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震源药柱激发因素选择是影响地震资料品质的一个重要环节,在南方复杂山区高分辨率地震采集中合理选择激发岩性、井深、药量等激发因素尤为重要.本文根据复杂山区地震地质条件多样性、复杂性等特点,从理论上分析了地震激发机理、井深、药量、虚反射效应、岩性与药柱长度等对激发子波的影响,开展了基于适应近地表结构特征的动态井深设计、双微测井和综合表层结构调查(微测井和高密度电法联合)等,结合四川盆地及周缘等地区不同地震地质条件下进行了采集试验研究,获得了高品质单炮记录. 相似文献
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胜利油田滩浅海地区由于特殊的地表条件和复杂多变的表层结构,既不同于陆上勘探也不同于海上勘探,尤其在两栖地带存在海陆两种施工方式,如何在地震波激发和接收方面采取措施确保资料一致性,及优化观测系统设计以拼接好过渡带的地震资料是施工任务的关键.为此,依托中石化地震勘探重点基础研究实验室,在地震波的激发、接收和观测系统优化设计方面作了大量研究试验工作,形成了一套适用于滩浅海地区的地震勘探技术.通过冀东和垦东等地区应用联合表层调查和检波器精确定位等技术,有效地提高了地震资料的信噪比,改进了成像精度,取得了很好的地震勘探效果. 相似文献
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雷州半岛南部地区近地表火成岩发育、表层结构复杂、岩性横向变化大,激发接收条件变化剧烈,造成地震资料品质差.针对雷州半岛南部近地表玄武岩,本文通过岩心样品力学性质测试和岩石结构特征分析,获得了岩样抗压强度、波速、模量、弹性应变能特性以及在不同岩石微相激发的地震子波属性特征,研究了不同岩石微相的弹性模量、变形特征规律,建立了玄武岩岩石物性与地震激发子波属性的关系,提出一种选取最佳地震激发岩性的准则.地震数值模拟和实际资料对比表明,弹性应变能最大的溢流相中部亚相玄武岩具有最好的激发子波形态、激发能量中、频带宽是该地震地质条件下地震激发的最佳岩性;追踪最佳岩性激发的地震剖面连续性好、能量一致性更好,强反射层间的弱反射信号清楚,地震资料品质明显提高. 相似文献
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准南缘米泉区块位于乌鲁木齐市东北部,博格达山西北缘,海拔高程在500~3500 m之间,地形高差较大.工区北部覆盖有较厚的黄土砾石,地震波吸收衰减严重,工区南部地层倾角大,并有灰岩出露.前期二维地震调查所获的成像剖面信噪比低,一个很重要的原因是小折射、微测井等常规近地表调查方法难以建立准确的山前带近地表模型,进而造成激发井深设计不准,并影响了后续的近地表静校正效果.为了建立山前带精细近地表模型,对工区进行了详细踏勘,利用地表露头信息明确了地表岩性分布规律;开展了试井及岩性录井工作,了解了近地表层岩性及厚度变化;利用微测井及超深微测井调查,得到了测点位置处黄土与砾石层的速度与厚度;实施了浅层二维层析,查清了沿线的近地表结构,并以浅层层析反演结果为依据,对老的二维地震测线开展了不同偏移距资料层析反演.综合利用这些资料,建立了全区精细的近地表模型.分不同近地表结构开展点试验,发现了激发井深与激发岩性及激发速度的关系,逐点确定了最佳激发井深,同时为后续近地表校正处理奠定了基础. 相似文献
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鄂尔多斯盆地南部黄土塬地区油气资源丰富,但是受表层复杂黄土地质地貌影响,一度被认为是地震勘探的"禁区".经过几十年来地球物理学者对黄土塬采集方法不断的理论创新与实践验证,已经具备了一套成熟的、适合于黄土塬的地震勘探技术.本文主要是对鄂尔多斯盆地黄土塬目前比较成熟的地震采集技术现状进行介绍,包括:经过多年的实践,已经形成一套成熟的表层结构调查方法开展表层结构精细调查,来指导地震波的逐点激发因素设计;为了确保激发子波的能量和频带,通过"多井组合、基于岩性、含水性"的逐点井深设计;提出的黄土塬沟中弯线法、山地多线法、蛛网状三维、滚动非纵和三维等一系列的高效益、低成本地震观测系统,解决了黄土塬地震勘探的诸多难点问题.最后,对未来黄土塬地震采集技术的发展趋势进行展望. 相似文献
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利用微测井资料对近地表吸收结构进行观测和估算,消除近地表吸收衰减对地震数据分辨率的影响,是近年来高分辨率地震勘探的重要尝试.为提高近地表Q值建模的可靠性,本文结合微测井资料,指出近地表Q值建模的主要问题,就各个影响因素进行了讨论和分析.分析结果表明:震源子波和检波器耦合响应一致性假设并不成立,激发和接收因素差异对近地表Q值建模的影响不容忽视.另外,利用微测井资料进行Q值建模要合理的选取频带范围,避免近场分量对信号低频端的影响.有效的提取高质量的直达波,避免面波、浅层折射波和虚反射等噪声干扰,是近地表Q值建模成功的关键.在此基础上,针对不同的影响因素,提出了相应的解决策略,这对于提高近地表Q值建模的精度具有重要的现实意义. 相似文献
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塔克拉玛干沙漠西缘MX地区属于复杂沙漠地表区域之一,以往地震勘探中表层调查采用雷管激发的微测井方法,在西部地区注重社会维稳和反恐形势的前提下,该作业方式存在一定的安全风险.目前,一种基于电火花震源的微测井方法在我国东部复杂水网地区的表层调查中取得了较好的效果,因此我们首次把电火花震源技术应用于西部复杂沙漠地区的表层调查中.在MX地区经过电火花震源与雷管震源的微测井对比试验,发现电火花震源技术能够满足微测井的技术要求,并采用电火花震源技术在该地区进行微测井数据采集,处理解释成果符合该地区表层特征.微测井成果数据经过基于初至反演的沙丘曲线算法计算后得出静校正量,并应用到该地区地震勘探资料的现场处理中,得到了较好的效果. 相似文献
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针对地面地震分辨率低,不能有效识别薄层储层、薄层地层等问题,本文通过地震波衰减规律的分析,提出了一种恢复地震波高频衰减获得宽频带地震剖面的方法,从而大幅度地提高了地震分辨率.应用双井微地震测井资料对松辽盆地地震波动力学特征研究表明,地震波衰减规律是在近地表低速层和近地表低速层的近震源区地震波高频衰减巨大,而在高速层地震波高频衰减很小.药量大近震源区地震波高频衰减大,药量小近震源区地震波高频衰减小.那么,近震源区和近地表低速层对地震波的衰减是地面地震资料频带窄、分辨率低的主要原因.据此提出了如下确定性反褶积方法,用双井微地震测井资料求取近震源区、近地表低速层和虚反射等滤波因子,用其对地面地震资料作确定性反褶积处理,从而恢复近震源区、近地表低速层等几种因素的地震波衰减,将大药量激发地表接收的地面地震延拓成小药量激发高速层接收的宽频带地震.应用该方法对松辽盆地优势频带宽5~90 Hz,视主频50 Hz的地面地震资料处理后,地震剖面优势频带宽达5~360 Hz,视主频达180 Hz,使常规地震剖面分辨率提高2倍.具体的说松辽盆地中部含油组合的地面地震分辨能力由9~15 m提高到3~5 m.宽频带地震剖面与160 Hz的人工合成地震记录对比符合的很好,表明其处理结果是正确.该成果在油气勘探开发中的油气储层预测、构造学研究、沉积学研究等方面有重要的意义. 相似文献
