湖北宜昌震旦系陡山沱组储层特征及复杂体积压裂效果评价

鄂阳页2 HF井是国内首口针对震旦系陡山沱组的页岩气水平井,该井钻遇的陡山沱组页岩厚度大,岩石脆性好,含气性好且天然裂缝发育,具备良好的压裂改造基础.针对陡山沱组储层"高云质、地层常压、水平应力差异大、隔夹层发育"等压裂改造难点,通过采用"密分切割、多簇射孔、转向压裂"等复杂裂缝体积压裂工艺,采取变排量、暂堵转向、停泵...     

逆时偏移在声反射成像测井中的应用方法研究

声反射成像测井中常用的基于射线理论的Kirchhoff积分偏移算法和基于单程波理论的F-K偏移算法均可实现井旁缝洞反射体的快速偏移成像,但其仅适用于地层垂向变化较弱的速度场和高陡角裂缝的偏移成像,无法实现低角度反射体的准确偏移归位,产生偏移假象误导测井解释.逆时偏移基于全波动方程,可适应强垂向变化速度场,实现近似水平反射体的偏移成像.本文详细分析了将逆时偏移应用于声反射成像测井时存在的数据准备、时间采样间隔匹配和成像条件改进等若干问题,通过设置多组理论模型来说明算法对井旁不同反射体的识别能力.模拟资料和实际资料处理结果证实,较F-K偏移算法,逆时偏移算法成像精度更高、收敛性更好,可有效实现近似水平构造偏移归位.改进的归一化互相关成像条件可解决深部地层的远井壁成像衰减问题,降低测井解释的多解性.逆时偏移将成为声反射成像测井高精度偏移技术的发展方向.     

Controls of hydrocarbon generation on the development of expulsion fractures in organic-rich shale: Based on the Paleogene Shahejie Formation in the Jiyang Depression,Bohai Bay Basin,East China

The development of expulsion fractures in organic-rich shale is closely related to hydrocarbon generation and expulsion from kerogen. Organic-rich shales from the upper part of the fourth member and the lower part of the third member of the Paleogene Shahejie Formation in the Jiyang Depression, Bohai Bay Basin, East China, are used as an example. Based on thin sections, SEM and thermal simulation experiments, the characteristics of hydrocarbon generation and the conditions supporting the development of expulsion fractures were explored. The key factors influencing these fractures include the presence of kerogens, their distribution along laminae and around particle boundaries, their exposure to heat and the build-up in pressure due to confinement by low permeability. The development of excess pore fluid pressures and intrinsic low rock fracture strength are the main influencing factors. Pressurization by rapid generation of hydrocarbon provides impetus for fracture initiation and cause bitumen to migrate quickly. The shale laminae results in distinctly lower fracture strength laminae-parallel than laminae-normal and this directs the formation of new fractures in the direction of weakness. When pore fluid pressure increases, maximum and minimum principal effective stresses decrease by different proportions with a larger reduction in the maximum principal effective stress. This increases the deviatoric stress and reduces the mean stress, thus driving the rock towards failure. Moreover, the tabular shape of the kerogen aids the generation of hydrocarbon and the initiation of expulsion fractures from the tip and edge. The resulting fractures extend along the laminae when the tensile strength is lower in the vertical direction than in the horizontal direction. Particle contact boundaries are weak and allow fractures to expand around particles and to curve as the stress/strength regime changes. When pore fluid pressure fields at different fracture tips overlap, fractures will propagate and interconnect, forming a network. This paper could provide us more detailed understanding of the forming processes of expulsion fractures and better comprehension about hydrocarbon expulsion (primary migration) in source rocks.     

Simulation of paleotectonic stress fields and quantitative prediction of multi-period fractures in shale reservoirs: A case study of the Niutitang Formation in the Lower Cambrian in the Cen'gong block,South China

Reservoirs where tectonic fractures significantly impact fluid flow are widespread. Industrial-level shale gas production has been established from the Lower Cambrian Niutitang Formation in the Cen'gong block, South China; the practice of exploration and development of shale gas in the Cen'gong block shows that the abundance of gas in different layers and wells is closely related to the degree of development of fractures. In this study, the data obtained from outcrop, cores, and logs were used to determine the developmental characteristics of such tectonic fractures. By doing an analysis of structural evolution, acoustic emission, burial history, logging evaluation, seismic inversion, and rock mechanics tests, 3-D heterogeneous geomechanical models were established by using a finite element method (FEM) stress analysis approach to simulate paleotectonic stress fields during the Late Hercynian—Early Indo-Chinese and Middle-Late Yanshanian periods. The effects of faulting, folding, and variations of mechanical parameters on the development of fractures could then be identified. A fracture density calculation model was established to determine the quantitative development of fractures in different stages and layers. Favorable areas for shale gas exploration were determined by examining the relationship between fracture density and gas content of three wells. The simulation results indicate the magnitude of minimum principal stress during the Late Hercynian — Early Indo-Chinese period within the Cen'gong block is −100 ∼ −110 MPa with a direction of SE-NW (140°–320°), and the magnitude of the maximum principal stress during the Middle-Late Yanshanian period within the Cen'gong block is 150–170 MPa with a direction of NNW-SSE (345°–165°). During the Late Hercynian — Early Indo-Chinese period, the mechanical parameters and faults play an important role in the development of fractures, and fractures at the downthrown side of the fault are more developed than those at the uplifted side; folding plays an important role in the development of fractures in the Middle-Late Yanshanian period, and faulting is a secondary control. This 3-D heterogeneous geomechanical modelling method and fracture density calculation modelling are not only significant for prediction of shale fractures in complex structural areas, but also have a practical significance for the prediction of other reservoir fractures.     

