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塔河油田碳酸盐岩缝洞型储层的测井识别与评价方法研究 总被引:12,自引:4,他引:12
塔河油田奥陶系以碳酸盐岩为主,油气的主要储渗空间为裂缝和溶蚀孔洞,具有很强的非均质性.本文利用常规及成像测井资料,对碳酸盐岩缝洞型储层的识别与评价方法进行研究.为了综合各种测井方法识别裂缝,建立了综合裂缝概率模型,计算综合裂缝概率指示裂缝的发育程度.利用地层微电阻率扫描成像测井资料进行裂缝和溶蚀孔洞的定性、定量解释.定量计算的裂缝参数为:裂缝密度、裂缝长度、裂缝平均宽度、平均水动力宽度、裂缝视孔隙度;定量计算的溶蚀孔洞参数有:面孔率、孔洞密度.根据缝洞型储层孔隙空间类型及其中子孔隙度、补偿密度、声波、双侧向电阻率的测井响应物性特征,建立缝洞型碳酸盐岩储层复杂孔隙介质解释模型,用于确定裂缝、溶蚀孔洞孔隙度和评价储层. 相似文献
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碳酸盐岩储层非均质性强、储集空间类型复杂多样,储层中流体性质的识别及有效厚度的划分比较困难,为了完成碳酸盐岩储层的常规测井评价,根据碳酸盐岩储层地质特征,将储层分为三种类型:1)裂缝+孔隙型储层,其孔隙度大于3.5%,其裂缝为规模较大的构造缝,其次是一些宏观裂缝,是碳酸盐岩储层中最好的储层;2)微裂缝+孔隙型储层,其孔隙度大于3.5%,其裂缝主要为储层微观孔、缝以及孔洞.3)裂缝层,其孔隙度小于3.5%,裂缝较发育,基质孔隙度和储层含油饱和度很小,接近于零,为裂缝层.基于以上三种类型的储层来建立测井地质评价模型,由于碳酸盐岩储层是典型的双重介质模型,分别建立两类孔隙空间的几何模型及流体模型,分别建立三种储层的空间几何模型和流体分布模型,每种模型又分为裂缝系统和岩块孔隙系统,在此基础上总结各种测井曲线的响应特征,分别给出储层参数计算的数理模型,基质岩块和裂缝孔隙度、渗透率和储层油气水饱和度,对裂缝的张开度也进行了定量计算,给出了储层流体性质及有效厚度的划分标准,最终完成碳酸盐岩的常规测井评价. 相似文献
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川东北双庙场构造嘉二段储层综合预测 总被引:1,自引:0,他引:1
双庙场构造嘉二段储层以白云岩储层为主;白云岩储层物性较好,主要为裂缝-孔隙型储层,储集空间主要为晶间溶孔、裂缝.文中根据构造应力场理论、地震波频率衰减及裂缝检测理论,运用构造应力场数值模拟分析、裂缝各向异性属性分析、FVO分析、叠前弹性波阻抗反演及衰减属性分析等方法,充分利用现有的地质、钻井、测井资料和叠前、叠后地震数据,对双庙场构造嘉二段储层开展联合预测,搞清了裂缝发育与地层岩性、应力分布以及构造发育之间的关系,明确了裂缝的走向、密度及白云岩有利储层发育部位,预测了有利储层的分布范围.实际资料应用表明,用该套方法识别裂缝-孔隙型储层是有效和可靠的,可以检测出有利的储层发育带. 相似文献
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碳酸盐岩孔隙结构类型复杂多样,当地震波经过含有不同孔隙结构的流体饱和岩石后往往会产生不同的波频散和衰减特征,这使得根据波的不同响应特征来推断碳酸盐岩的孔隙结构类型,甚至孔隙流体性质信息成为可能.本文针对白云岩、灰岩以及人工碳酸盐岩样品开展了跨频段(超声+低频)实验测量和理论建模,探索碳酸盐岩的孔隙结构类型和孔隙流体对模量频散和衰减的影响机制.首先根据铸体薄片、扫描电镜的图像对碳酸盐岩样品进行了孔隙结构类型分析,并将样品主要分为裂缝型、裂缝-孔隙型、孔洞型三类,然后测量了相应样品完全饱和流体后在不同围压下的模量频散与衰减.在完全饱和甘油并处于低围压时,裂缝型与孔洞型样品均出现一个衰减峰,分别位于1 Hz与100 Hz附近,而裂缝-孔隙型样品则具有两个衰减峰,一个在1 Hz附近,另一个在100 Hz附近.裂缝型样品(裂缝主导)的衰减峰相比孔洞型样品(中等刚度孔隙主导)对应的衰减峰在低围压下幅度更大,且对围压变化更敏感.在测量数据的基础上,建立了考虑纵横比分布的软孔隙和中等刚度孔隙的喷射流模型,认为该模型能一定程度上解释裂缝型、裂缝-孔隙型、孔洞型三种类型碳酸盐岩在测量频带的频散.以上研究加深了对不同孔隙类型主导的碳酸盐岩储层地震响应特征的认识,对储层预测工作的进一步精细化具有重要意义. 相似文献
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碳酸盐岩裂缝型储层是海相油气储层以及西部探区的重要储层类型之一,多表现为缝洞储集体形态,埋藏深度大,地震反射波信号复杂,波场特征分析困难,因而对其进行高分辨成像具有一定的难度.本文推导并实现了基于最小二乘理论的偏移成像(LSM)方法,并将LSM用于西部探区碳酸盐岩裂缝型储层等效地震地质模型的偏移成像工作,成像结果表明:在理论上,LSM方法能够较好地分辨出埋藏深度在3000 m以下的中深部20 m尺度碳酸盐岩裂缝型储层,在西部碳酸盐岩裂缝型储集体地震勘探中,具有较好的适应性. 相似文献
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碳酸盐岩岩溶型储层综合预测 总被引:2,自引:0,他引:2
塔里木盆地碳酸盐岩岩溶型储层广泛分布于塔北、塔中、巴楚等地区,是塔里木盆地碳酸盐岩勘探的重点,也是塔里木油田增储上产的主要层系之一。由于埋藏深度大、反射信号较弱、信噪比较低,更由于岩溶型储层非均质性严重,使得储层预测的难度增大。通过多年的攻关研究,从碳酸盐岩风化壳储层的地球物理响应特征出发,逐步探索并建立了技术、岩溶型储层测井评价技术、岩溶型储层地震描述技术、应变量分析技术为手段的溶型储层综合评价技术。在塔北、以地质概念模型为基础,以基于层序格架的潜山古地貌恢复塔中等地区应用中取得了良好的地质效果,相继获得了工业油气流。本文介绍了该技术在塔北轮古西地区的具体实施和应用效果。 相似文献
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肯吉亚克油田石炭系油藏属持低孔渗、异常高压碳酸盐岩油藏,它除了具有埋深大,非均质性强,油气成藏控制因素复杂等特点外,其上还覆盖巨厚盐丘,造成盐下地震反射时间和振幅畸变严重,地震成像差、信噪比低和分辨率低,给储层预测工作带来极大困难。如何正确预测油藏高产带分布规律是高效开发这类油藏的关键,本文研究从分析形成碳酸盐岩油藏高产带的主控因素入手,通过井震标定,优选反映碳酸盐岩岩相、岩溶、物性和裂缝的地震属性,结合地震、地质、测井、油藏工程和钻井资料,把盐下特低孔渗碳酸盐岩油藏高产带预测问题分解成构造解释、岩相预测、岩溶预测、物性预测、裂缝预测和综合评价等六个环节。宏观上,通过建立断裂、岩相、岩溶模式,定性预测储层分布有利区带;微观上,通过多参数储层特征反演和多属性综合分析,定量、半定量预测有利储层分布,有效解决盐下碳酸盐岩油藏高产带预测难题,基本搞清本区碳酸盐岩油藏高产带分布规律,为优选有利勘探和开发目标提供依据。文中提出的方法和技术对解决国内外碳酸盐岩油藏高产带预测和其他复杂储层预测问题有借鉴作用。 相似文献
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火山岩、白云岩储层基质孔隙度计算方法分析(英文) 总被引:3,自引:1,他引:2
火山岩、风化壳白云岩等缝洞储层基质孔隙度计算是测井评价亟需解决的难题之一.本文首先将全直径流纹岩声波实验公式(2005年,李宁)与国内外常用的基质孔隙度计算公式进行了细致的对比;进而就该公式在中基性火山岩、风化壳白云岩等缝洞储层中的适用性进行了深入讨论,并以岩心分析资料为基础,详细给出了该公式与其它公式在计算上述储层基质孔隙度时的误筹分布.误差统计结果表明该公式具有更高的精度.通过中国东部和西部三家油田70口井的实际应用验证,在孔隙度从1.5%到15%范围内,该公式不仅适用于酸性火山岩储层,而且适用于中基性火山岩、风化壳白云岩等缝洞储层基质孔隙度的评价.同时,该公式能够最大限度地减小扩径、岩石蚀变等复杂地质条件对计算结果的影响,实用性更强. 相似文献
