过Hilbert变换来构建复数波场,利用波场分解成像条件进行VSP逆时偏移成像,来压制低频噪声和井轨迹噪声.数值模型和实际资料测试表明,基于复数波场分解成像方法能够实现高精度的VSP逆时偏移,并且能够有效地压制VSP逆时偏移中的低频成像噪声和井轨迹噪声;相比地面地震逆时偏移,本文方法能够对井旁构造和盐丘下构造取得更清晰的成像结果. 相似文献
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基于能量密度构建的弹性波能量成像条件,可以准确提取弹性波场的能量信息,并可以有效压制背向散射.但是该成像条件得到的成像结果将所有弹性波场能量信息耦合在一起,难以区分纯波模式的能量信息.为此,我们从势能及动能两方面将能量场解耦,得到纯纵波(PP)、纯横波(SS)、转换波(C)能量场.根据能量守恒定律,基于Helmholtz原理对位移场的空间导数进行因式分解,将弹性势能自解耦得到纯纵波、纯横波及转换波势能;引入体应力构建得到P波及S波速度,将弹性动能分解为纯纵波、纯横波和转换波动能.从而,构建基于能量密度自解耦得到纯波能量互相关成像条件.数值实验表明自解耦成像条件可实现弹性波场能量的分解,并得到背向散射压制、振幅有效保持的PP波、SS波和C波成像结果. 相似文献
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多波多分量地震资料解释工作要开展好,确定PS波地震剖面上的地质层位是致关重要的内容之一.实际多波勘探工区中VSP资料常常不充足,甚至缺乏,此时借助PS波合成记录进行PS波层位标定是标定PS波层位的有效方法.为了在实际多波资料解释工作中确定好PS波地震剖面上的地质层位,对中心角度法、角道集叠加法、偏移距道集叠加法、递推法、波动方程正演及伪转换横波反射系数法6种PS波合成记录方法的原理进行了分析.依据研究区的实际地质情况建立了理论模型,对比了6种方法合成PS波记录的效果,表明各种方法合成的PS波记录的波组波系特征相似,只有少许同相轴有能量、波形差异.在实际PS波资料层位标定工作中对6种方法进行了应用研究,表明波动方程正演法、偏移距道集叠加法计算慢,不便于在层位标定工作中使用.递推法、伪转换横波反射系数法速度最快,但振幅近似精度略差.中心角度法、角道集叠加法计算速度和精度都较适应在PS波剖面层位标定工作中使用,并对研究区实际PS波资料进行了较好的标定.同时也提出了在PS波层位标定工作中发展PS波合成记录方法的一些建议,以期PS波井震资料能匹配得更好. 相似文献
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本文讨论利用S波与它的反射转换波SP′的走时差来测定我国各基本台(武汉除外)附近地壳厚度的某些结果。所谓SP′波是直达的S波经地表面反射转换为P波,再被M界面反射到地面来的波。本文讨论了SP′震相的分析问题,采用适当的地壳参数,可以算得在S波的数种反射转换波中,SP′波的能量最大。对其它易与SP′相混的波也进行了一些讨论。 相似文献
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相对保幅的角度域VSP逆时偏移(英文) 总被引:3,自引:1,他引:2
本文介绍了一种改进的角度域VSP逆时偏移方法。对VSP逆时偏移中的逆推公式进行了改进,为方便数值计算出相对保幅的角度域共成像点道集(ADCIGs)。此外VSP记录到的波场信息丰富,包括上行波场、下行波场和直达波场等,本文分析了这些波场的响应特征,发现直达波和下行波在角度域共成像点道集(ADCIGs)上都产生了成像噪音,直达波产生的噪音尤为严重。把该方法用于我国西部地区实际观测的VSP资料,不仅获得相对保幅角度域共成像点道集(ADCIGs),而且压制了成像噪音。通过数值模型试算,实际资料的应用验证了该方法的实用性与有效性,从而为VSP偏移速度分析、VSP AVA/AVO分析和反演等提供可靠的基础资料。 相似文献
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针对复杂地表地质条件下地震资料覆盖次数不均、部分数据缺失而导致的地震资料品质下降、陡倾角地区成像质量变差等问题,文中采用了叠前三维共反射面叠加技术.共反射面叠加是一种与宏观速度无关且考虑了反射点曲率的地震成像方法.它利用共反射点道集一个邻域内(菲涅尔带)道之间的相关性,并将相干区域内道集的能量相加来增强地震反射信号和绕射波能量,并借助于相邻CMP道集数据形成CRS超道集,使得面元内的覆盖次数更加均匀;同时利用超道集的高覆盖次数来压制噪声,最终得到高信噪比道集数据.实际地震资料处理表明,该方法可大幅度地提高地震资料信噪比和分辨率,增强地震同相轴的连续性,此外还可为叠前偏移成像处理、AVO属性分析、叠前地震反演等提供高质量的输入数据. 相似文献
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当前的三维VSP地震数据偏移成像实现都是在共炮点道集或共检波点道集中逐个道集循环进行的,计算效率相对较低.根据三维VSP观测系统中炮点和检波点布置的特殊性和地震波场满足线性叠加的特性,本文提出了一种三维VSP数据的高效偏移成像方法,即首先通过对三维VSP共接收点道集进行地震数据的广义合成得到一种超道集,然后在共接收点道集的波场深度外推过程中逐步应用多震源波场对超道集进行偏移成像,即利用一次波场深度外推循环完成对所有共检波点道集数据的偏移成像.通过三维VSP模型数据与实际地震数据的偏移成像试验验证了这种高效的超道集偏移成像方法可取得与常规共检波点道集相当的偏移成像效果,还具有极高的计算效率,其计算量与单个共检波点道集的偏移成像计算量相当. 相似文献
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库车坳陷属于高陡构造地区,油气资源丰富,勘探潜力巨大.但是该地区地下构造复杂,断裂发育,地层倾角陡,地震波场复杂,地震成像品质较差是制约库车复杂构造研究的主要因素.零井源距VSP资料波场上转换横波很发育,波场记录上转换横波和纵波同时存在造成该地区地面地震波场相当复杂,影响地面地震资料的成像品质.因此为了避免地面地震资料处理过程中各种波场的相互影响,利用VSP波场信息能防止地面地震资料处理过程中可能出现的"陷阱".本文充分发挥VSP波场信息丰富的特点,通过库车坳陷高陡构造地区零井源距VSP波场正演模拟和实际资料波场分析,准确识别纵波和转换横波波场,并利用有效的波场分离手段分离出VSP纵波波场和VSP转换横波波场.通过VSP纵横波波场与实际地面地震资料对比,能很好地识别出了地面地震资料上的纵波和转换横波波场,为库车坳陷高陡构造地区地面地震资料处理提供参考依据.研究表明:库车坳陷高陡构造地区转换横波在地震纵波成像中影响较大,建议库车坳陷高陡构造地区地面地震处理要加强转换横波的识别与应用,进一步加强井地联合处理攻关研究,获得更可靠、更高品质的纵波资料,同时也能得到更为丰富的转换横波资料. 相似文献