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In tomographic statics seismic data processing, it is crucial to determine an optimum base for a near-surface model. In this paper, we consider near-surface model base determination as a global optimum problem. Given information from uphole shooting and the first-arrival times from a surface seismic survey, we present a near-surface velocity model construction method based on a Monte-Carlo sampling scheme using a layered equivalent medium assumption. Compared with traditional least-squares first-arrival tomography, this scheme can delineate a clearer, weathering-layer base, resulting in a better implementation of datuming correction. Examples using synthetic and field data are used to demonstrate the effectiveness of the proposed scheme. 相似文献
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Robert Ley Willem Adolfs Ralph Bridle Mohammad Al-Homaili Aldo Vesnaver Paul Ras 《Geophysical Prospecting》2006,54(6):751-762
In land surveys, the weathering layer can often distort the seismic signal due to it passing through rapid velocity and density changes, dispersion, scattering and inelastic absorption. In a simple spring‐dashpot model for the earth response, an equivalent medium groups these complex phenomena into two parameters only; these are called ground viscosity and ground stiffness. The most recent controllers for vibrators can estimate both parameters. To validate these measurements, Saudi Aramco conducted an experiment measuring ground viscosity and stiffness from two different vibrator control systems over an area of varying terrain conditions, including unconsolidated sand and limestone outcrop. The two systems measured different values, but detected similar trends that correlated well with weathering conditions and surface geology, e.g. lower viscosity values on the outcrop than on the sand. The ratio of ground viscosity to ground stiffness can approximate the shallow S‐wave velocity, which we converted into P‐wave velocity through calibration with sparse uphole data. Static corrections incorporating this velocity information somewhat improved the focusing of seismic time sections. This new approach does not require additional acquisition efforts, and can model shallow complex formations in arid areas where classical static methods often fail. 相似文献
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针对地表剧烈起伏,速度纵、横向变化大的复杂区,层析静校正较以往的折射波静校正方法有明显的优势,但是受初至时间拾取精度、炮检距的选择、近地表模型约束等问题的影响,层析反演的精度还不能满足低幅度构造预测的需求,为此提出微测井约束分步层析的静校正方法,即将浅层速度模型与最终近地表模型分步进行层析反演,并应用微测井信息约束浅层速度模型层析反演,有效地提高了近地表速度模型反演的精度,通过在古峰庄地区的应用较好地解决了复杂地表条件下的静校正问题,低幅度构造预测精度得到提高. 相似文献
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如何正确地消除复杂地表对地震波场的影响,提高地下构造成像的质量一直是中国西部复杂地区地震勘探中存在的难题.本文在三维复杂表层速度模型层析反演\[1\]的基础上,研究了关于复杂地表的静校正问题,提出用三维波动方程在炮集上对地震波场进行正、反向延拓,消除复杂地表对波场的影响,实现三维复杂表层模型校正.理论和实际应用证明,该方法已超越常规静校正的含义,属时变校正方法.用本方法处理复杂地表问题,不但能消除表层对不同深度反射波产生的不同时差影响,提高叠加剖面质量,而且能使校正后的地震波场保持波动特征不发生畸变,可为建立正确的深层速度模型和波动方程叠前深度偏移奠定良好的基础. 相似文献
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建立包含震源、沉积盆地和表层低速沉积层的二维模型,采用交错网格有限差分/伪谱混合方法求解地震波传播,讨论沉积层厚度和速度对地震地面运动的作用。结果表明:沉积层内产生的地震波的多重反射以及转换会引起地面运动持续时间的延长,它们的相干叠加会造成地面运动峰值的放大;随着沉积层速度的增加,多重反射与转换波的能量减小,地面运动持续时间减小,但是不同速度或者不同厚度的低速层模型均显示出一致的地面运动峰值放大特征。结果说明,在包含震源、沉积盆地和沉积层的模型中,沉积层对地面运动的作用机理更复杂。在实际应用中有必要同时考虑这些因素的综合作用。 相似文献
