共查询到19条相似文献,搜索用时 453 毫秒
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钻前风险评估是智能导钻过程中减少井漏井塌等事故的关键环节.在裂缝型地层中,特别是在深层、超深层地区,井筒的承压能力极易受到地层中天然裂缝带的影响,较易出现井漏、井塌等钻井事故,亟需在钻进前进行基于裂缝带的风险评估.绕射波由于对裂缝等小地质体较为敏感,是描述天然裂缝带的有效手段,但是目前的绕射波成像结果通常信噪比不高,较难直接应用于钻前风险评估.论文通过分析绕射波均方根振幅能量,发展适用于绕射波成像的构造平滑技术,提出了基于绕射波信息的天然裂缝带描述方法,提高了数据信噪比,更好地描述了天然裂缝带的空间分布.该方法应用于顺北地区某钻井的深部裂缝型地层中,所得的目标层段预测结果与实钻的漏失、卡钻井段具有较好的对应关系,验证了方法有效性. 相似文献
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舒梦珵 《CT理论与应用研究》2017,26(1):45-52
对于裂缝型油气藏,基于叠前方位角地震数据体,利用AVAZ方法进行裂缝属性预测是目前较为有效的裂缝描述手段,然而,由于地震数据通常为窄方位采集,使得不同方位角数据覆盖次数差异较大,导致各方位振幅能量分布不均,最终造成裂缝属性预测中产生趋势性误差。振幅归一化处理技术应用到现有的AVAZ方法中,该方法能够有效地降低因数据采集所造成的趋势性误差,预测结果会更为真实、可靠。在实际油田的应用中,振幅归一化技术显著改善了AVAZ方法对裂缝属性预测的准确性,取得了较好的效果。 相似文献
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深层碳酸盐岩岩溶风化壳溶洞型油气藏地震波场的理论研究 总被引:1,自引:0,他引:1
碳酸盐岩洞缝型油气藏是我国乃至世界的重要油气藏类型之一,属典型的复杂非均匀介质。其中,岩溶洞穴型油气藏是最容易发现的。为了解决这类储层的勘探开发及预测问题,需要从理论上对它们的地震波场进行研究。我们利用随机介质模型和非均匀介质弹性波动方程计算了不同高度和宽度的充满流体藏层的合成地震剖面。结果表明当绕射波偏移为珠子状的同相轴时即使远小于四分之一波长的溶洞在常规带宽的地震剖面上也是可分辨的,绕射波是溶洞高度和宽度的函数。我们引入一个宽度-振幅因子。可以用这个宽度-振幅因子从对无限宽溶洞计算的绕射波计算有限宽度的溶洞的绕射振幅。 相似文献
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《应用地球物理》2017,(3)
常规地震资料处理通常将地震波场当作反射波处理,绕射波的存在会降低处理成果的分辨率,因此将其当做干扰噪音进行压制。然而,绕射波往往包含了非常重要的地质信息(裂缝、溶洞、断层等特殊构造),即使偏移将绕射波归位,因为绕射波能量较弱也会被反射同相轴遮盖。将反射波和绕射波进行分离并单独成像处理,将提高绕射目标构造的成像精度。根据在平面波域反射波拟线性、绕射波拟双曲的形态差异,本文利用平面波预测滤波技术对平面波炮记录进行波场分离。首先,采用平面波解构滤波器估算地震同相轴的局部倾角,利用局部倾角信息预测并提取反射波,然后从全波场中减去反射波,间接分离出绕射波,对绕射波成像可获得高分辨率的绕射目标体成像结果。通过对2D SEG盐丘模型进行波场分离与成像,分析表明:本文采用的平面波预测滤波技术解决了平面波解构滤波的极性反转问题,保持了绕射波原有的相位信息,保证了波场分离后的绕射波场保真度,成像结果表明用平面波预测滤波方法提取的绕射波进行偏移可改善非均质目标体的成像精度。 相似文献
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储层裂缝综合表征与预测研究进展 总被引:1,自引:0,他引:1
裂缝性油气藏在世界石油和天然气的产量、储量中均占有十分重要的地位.天然裂缝一方面可以显著改善储层的渗透性,甚至可以为油气聚集提供一定的储集空间,另一方面对储层的压裂改造和石油工程方案优化设计有重要影响.通过调研储层裂缝近年来的研究热点,总结了储层裂缝表征方法、表征参数以及预测方法的研究进展,分析了储层裂缝的主控因素,最后讨论了储层裂缝研究中面临的实际问题.目前,裂缝识别与表征方法主要包括地质与岩石学法、测井方法、钻井与录井以及生产动态资料分析法.伴随着非常规油气开发,裂缝的充填特征、连通性、有效性、开启压力、封闭性、动态参数以及裂缝面粗糙度等参数日益得到研究人员的关注.在裂缝预测方法中地震法、应力场数值模拟法是目前主流的裂缝反演、正演预测方法.通过鄂尔多斯盆地周缘野外地质考察,将裂缝与结构面组合样式分为终止型、穿透型、变换型以及复合型四大类.提高测井与地震识别、预测裂缝的精度,建立精细的有限元地质力学模型以及准确预测油藏裂缝开度是目前储层裂缝表征、预测的瓶颈制约. 相似文献
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裂缝问题是火山岩复杂岩性油气藏勘探开发中必须考虑的重要因素之一.火山岩储层裂缝预测的准确性直接影响着油气的产能、钻井工艺和增产改造措施等.本文主要根据等效HTI介质(扩容各向异性介质)的特性,立足地下介质各向异性理论,利用三维地震叠前P波在HTI介质中的属性分布特征来检测裂缝的发育情况.利用三维地震叠前P波裂缝检测技术在松辽盆地北部徐家围子断陷深层营城组火山岩中尝试开展了储层裂缝发育预测研究.通过研究建立了火山岩裂缝地震叠前预测方法,并对营城组火山岩裂缝发育情况进行预测,结果表明裂缝主要分布在工区中部构造高部位,发育方向以北北西向为主.最后利用测井资料和钻井产能资料等进行效果分析,证实该技术对于认识火山岩储层裂缝发育具有实际应用价值,说明应用地震资料开展储层裂缝预测具有横向分辨率高、实现井间分布描述和宏观空间分布规律清楚等特点. 相似文献
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裂缝密度是评价裂缝性储层的重要参数. 本文提出一种利用各向异性梯度计算裂缝密度的新方法,即运用裂缝介质等效理论将高陡倾角裂缝介质等效为横向各向同性介质,得到裂缝介质AVO响应特征,从而得到裂缝介质的各向异性梯度,之后由该梯度与裂缝密度的关系得到裂缝介质的裂缝密度. 实际处理中可以根据地震数据直接求取裂缝介质的各向异性梯度,最后求取裂缝介质的裂缝密度. 模型试算表明, 该方法能得到裂缝介质准确的裂缝密度. 反演结果与初始模型基本一致验证了该方法的正确性; 另外地震记录添加一定的信噪比后也能反演得到准确的裂缝密度,证明了该方法的稳定性. 相似文献
