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页岩储层孔隙度和渗透率极低,天然裂缝和水平层理发育,常规压裂增产措施无法满足页岩气的开发要求,水平井多段分簇压裂是页岩气开发的关键技术之一,该技术能够大幅度提升压裂改造的体积、产气量和最终采收率。为确定页岩储层水平井多段分簇射孔压裂的起裂点和起裂压力,采用有限元方法建立了水平井套管完井(考虑水泥环和套管的存在)多段分簇射孔的全三维起裂模型。数值模型的起裂压力与室内试验结果吻合较好,证明了数值模型的准确性和可靠性。利用数值模型研究了页岩水平井多段分簇射孔压裂的起裂点和起裂压力的影响因素,研究发现:射孔孔眼附近无天然裂缝或水平层理影响,起裂点发生在射孔簇孔眼的根部;射孔簇间距越小,中间射孔簇的干扰越大,可能造成中间的射孔簇无法起裂;射孔密度和孔眼长度增大,起裂压力降低;天然裂缝的存在,在某些情况能够降低起裂压力且改变起裂位置,主要与天然裂缝的分布方位及水平主应力差有关;水平层理可能会降低起裂压力,但与垂向主应力与水平最小主应力的差值有关。获得的起裂压力变化规律,可作为进一步研究水平井多段分簇射孔条件下的裂缝扩展规律的基础,可以为压裂设计和施工的射孔参数确定及优化给出具体建议。 相似文献
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页岩气开发水力压裂技术综述 总被引:1,自引:0,他引:1
世界页岩气资源丰富,但由于页岩地层渗透率很低,目前还没有广泛开发。水力压裂技术是页岩气开发的核心技术之一,广泛用于页岩储层的改造。介绍了水力压裂作业的压裂设计、裂缝监测、压裂液配制和添加剂选择,以及常用的压裂技术,包括多级压裂、清水压裂、同步压裂、水力喷射压裂和重复压裂。结合国外页岩气开发的实例和国内压裂技术的应用情况,分析了各种压裂技术的适用性。研究认为,清水压裂是现阶段中国页岩气开发储层改造的适用技术,开采长度(厚度)大的页岩气井,可以使用多级分段清水压裂技术。同步压裂技术是规模化的页岩气开发的客观需要。 相似文献
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The ultra-low permeability of shale reservoirs necessitates engineering applications such as hydraulic fracturing to enable the extraction of economically viable amounts of gas. In this process, a high-pressure fluid is injected into the reservoir to create a network of fractures. Proppants are solid, spherical, high-strength particles with size range between 8 and 140 mesh (105 μm–2.38 mm), which are injected into the reservoir simultaneously with fracturing fluid to prompt the opening of the fractures created, and they play a major role in the hydraulic fracturing process. As a result, appropriate management of proppants in shale reservoirs based on precise identification of their behaviour in shale reservoirs is necessary, because unexpected proppant performance or behaviour, commonly known as proppant damage mechanisms, can greatly reduce fracture conductivity. Therefore, it is essential to determine the major factors affecting proppant behaviour in order to maintain constant fracture conductivity. Numerous factors have been found in previous studies, and they can be summarized into three major groups: proppant properties, reservoir properties and hydraulic fracturing production, which affect proppant damage mechanisms. In the present paper, case studies have been provided on the determination of potential factors influencing proppant behaviour, followed by a discussion of their effects on fracture conductivity. The aim of this study is to present current opinions on potential factors influencing proppant behaviour based on a comprehensive literature review. 相似文献
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The multi-stage fracturing in horizontal well is a common technique for shale gas reservoir exploitation, in which cluster spacing governs the fracturing performance. Undersized cluster spacing might make the stimulated reservoir volume (SRV), activated by the respective hydraulic fracture, excessively overlap with each other, while oversized cluster spacing might leave a large unstimulated volume between neighboring hydraulic fractures; in either