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The uphole method is a field seismic test which uses receivers on the ground surface and an underground source. A modified form of the uphole method is introduced in order to obtain efficiently the shear wave velocity (VS) profile of a site. This method is called the standard penetration test (SPT)-uphole method because it uses the impact energy of the split spoon sampler in the SPT test as a source. Since the SPT-uphole method can be performed simultaneously with the SPT test it is economical and not labor intensive compared to the original uphole methods which use small explosives or a mechanical source. Field testing and interpretation procedures for the proposed method are described. To obtain reliable travel time information of the shear wave, the first peak point of the shear wave using two component geophones is recommended. Through a numerical study using the finite element method (FEM), the procedure of the proposed method was verified. Finally, the SPT-uphole method was performed at several sites, and the field applicability of the proposed method was verified by comparing the VS profiles determined by the SPT-uphole method with the profiles determined by the downhole, the spectral analysis of surfaces waves (SASW) method and from the SPT-N values. 相似文献
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Trans‐dimensional Bayesian inversion of controlled‐source electromagnetic data in the German North Sea 
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下载免费PDF全文 Romina A. S. Gehrmann Jan Dettmer Katrin Schwalenberg Martin Engels Stan E. Dosso Asli Özmaral 《Geophysical Prospecting》2015,63(6):1314-1333
This paper presents the first controlled‐source electromagnetic survey carried out in the German North Sea with a recently developed seafloor‐towed electrical dipole–dipole system, i.e., HYDRA II. Controlled‐source electromagnetic data are measured, processed, and inverted in the time domain to estimate an electrical resistivity model of the sub‐seafloor. The controlled‐source electromagnetic survey targeted a shallow, phase‐reversed, seismic reflector, which potentially indicates free gas. To compare the resistivity model to reflection seismic data and draw a combined interpretation, we apply a trans‐dimensional Bayesian inversion that estimates model parameters and uncertainties, and samples probabilistically over the number of layers of the resistivity model. The controlled‐source electromagnetic data errors show time‐varying correlations, and we therefore apply a non‐Toeplitz data covariance matrix in the inversion that is estimated from residual analysis. The geological interpretation drawn from controlled‐source electromagnetic inversion results and borehole and reflection seismic data yield resistivities of ~1 Ωm at the seafloor, which are typical for fine‐grained marine deposits, whereas resistivities below ~20 mbsf increase to 2–4 Ωm and can be related to a transition from fine‐grained (Holocene age) to unsorted, coarse‐grained, and compacted glacial sediments (Pleistocene