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Rock fractures are of great practical importance to petroleum reservoir engineering because they provide pathways for fluid flow, especially in reservoirs with low matrix permeability, where they constitute the primary flow conduits. Understanding the spatial distribution of natural fracture networks is thus key to optimising production. The impact of fracture systems on fluid flow patterns can be predicted using discrete fracture network models, which allow not only the 6 independent components of the second‐rank permeability tensor to be estimated, but also the 21 independent components of the fully anisotropic fourth‐rank elastic stiffness tensor, from which the elastic and seismic properties of the fractured rock medium can be predicted. As they are stochastically generated, discrete fracture network realisations are inherently non‐unique. It is thus important to constrain their construction, so as to reduce their range of variability and, hence, the uncertainty of fractured rock properties derived from them. This paper presents the underlying theory and implementation of a method for constructing a geologically realistic discrete fracture network, constrained by seismic amplitude variation with offset and azimuth data. Several different formulations are described, depending on the type of seismic data and prior geologic information available, and the relative strengths and weaknesses of each approach are compared. Potential applications of the method are numerous, including the prediction of fluid flow, elastic and seismic properties of fractured reservoirs, model‐based inversion of seismic amplitude variation with offset and azimuth data, and the optimal placement and orientation of infill wells to maximise production. 相似文献
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The South Pars, the largest gas field in the world, is located in the Persian Gulf. Structurally, the field is part of the Qatar–South Pars arch which is a regional anticline considered as a basement-cored structure with long lasting passive folding induced by salt withdrawal. The gas-bearing reservoir belongs to Kangan and Dalan formations dominated by carbonate rocks. The fracture role is still unknown in gas accumulation and distribution in this reservoir. In this paper, the Scattering Index (SI) and the semblance methods based on scattered waves and diffraction signal studies, respectively, were used to delineate the fracture locations. To find the relation between fractures and gas distribution, desired facies containing the gas, were defined and predicted using a method based on Bayesian facies estimation. The analysis and combination of these results suggest that preference of fractures and/or fractured zones are negligible (about 1% of the total volume studied in this paper) and, therefore, it is hard to conceive that they play an important role in this reservoir. Moreover, fractures have no considerable role in gas distribution (less than 30%). It can be concluded from this study that sedimentary processes such as digenetic, primary porosities and secondary porosities are responsible for the gas accumulation and distribution in this reservoir. 相似文献
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推导了各向异性介质中由弹性系数表示的方位动校NMO速度的具体表达式,表明各向异性介质中方位NMO速度程椭圆形状,并分别对具水平对称轴的横向各向同性介质(HTI)、正交介质和单斜各向异性介质及在不同的裂隙填充物的性质下方位NMO速度进行了计算,结果表明裂隙的存在对NMO速度的影响不仅与裂隙密度有关,还取决于裂隙填充物的性质.同时,研究表明对于裂隙型单斜各向异性介质,其方位NMO速度椭圆轴向并不象HTI介质和正交介质中的那样与自然坐标系的坐标轴一致,而是发生了一定角度的偏离,其大小与裂隙填充物的性质、两组裂隙密度的比值及裂隙间的夹角等因素有关,研究结果为进一步区分裂隙介质的类型及裂隙填充物的性质提供依据. 相似文献