case, fracturing would be inefficient. Previous design of cluster spacing has failed to maximize the SRV due to the absence of a dynamic SRV evaluation model. A numerical model of SRV evaluation in shale reservoir was established by integrating four main modules, including fracture propagation, reservoir pressure distribution, formation stress distribution, and natural fracture failure criterion. Then, a method to optimize cluster spacing was developed with the goal of maximizing SRV. In order to validate this method, it was applied in Fuling shale gas reservoir in Southwest China to determine the optimal cluster spacing. The sensitivity of key parameters on the optimal cluster spacing has been analyzed. This research proposed a compelling cluster spacing optimization method, which could reduce the uncertainty in cluster spacing design, and provides some new insights on the optimal design of multi-stage fracturing in horizontal shale gas well. 相似文献
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页岩气藏矿场压裂实践表明,储层有效改造体积(effective stimulated reservoir volume,简称ESRV)是影响页岩气藏体积压裂水平井生产效果的关键因素,ESRV的准确计算对页岩气藏压裂方案评价与体积压裂水平井产量预测具有重要作用.基于页岩储层改造体积(stimulated reservoir volume,简称SRV)多尺度介质气体运移机制,建立了SRV区域正交离散裂缝耦合双重介质基质团块来表征单元体渗流模型(representation elementary volume,简称REV),并结合北美页岩储层实例研究了次生裂缝间距、宽度等缝网参数对页岩气藏气体运移规律的影响.在此基础上根据SRV区域次生裂缝分布特征,采用分形质量维数定量表征裂缝间距分布规律,结合页岩气藏次生裂缝间距对基质团块内流体动用程度的影响规律,得到了页岩气藏体积压裂ESRV计算方法.结果表明SRV区域次生裂缝间距对基质团块内吸附及自由气影响较大,次生裂缝间距小于0.20 m时可以实现SRV区域基质团块内流体向各方向裂缝的"最短距离"渗流.选取北美典型页岩储层生产井体积压裂数据进行ESRV计算,页岩气藏目标井ESRV占体积压裂SRV的37.78%.因此ESRV受改造区域次裂缝分布规律及SRV有效裂缝间距界限的影响,是储层固有性质及人工压裂因素综合作用的结果. 相似文献
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近年来,页岩气作为一种重要的非常规天然气来源,逐渐成为国内外关注的热点。当前的研究工作总体侧重于页岩气开采技术的改进与环境监测,对页岩气开采过程中水岩相互作用还少有报道。本文采用模拟实验,选取储层页岩样品,在温度90 ℃、压力10 MPa环境下,开展了CO2压裂液页岩相互作用实验研究。主要探讨页岩气开采过程中,由于常规水力压裂液以及后期超临界CO2的增注,造成的储层岩石矿物的变化以及返排液成分的变化。实验结果显示:压裂液能使岩石矿物发生溶蚀,超临界CO2的存在会进一步加剧溶蚀反应的进行,促使孔隙变大并产生更多的微孔隙,为页岩气提供更多的运移通道,有利于油气的运移。但是,存在的环境威胁不容忽视:一方面,岩石中会溶解出大量的Ca、Mg、Si元素和少量Fe、Mn等金属元素,超临界CO2、富有机质页岩以及压裂液中表面活性剂等物质在高温高压酸性环境条件下,容易生成挥发性有机物残留在地层中,极有可能沿着岩石破碎的孔隙、断裂发生迁移或泄露,从而对地下含水层造成污染;另一方面,多种成分进入高矿化度溶液体系经返排回到地表,也会增大处理返排液的难度。本文取得的实验数据和成果有助于理解页岩气储层在开采过程中可能发生的水岩相互作用过程及其潜在的环境风险。 相似文献
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页岩气的工业化开发要求对致密储层进行体积压裂改造,水平井多级分段压裂技术是成功开发页岩气藏的关键技术之一。页岩储层在地应力与致裂压力联合作用下突破页岩基质,沟通天然裂隙等弱结构面,形成高导流能力缝网系统,页岩储层中赋存的游离气和吸附气得以释放,提高了页岩气井的初始产量和最终采收率。根据渝东地区页岩储层工程地质特征,结合渝页A-2HF井、渝页B-2HF井矿场压裂施工数据,探索适用于渝东地区的页岩储层压裂工艺技术,结果表明,采用前置盐酸处理储层保持近井带导流能力,能够保障后续大排量施工压力窗口;低砂比粉砂段塞多级降滤实现“控近扩远”,增加储层改造体积;压力异常层段胶液前置充分造缝,可为后续滑溜水携带支撑剂进入地层创造有利条件。 相似文献
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The hydraulic fracturing technique has been widely applied in many fields, such as the enhanced geothermal systems (EGS), the improvement of injection rates for geologic sequestration of CO2, and for the stimulations of oil and gas reservoirs. The key points for the success of hydraulic fracturing operations in unconventional resources are to accurately estimate the redistribution of pore pressure and stresses around the induced fracture