age). Interface depths from controlled‐source electromagnetic inversion generally match the seismic reflector related to the contrast between the different depositional environments. Resistivities decrease again at greater depths to ~1 Ωm with a minimum resistivity at ~300 mbsf where a seismic reflector (that marks a major flooding surface of late Miocene age) correlates with an increased gamma‐ray count, indicating an increased amount of fine‐grained sediments. We suggest that the grain size may have a major impact on the electrical resistivity of the sediment with lower resistivities for fine‐grained sediments. Concerning the phase‐reversed seismic reflector that was targeted by the survey, controlled‐source electromagnetic inversion results yield no indication for free gas below it as resistivities are generally elevated above the reflector. We suggest that the elevated resistivities are caused by an overall decrease in porosity in the glacial sediments and that the seismic reflector could be caused by an impedance contrast at a thin low‐velocity layer. Controlled‐source electromagnetic interface depths near the reflector are quite uncertain and variable. We conclude that the seismic interface cannot be resolved with the controlled‐source electromagnetic data, but the thickness of the corresponding resistive layer follows the trend of the reflector that is inclined towards the west. 相似文献
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Heather Schijns Suvi Heinonen Douglas R. Schmitt Pekka Heikkinen Ilmo T. Kukkonen 《Geophysical Prospecting》2009,57(6):997-1008
A traveltime inversion technique is applied to model the upper ∼40 m of the subsurface of a glaciated shield rock area in order to calculate static corrections for a multi-azimuth multi-depth walk-away vertical seismic profile and a surface seismic reflection profile. First break information from a seismic refraction survey is used in conjunction with a ray-tracing program and an iterative damped least-squares inversion algorithm to create a two-dimensional model of the subsurface. The layout of the seismic survey required crooked seismic lines and substantial gaps in the source and receiver coverage to be accounted for. Additionally, there is substantial topographical variation and a complex geology consisting of glaciofluvial sediment and glacial till overlying a crystalline bedrock. The resolution and reliability of the models is measured through a parameter perturbation technique, normalized χ2 values, root means square traveltime residuals and comparison to known geology. 相似文献
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组合震源技术通过调节延迟激发时间和震源埋藏深度能够实现地震波场的定向传播,提高地震波的照明能量和地震数据信噪比.然而,目前国内外对基于特定目标的组合震源最佳聚焦方向的选取以及起伏地表组合震源定向理论的研究相对较少.在聚焦方向选取方面,目前基本是利用多种不同延时参数的组合震源分别进行试验,从而确定较好的组合震源延时参数.本文则利用爆炸反射面原理,在目的层界面上均匀布置震源同时激发地震波,能够产生垂直于地层界面传播的平面波,当初至波传播至地表时进行地表方向统计.根据互易性原理,以初至波传播方向的反方向为聚焦方向,激发产生的地震波主波束方向将垂直入射到目的层界面上,从而精确的计算出组合震源的最佳聚焦方向.在组合震源定向方面,目前主要是利用组合震源方向因子公式进行计算,但该方法要求震源布置在同一条直线上,并不能满足起伏地表的应用要求.本文以惠更斯-菲涅尔原理为理论基础,提出通过炮点向量在聚焦方向上的投影来确定组合震源传播至虚拟波前的走时,从而确定任意起伏地表组合震源的延迟激发时间.该方法不仅能够计算出沿给定地质模型的目的层界面垂直入射的组合震源聚焦方向,也能够确定任意起伏地表情况下形成沿该聚焦方向定向传播地震波场的组合震源延迟激发时间.因此,本文提出的面向目标的起伏地表组合震源延时参数计算方法对组合震源数据采集具有理论与实践意义. 相似文献