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《水文科学杂志》2013,58(4):868-882
Abstract Non-Darcian flow in a finite fractured confined aquifer is studied. A stream bounds the aquifer at one side and an impervious stratum at the other. The aquifer consists of fractures capable of transmitting water rapidly, and porous blocks which mainly store water. Unsteady flow in the aquifer due to a sudden rise in the stream level is analysed by the double-porosity conceptual model. Governing equations for the flow in fractures and blocks are developed using the continuity equation. The fluid velocity in fractures is often too high for the linear Darcian flow so that the governing equation for fracture flow is modified by Forcheimer's equation, which incorporates a nonlinear term. Governing equations are coupled by an interaction term that controls the quasi-steady-state fracture—block interflow. Governing equations are solved numerically by the Crank-Nicolson implicit scheme. The numerical results are compared to the analytical results for the same problem which assumes Darcian flow in both fractures and blocks. Numerical and analytical solutions give the same results when the Reynolds number is less than 0.1. The effect of nonlinearity on the flow appears when the Reynolds number is greater than 0.1. The higher the rate of flow from the stream to the aquifer, the higher the degree of nonlinearity. The effect of aquifer parameters on the flow is also investigated. The proposed model and its numerical solution provide a useful application of nonlinear flow models to fractured aquifers. It is possible to extend the model to different types of aquifer, as well as boundary conditions at the stream side. Time-dependent flow rates in the analysis of recession hydrographs could also be evaluated by this model. 相似文献
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A conceptual model for describing effective saturation in fractured hard rock is presented. The fracture network and the rock matrix are considered as an equivalent continuum medium where each fracture is conceptualized as a porous medium of granular structure and the rock matrix is assumed to be impermeable. The proposed model is based on the representation of a rough‐walled fracture by an equivalent porous medium, which is described using classical constitutive models. A simple closed‐form equation for the effective saturation is obtained when the van Genuchten model is used to describe saturation inside fractures and fractal laws are assumed for both aperture and number of fractures. The relative hydraulic conductivity for the fractured rock is predicted from a simple relation derived by Liu and Bodvarsson. The proposed constitutive model contains three independent parameters, which may be obtained by fitting the proposed effective saturation curve to experimental data. Two of the model parameters have physical meaning and can be identified with the reciprocal of the air entry pressure values in the fractures of minimum and maximum apertures. Effective saturation and relative hydraulic conductivity curves match fairly well the simulated constitutive relations obtained by Liu and Bodvarsson. Copyright © 2008 John Wiley & Sons, Ltd. 相似文献