上覆硬厚岩层破断运动及断顶控制

硬厚覆岩的破断与结构将发生显著的变化。针对汝箕沟煤矿二2煤层上覆厚层石英砂岩条件,采用现场实测、数值模拟、理论分析及现场试验等方法,研究了硬厚覆岩裂隙发育特征、破断运动、矿压显现特征及断顶控制技术,为硬厚覆岩工作面灾害防治提供了依据。研究表明,硬厚石英砂岩的微观结构致密完整,呈现大面积悬空、大步距破断运动,引起强烈的支架动载,甚至导致工作面风流逆转、沟通上部采空区隐形火区;硬厚岩层破断运移后产生明显的离层空间,并在开切眼上部和工作面上部及采空区中部形成覆岩主裂隙带,且发育高度大于经验计算数值,甚至与上方采空区沟通诱发灾害;实施开切眼深孔断顶爆破及降低工作面采高,有效缩短了硬厚岩层的初次破断步距,降低了支架动载及主裂隙带高度。     

断层转折褶皱剪切裂缝发育模式探讨

围绕库车前陆盆地内某典型断层转折褶皱剖面,实测统计该剖面不同构造部位的剪切裂缝,分析断层转折褶皱中剪切裂缝的发育规律,进而建立断层转折褶皱剪切裂缝的发育模式。统计结果表明,研究区剪切裂缝有2种类型,一类是与岩层面高角度相交的高角度缝,广泛发育在构造各个部位;另一类是与层面近于平行的顺层裂缝,主要发育在断层面附近,并随岩层的变形,产状发生改变。远离断层面,剪切裂缝发育程度整体上呈减小趋势,下盘裂缝发育强度的减小大于上盘,上盘裂缝发育强度整体大于下盘。褶皱内层剪切裂缝较外层发育,褶皱两翼裂缝发育强度大于褶皱枢纽。断层产状的改变,会引起上盘运动状态的改变,使得在上盘活动轴面附近出现应力集中,局部剪切裂缝发育强度出现增大现象。断层转折褶皱剪切裂缝的发育模式可以分为3个阶段,断层形成前主要发育与层面高角度相交的区域性剪切裂缝;断层形成初期,断层面附近两盘牵引变形不明显,上盘穿过断坡下部破折点处活动轴面的部分会产生新的剪切裂缝,即与岩层高角度相交剪切缝和与断层面低角度相交剪切缝;牵引构造明显时,断层面附近两盘弯曲部位会产生顺层剪切裂缝,两翼的裂缝发育强度大于枢纽。      

VSD技术在构造裂缝预测分析中的应用——以和田古隆起区为例

构造裂缝是古岩溶发育的基础。由于裂缝分布的复杂性,其识别和分布预测一直是研究的难点。在对和田古隆起地质背景和构造特征分析的基础上,展开裂缝形成条件分析,通过分析裂缝发育程度、褶曲作用和断层活动参数之间的关系,建立裂缝发育定量判别的依据。本文利用VSD(裂缝空间描述)技术刻画不同地质时期裂缝发育状况,提出发育裂缝部位,纵张裂缝发育区集中于玛4井、山1井和玛南东段,断裂裂缝发育区有玛南断裂带西段,罗南1井两种裂缝均较发育,它们是古岩溶发育的有利部位。     

与挠曲作用相关的一种特殊裂缝形成机制

浙江省临安市上侏罗统劳村组火山凝灰岩露头中发育了很多与挠曲相关的裂缝, 地层构造简单、露头良好, 为研究与挠曲相关裂缝提供了良好的条件.通过对两处野外露头的精细测量, 发现裂缝面平直、且未被充填, 均为构造裂缝, 在剖面上裂缝的组合呈扇形.裂缝面与岩层层面夹角为44°~80°, 裂缝密度随着地层厚度的增加而增加.根据裂缝面与层面的交切关系, 将两组裂缝分别命名为: 锐夹角指示邻层相对运动方向的D裂缝和锐夹角指示本层相对运动方向的D’裂缝.通过对地层挠曲变形的几何分析, 发现两组裂缝的形成是为了调节核部地层在变形过程中产生缩短量和剩余剪切, 地层厚度与地层中产生剩余剪切成正比.结果表明, 地层厚度越大, 形成的裂缝也越多.      

考虑裂缝干扰的气藏压裂水平井产能预测模型

基于压裂水平井井身结构复杂,需要建立考虑裂缝参数变化且符合水平井渗流特征的产能预测模型.为准确预测压裂水平井产能,通过保角变换和势的叠加原理,建立新模型,不仅考虑裂缝长度、裂缝间距、裂缝夹角的变化对压裂水平井产能的影响,还考虑裂缝间的相互干扰.结果表明:压裂水平井产能随着裂缝条数、长度和裂缝夹角的增加而增大.模型通过现场验证,计算单井无阻流量与试采结果对比,相对误差为8.3%,计算结果较为准确.     

MSCT在经皮椎体成形术的临床应用与疗效评价

目的:探讨骨质疏松压缩骨折经皮椎体成形术(PVP)伤椎高度的变化的MSCT与临床疗效的评价。方法:经MSCT检查确认25例病变椎体,术前在CT图像上模拟穿刺路径及选择PVP穿刺方式,术后一周内及术后半年进行伤椎复查,对影像数据与临床资料进行统计学分析,从MSCT及临床角度对疗效进行评价。结果:本组患者单侧椎弓穿刺成功率92%,术后腰背部疼痛明显减轻,术前、术后视觉评分、Cobb’s角以及伤椎压缩率比较统计学有显著性差异,而术后及半年后的视觉评分、Cobb’s角以及伤椎压缩率无显著性统计学差异。结论:MSCT能为PVP提供准确的解剖学数据,改善PVP效果,并能在术后随访提供重要的临床信息。