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The polarization direction or 'sign’ of reflected converted P–S waves depends upon the angle of incidence of the incident P-wave. Sign reversal due to reversal of the angle of incidence is often encountered and is an impediment to P–S wave processing and imaging, because when P–S events or P-S migrated images with mixed signs are stacked, destructive interference occurs. We have created and demonstrated a means of correcting for this reversal. To do this, a P-wave angle of incidence is calculated for every point in the image space. This is done by calculating a P–S reflected waveform for every point, by extrapolating the reflected S-wavefield backwards from the receiver line, and then cross-correlating this waveform with the S-wave reflections observed at the receiver line. A multiplier, (sgn α) is assigned to each point in the image space, where α is the angle of incidence of the P-wave. The multiplier was applied to a set of prestack reverse time migration images derived from a cross-borehole physical elastic model data set. The improvement in the stacked image when the sign correction is applied is spectacular. The P-S image quality is comparable to, or better than, stacked migrated P-P images. The method appears to be applicable to all reflection modes and to all recording geometries. 相似文献
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Bergler Steffen Duveneck Eric Höcht German Zhang Yonghai Hubral Peter 《Studia Geophysica et Geodaetica》2002,46(2):165-175
The finite-offset (FO) common-reflection-surface (CRS) stack has been shown to be able to handle not only P-P or S-S but also arbitrarily converted reflections. It can provide different stack sections such as common-offset (CO), common-midpoint (CMP) and common-shot (CS) sections with significantly increased signal-to-noise ratio from the multi-coverage pre-stack seismic data in a data-driven way. It is our purpose in this paper to demonstrate the performance of the FO CRS stack on data involving converted waves in inhomogeneous layered media. In order to do this we apply the FO CRS stack for common-offset to a synthetic seismic data set involving P-P as well as P-S converted primary reflections. We show that the FO CRS stack yields convincing improvement of the image quality in the presence of noisy data and successfully extracts kinematic wavefield attributes useful for further analyses. The extracted emergence angle information is used to achieve a complete separation of the wavefield into its P-P and P-S wave components, given the FO CRS stacked horizontal and vertical component sections. 相似文献