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Since natural fractures in petroleum reservoirs play an important role in determining fluid flow during production, knowledge of the orientation and density of fractures is required to optimize production. This paper outlines the underlying theory and implementation of a fast and efficient algorithm for upscaling a Discrete Fracture Network (DFN) to predict the fluid flow, elastic and seismic properties of fractured rocks. Potential applications for this approach are numerous and include the prediction of fluid flow, elastic and seismic properties for fractured reservoirs, model‐based inversion of seismic Amplitude Versus Offset and Azimuth (AVOA) data and the optimal placement and orientation of infill wells to maximize production. Given that a single fracture network may comprise hundreds of thousands of individual fractures, the sheer size of typical DFNs has tended to limit their practical applications. This paper demonstrates that with efficient algorithms, the utility of Discrete Fracture Networks can be extended far beyond mere visualization. 相似文献
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James G. Berryman 《Geophysical Prospecting》2009,57(2):193-208
Certain crack-influence parameters of Sayers and Kachanov are shown to be directly related to Thomsen's weak-anisotropy seismic parameters for fractured reservoirs when the crack/fracture density is small enough. These results are then applied to the problem of seismic wave propagation in polar reservoirs, i.e., those anisotropic reservoirs having two axes that are equivalent but distinct from the third axis), especially for horizontal transversely isotropic seismic wave symmetry due to the presence of aligned vertical fractures and resulting in azimuthal seismic wave symmetry at the Earth's surface. The approach presented suggests one method of inverting for fracture density from wave speed data. A significant fraction of the technical effort in the paper is devoted to showing how to predict the angular location of the true peak (or trough) of the quasi-SV-wave for polar media and especially how this peak is related to another angle that is very easy to compute. The axis of symmetry is always treated here as the x 3 -axis for either vertical transversely isotropic symmetry (due, for example, to horizontal cracks), or horizontal transversely isotropic symmetry (due to aligned vertical cracks). Then, the meaning of the stiffnesses is derived from the fracture analysis in the same way for vertical transversely isotropic and horizontal transversely isotropic media, but for horizontal transverse isotropy the wave speeds relative to the Earth's surface are shifted by 90o in the plane perpendicular to the aligned vertical fractures. Skempton's poroelastic coefficient B is used as a general means of quantifying the effects of fluids inside the fractures. Explicit Biot-Gassmann-consistent formulas for Thomsen's parameters are also obtained for either drained or undrained fractures resulting in either vertical transversely isotropic or horizontal transversely isotropic symmetry of the reservoir. 相似文献
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在油气勘探与开发过程中,寻求能够从地震资料中直接识别储层油气的流体指示因子至关重要.由于现存多数流体指示因子都是在Biot理论假设前提下建立起来的,因此在双相孔隙介质条件下不能有效地识别流体.为此,本文基于前人提出的双孔介质统一波动理论,考虑岩石裂缝间挤喷流效应,在经典流体指示因子基础上构建了一种新的流体指示因子.该流体因子能够较好地反映岩石内孔隙流体的变化对波传播产生的影响.在实际资料的应用中,采用多种方法分析、对比该流体识别因子与以Biot理论为基础的传统流体因子的优劣,理论分析与实际资料的验证表明该流体因子对于储层中油气的检测有较高的精度和灵敏度. 相似文献