and predict the reactivations of preexisting natural fractures. The pore pressure and stress regime around hydraulic fracture are affected by poroelastic and thermoelastic phenomena as well as by fracture opening compression. In this work, a comprehensive semi-analytical model is used to estimate the stress and pore pressure distribution around an injection-induced fracture from a single well in an infinite reservoir. The model allows the leak-off distribution in the formation to be three-dimensional with the pressure transient moving ellipsoidically outward into the reservoir from the fracture surface. The pore pressure and the stress changes in three dimensions at any point around the fracture caused by poroelasticity, thermoelasticity, and fracture compression are investigated. With Mohr-Coulomb failure criterion, we calculate the natural fracture reactivations in the reservoir. Then, two case studies of constant water injection into a hydraulic fracture are presented. This work is of interest in the interpretation of microseismicity in hydraulic fracturing and in the estimation of the fracture spacing for hydraulic fracturing operations. In addition, the results from this study can be very helpful for the selection of stimulated wells and further design of the refracturing operations. 相似文献
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水力压裂是页岩油气增产的主要手段,其核心是向储层连续泵入压裂液迫使储层产生水力裂缝/缝网形成油气运移高效通道,从而达到油气增产的目的。相较人工主缝,微裂缝具有数量大、缝宽小、走向复杂等特点,常规支撑剂无法对其形成有效支撑,如何提高微裂缝的导流能力是进一步提高页岩油气产能的关键。微缝导流能力实验表明:微支撑剂嵌入页岩裂缝表面导致一定程度的渗透率损害,但支撑微裂缝的渗透率仍比页岩基质渗透率高出2~3个数量级,仍可为页岩油气运移提供有效渗流通道。本文系统分析了微支撑剂对微裂缝的支撑特性、微支撑剂的长距离输运性能及辅助降滤等特征,提出了微支撑剂对致密油气增产的内在机制。结合我国致密油气储层基质孔隙尺度,形成了考虑微裂缝开度及基质孔隙尺寸的微支撑剂选配原则。 相似文献
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微地震监测技术是页岩气开采过程中对页岩气储层压裂效果评价和指导压裂过程的重要手段,可通过观察、分析压裂过程中诱发微地震事件,获取压裂裂缝参数、导流能力、裂缝展布发育方向等信息。中牟区块牟页1井具有低孔、低渗储层特征,对含气层段的三层储层,采用大排量水力压裂施工,进行地面微地震监测、井中微破裂成像技术压裂监测及微地震监测;牟页1井监测压裂结果显示为缝长251~496m,缝宽120~252m,改造体积约为237.5×104~387.7×104 m3,方位角64°~80°。压裂实施使储层裂缝开启含气层段得到改造,指导了实时压裂和压裂效果评价。 相似文献
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In this study, the effects of the temperature difference between hydraulic fracturing fluid and rock formation on the time‐dependent evolution of fracture width were investigated using a newly derived one‐dimensional anisotropic porothermoelastic analytical solution. The solution is shown to correctly reproduce existing solutions for special cases and corrections for an earlier publication are provided. An analysis of time‐dependent fracture width evolution using Woodford Shale data was also presented. It was found that when the fracturing fluid has the same temperature as the shale formation, the fracture gradually closes back after the initial opening due to the invasion of the fracturing fluid. Practically, in this scenario, proppants should be pumped into the fracture as soon as possible to obtain maximum fracture conductivity. On the other hand, with a fracturing fluid 60 °C colder than the formation, the thermal contraction of the rock dominates