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We investigated the seismic attenuation of compressional (P‐) and converted shear (S‐) waves through stacked basalt flows using short‐offset vertical seismic profile (VSP) recordings from the Brugdan (6104/21–1) and William (6005/13–1A) wells in the Faroe‐Shetland Trough. The seismic quality factors (Q) were evaluated with the classical spectral ratio method and a root‐mean‐square time‐domain amplitude technique. We found the latter method showed more robust results when analysing signals within the basalt sequence. For the Brugdan well we calculated effective Q estimates of 22–26 and 13–17 for P‐ and S‐waves, respectively, and 25–33 for P‐waves in the William well. An effective QS/QP ratio of 0.50–0.77 was found from a depth interval in the basalt flow sequence where we expect fully saturated rocks. P‐wave quality factor estimates are consistent with results from other VSP experiments in the North Atlantic Margin, while the S‐wave quality factor is one of the first estimates from a stacked basalt formation using VSP data. Synthetic modelling demonstrates that seismic attenuation for P‐ and S‐waves in the stacked basalt flow sequence is mainly caused by one‐dimensional scattering, while intrinsic absorption is small. 相似文献
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共炮检距二维弹性波地震剖面的偏移方法 总被引:1,自引:0,他引:1
在均匀各向同性介质的分界面上入射纵波时,除产生纵波反射P-P波外,还会产生转换横波的反射P-SV波。同样,当入射波为SV横波时,在分界面上会同时产生SV-SV反射波和SV-P反射转换波,对这种二维弹性波地震记录如何进行偏移是正在探讨的问题。为了能够处理实际地震数据,本文提出在共炮检距剖面上进行二维弹性波记录的偏移方法。具体做法是,首先用弹性波方程将两分量的地震记录分解为P-P(或SV-SV)波和P-SV(或SV-P)波,然后用我们已导出的适合于处理共炮检距剖面的叠前偏移方法对它们进行处理。用模拟数据进行的试验说明方法正确,效果良好。 相似文献
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《中国科学D辑(英文版)》2008,(Z2)
Study on characterizing reservoir parameters dynamic variations by time-lapse seismic attributes is the theoretical basis for effectively distinguishing reservoir parameters variations and conducting time-lapse seismic interpretation,and it is also a key step for time-lapse seismic application in real oil fields. Based on the rock physical model of unconsolidated sandstone,the different effects of oil saturation and effective pressure variations on seismic P-wave and S-wave velocities are calculated and analyzed. Using numerical simulation on decoupled wave equations,the responses of seismic amplitude with different offsets to reservoir oil saturation variations are analyzed,pre-stack time-lapse seismic attributes differences for oil saturation and effective pressure variations of P-P wave and P-S converted wave are calculated,and time-lapse seismic AVO (Amplitude Versus Offset) response rules of P-P wave and P-S converted wave to effective pressure and oil saturation variations are compared. The theoretical modeling study shows that it is feasible to distinguish different reservoir parameters dynamic variations by pre-stack time-lapse seismic information,including pre-stack time-lapse seismic attributes and AVO information,which has great potential in improving time-lapse seismic interpreta-tion precision. It also shows that the time-lapse seismic response mechanism study on objective oil fields is especially important in establishing effective time-lapse seismic data process and interpreta-tion scheme. 相似文献