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A marine VSP is designed to estimate the orientation and density of fracturing within a gas-producing dolomite layer in the southern North Sea. The overburden anisotropy is firstly estimated by analysing shear waves converted at or just below the sea-bed, from airgun sources at four fixed offset azimuths. Full-wave modelling helps confirm that the background has no more than 3% vertical birefringence, originating from TIH anisotropy with a symmetry axis orientated perpendicular to the maximum horizontal compressive stress of NW–SE. This finding concurs with current hypotheses regarding the background rock matrix in the upper crust. More detailed anisotropy estimates reveal two thin zones with possible polarization reversals and a stronger anisotropy. The seismic anisotropy of the dolomite is then determined from the behaviour of locally converted shear waves, providing a direct link with the physical properties of its fractures. It is possible to utilize this phenomenon due to the large seismic velocity contrast between the dolomite and the surrounding evaporites. Two walkaway VSPs at different azimuths, recorded on three-component receivers placed inside the target zone, provide the appropriate acquisition design to monitor this behaviour. Anisotropy in the dolomite generates a transverse component energy which scales in proportion to the degree of anisotropy. The relative amplitudes, for this component, between the different walkaway azimuths relate principally to the orientation of the anisotropy. Full-wave modelling confirms that a 50% vertical birefringence from TIH anisotropy with a similar orientation to the overburden is required to simulate the field observations. This amount of anisotropy is not entirely unexpected for a fine-grained brittle dolomite with a potentially high fracture intensity, particularly if the fractures contain fluid which renders them compliant to the shear-wave motion. 相似文献
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Rui-Zhao Yang Zheng-Guang Zhao Wei-Jun Peng Yu-Bo Gu Zhan-Gang Wang Xi-Qin Zhuang 《应用地球物理》2013,10(2):157-169
The development of unconventional resources, such as shale gas and tight sand gas, requires the integration of multi-disciplinary knowledge to resolve many engineering problems in order to achieve economic production levels. The reservoir heterogeneity revealed by different data sets, such as 3D seismic and microseismic data, can more fully reflect the reservoir properties and is helpful to optimize the drilling and completion programs. First, we predict the local stress direction and open or close status of the natural fractures in tight sand reservoirs based on seismic curvature, an attribute that reveals reservoir heterogeneity and geomechanical properties. Meanwhile, the reservoir fracture network is predicted using an ant-tracking cube and the potential fracture barriers which can affect hydraulic fracture propagation are predicted by integrating the seismic curvature attribute and ant-tracking cube. Second, we use this information, derived from 3D seismic data, to assist in designing the fracture program and adjusting stimulation parameters. Finally, we interpret the reason why sand plugs will occur during the stimulation process by the integration of 3D seismic interpretation and microseismic imaging results, which further explain the hydraulic fracture propagation controlling factors and open or closed state of natural fractures in tight sand reservoirs. 相似文献
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Fluid identification in fractured reservoirs is a challenging issue and has drawn increasing attentions. As aligned fractures in subsurface formations can induce anisotropy, we must choose parameters independent with azimuths to characterize fractures and fluid effects such as anisotropy parameters for fractured reservoirs. Anisotropy is often frequency dependent due to wave-induced fluid flow between pores and fractures. This property is conducive for identifying fluid type using azimuthal seismic data in fractured reservoirs. Through the numerical simulation based on Chapman model, we choose the P-wave