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Fracture systems can significantly influence productivity in tight sandstone reservoirs. Understanding the in situ fracture network is of importance in exploration and development of such reservoirs. This paper illustrates that stress-strain analysis, based on geological processes, is a credible prediction method for fracture networks and enables an estimation of which fractures are likely to contribute most to flow based on fracture orientation. This study shows the workflow for fracture modelling and its application in a sandstone reservoir using structural validation tools and interactive fracture simulations constrained with lithology, well log and core data. The fracture network model can help us understand not only what a fractured reservoir looks like but also how the existing fracture network behaves. An important consideration is that we need to understand and constrain the geological history to assess the fracture network properly. 相似文献
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Philip Tillotson Jeremy Sothcott Angus Ian Best Mark Chapman Xiang‐Yang Li 《Geophysical Prospecting》2012,60(3):516-525
We present laboratory ultrasonic measurements of shear‐wave splitting from two synthetic silica cemented sandstones. The manufacturing process, which enabled silica cementation of quartz sand grains, was found to produce realistic sandstones of average porosity 29.7 ± 0.5% and average permeability 29.4 ± 11.3 mD. One sample was made with a regular distribution of aligned, penny‐shaped voids to simulate meso‐scale fractures in reservoir rocks, while the other was left blank. Ultrasonic shear waves were measured with a propagation direction of 90° to the coincident bedding plane and fracture normal. In the water saturated blank sample, shear‐wave splitting, the percentage velocity difference between the fast and slow shear waves, of <0.5% was measured due to the bedding planes (or layering) introduced during sample preparation. In the fractured sample, shear‐wave splitting (corrected for layering anisotropy) of 2.72 ± 0.58% for water, 2.80 ± 0.58% for air and 3.21 ± 0.58% for glycerin saturation at a net pressure of 40 MPa was measured. Analysis of X‐ray CT scan images was used to determine a fracture density of 0.0298 ± 0.077 in the fractured sample. This supports theoretical predictions that shear‐wave splitting (SWS) can be used as a good estimate for fracture density in porous rocks (i.e., SWS = 100εf, where εf is fracture density) regardless of pore fluid type, for wave propagation at 90° to the fracture normal. 相似文献
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叠前地震资料储层预测技术是在Zoeppritz方程基础上发展起来的,通过处理地震数据随着不同入射角地震反射属性,得到地震属性随着入射角变化而改变,研究分析得到反映岩性变化的纵波速度、横波速度、泊松比和截距与梯度剖面,预测裂缝储层的发育及分布.同时根据不同方位角地震资料属性,计算得到不同方位角目的层的属性差异,使用各向异性椭圆公式作拟合,求出背景趋势A和各向异性因子B,利用最大振幅包络方位和对应θ,求出裂缝发育优势方向,及B/A各向异性因子,实现对裂缝储层预测. 相似文献