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VSP资料上下行波场发育丰富.本文在分析VSP直达波、上行反射波、下行反射波传播路径及其照明范围的基础上,指出了常规VSP波动方程偏移方法缺陷,进而通过修改波场延拓方式,提出了上下行反射波联合成像方法,并在高频近似下分析了该方法的成像原理.该方法不需要进行VSP上下行反射波场分离,能够同时对VSP资料中的一次反射波、自由表面多次波、层间多次波进行成像,比常规成像剖面具有更宽的成像范围和更好的成像效果.该方法能够对下行一次反射波进行成像,从而可以实现常规偏移方法难以处理的高陡倾角构造成像.模拟资料和实际资料处理证明了本文方法的正确性. 相似文献
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Elastic full waveform inversion of seismic reflection data represents a data‐driven form of analysis leading to quantification of sub‐surface parameters in depth. In previous studies attention has been given to P‐wave data recorded in the marine environment, using either acoustic or elastic inversion schemes. In this paper we exploit both P‐waves and mode‐converted S‐waves in the marine environment in the inversion for both P‐ and S‐wave velocities by using wide‐angle, multi‐component, ocean‐bottom cable seismic data. An elastic waveform inversion scheme operating in the time domain was used, allowing accurate modelling of the full wavefield, including the elastic amplitude variation with offset response of reflected arrivals and mode‐converted events. A series of one‐ and two‐dimensional synthetic examples are presented, demonstrating the ability to invert for and thereby to quantify both P‐ and S‐wave velocities for different velocity models. In particular, for more realistic low velocity models, including a typically soft seabed, an effective strategy for inversion is proposed to exploit both P‐ and mode‐converted PS‐waves. Whilst P‐wave events are exploited for inversion for P‐wave velocity, examples show the contribution of both P‐ and PS‐waves to the successful recovery of S‐wave velocity. 相似文献
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We describe a method to invert a walkaway vertical seismic profile (VSP) and predict elastic properties (P‐wave velocity, S‐wave velocity and density) in a layered model looking ahead of the deepest receiver. Starting from Bayes's rule, we define a posterior distribution of layered models that combines prior information (on the overall variability of and correlations among the elastic properties observed in well logs) with information provided by the VSP data. This posterior distribution of layered models is sampled by a Monte‐Carlo method. The sampled layered models agree with prior information and fit the VSP data, and their overall variability defines the uncertainty in the predicted elastic properties. We apply this technique first to a zero‐offset VSP data set, and show that uncertainty in the long‐wavelength P‐wave velocity structure results in a sizable uncertainty in the predicted elastic properties. We then use walkaway VSP data, which contain information on the long‐wavelength P‐wave velocity (in the reflection moveout) and on S‐wave velocity and density contrasts (in the change of reflectivity with offset). The uncertainty of the look‐ahead prediction is considerably decreased compared with the zero‐offset VSP, and the predicted elastic properties are in good agreement with well‐log measurements. 相似文献