anisotropy parameter dispersion gradient (PADG) as the new fluid factor. PADG is dependent both on average fracture radius and fluid type but independent on azimuths. When the aligned fractures in the reservoir are meter-scaled, gas-bearing layer could be accurately identified using PADG attribute. The reflection coefficient formula for horizontal transverse isotropy media by Rüger is reformulated and simplified according to frequency and the target function for inverting PADG based on frequency-dependent amplitude versus azimuth is derived. A spectral decomposition method combining Orthogonal Matching Pursuit and Wigner–Ville distribution is used to prepare the frequency-division data. Through application to synthetic data and real seismic data, the results suggest that the method is useful for gas identification in reservoirs with meter-scaled fractures using high-qualified seismic data. 相似文献
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The formation mechanism of high-quality dolomite reservoir in the deep of Puguang Gas Field 总被引:1,自引:0,他引:1
《中国科学D辑(英文版)》2008,(Z1)
The discovery of Puguang Gas Field provides the exploration of China deep marine carbonate rock with important references.In Puguang Gas Field,the dolomite reservoirs discovered in the deep are the best in the present of China,which present big thickness and wide-range distribution,and develop abundant secondary porosity.The researches show that Puguang Gas Field bears the characteristics of early gas-filling time,deep burial,high matured organic matter and long-term interaction of hydrocarbon(oil and gas)-water-rock(carbonate reservoir).The developments of secondary pores in this area are affected by multiple diagenesis and their formation mechanisms are complicated.Through the research on depositional environment,sedimentary facies and reservoir porosity characters of Changxing and Feixianguan Formations,it is thought that high-quality dolomite reservoirs of Puguang Gas Field form on the favorable sedimentary facies belts,which are the integrate result affected by several factors including superficial corrosion,burial corrosion,overpressure and tectonic movement,among which burial corrosion of TSR to reservoir and overpressure formed by thermal evolution of organic matter have great effect on the formation of secondary porosity of Changxing and Feixianguan Formations. 相似文献
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The discovery of Puguang Gas Field provides the exploration of China deep marine carbonate rock with important references. In Puguang Gas Field, the dolomite reservoirs discovered in the deep are the best in the present of China, which present big thickness and wide-range distribution, and develop abundant secondary porosity. The researches show that Puguang Gas Field bears the characteristics of early gas-filling time, deep burial, high matured organic matter and long-term interaction of hydrocarbon (oil and gas)-water-rock (carbonate reservoir). The developments of secondary pores in this area are affected by multiple diagenesis and their formation mechanisms are complicated. Through the research on depositional environment, sedimentary facies and reservoir porosity characters of Changxing and Feixianguan Formations, it is thought that high-quality dolomite reservoirs of Puguang Gas Field form on the favorable sedimentary facies belts, which are the integrate result affected by several factors including superficial corrosion, burial corrosion, overpressure and tectonic movement, among which burial corrosion of TSR to reservoir and overpressure formed by thermal evolution of organic matter have great effect on the formation of secondary porosity of Changxing and Feixianguan Formations. 相似文献