the fracture aperture evolution, resulting in a fracture aperture approximately 70% larger than that produced by the hotter fracturing fluid. Consequently, in this case, it is beneficial to delay proppant placement to take advantage of the widening fractures. Finally, it was found that the fracture aperture is directly controlled by the spacing of natural fractures. Therefore, the presence of natural fractures in the shale formation and their spacing influence not only the type of hydraulic fractures created but also what kind and size of proppants should be used to keep them open. Copyright © 2013 John Wiley & Sons, Ltd. 相似文献
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Shunde Yin 《国际地质力学数值与分析法杂志》2013,37(15):2523-2538
Integration of poromechanics and fracture mechanics plays an important role in understanding a series of thermal fracturing phenomena in subsurface porous media such as cold water flooding for enhanced oil recovery, produced‐water reinjection for waste disposal, cold water injection for geothermal energy extraction, and CO2 injection for geosequestration. Thermal fracturing modeling is important to prevent the potential risks when fractures propagate into undesired zones, and it involves the coupling of heat transfer, mass transport, and stress change as well as the fracture propagation. Analytical method, finite element method, and finite difference method as well as boundary element method have been used to perform the thermal fracturing modeling considering different degrees and combinations of coupling. In this paper, extended finite element method is employed for the thermal fracturing modeling in a fully coupled fashion with remeshing avoided, and the stabilized finite element method is employed to account for the convection‐dominated heat transfer in the fracturing process with numerical oscillation circumvented. With the thermal fracturing model, a hypothetical numerical experiment on cold water injection into a deep warm aquifer is conducted. Results show that parameters such as injection rate, injection temperature, aquifer stiffness, and permeability can affect the fracture development in different ways and extended finite element method and stabilized finite element method provide effective tools for thermal fracturing simulation. Copyright © 2012 John Wiley & Sons, Ltd. 相似文献
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为了探索焦作"三软"煤层(软煤、软顶和软底)水力压裂条件下煤层气渗透机理及产出规律,首先基于储层裂缝扩展模型,考虑压裂后煤体孔隙率对渗透率的影响,建立储层裂缝渗透模型,并进行试验单井的应用及分析,得出压裂缝长度、宽度、渗透率以及压裂后储层参数等指标;而后通过等温吸附曲线法与历史拟合法的综合分析,对煤层气井的采收率进行预测;最后结合所得指标参数与采收率,运用FracproPT软件对矿区GW-002试验井进行2 430 d的产能预测。结果表明:该试验井模拟预测的平均日产气量可达596.87 m3,采收率可达32.86%,累计产气量可达1.09×106 m3,数值模拟出的产气量与实采数据较为吻合,满足煤层气开采技术要求,可用于指导焦作矿区煤层气井压裂抽采实践与产能预测。 相似文献
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源岩层系油气已成为世界油气工业体系中举足轻重的重点领域,未来发展潜力很大。本文通过深入解读含油气源岩层系的地质形成条件,发现储集层属性和烃源岩属性在根本上决定了源岩层系油气成功开发的技术路径。储集层属性是指储集层储存和渗滤油气的物理性质及其相互关系,地史时期微—纳米级孔- 喉- 缝系统充注和聚集了大面积连续型油气资源,人工压裂形成缝网系统突破了致密储层的连通属性短板,成功开发了规模油气资源,突破流动属性短板可能是另一个发展方向。烃源岩属性是指烃源岩滞留、转化和排出油气的物理化学性质及其相互关系,包括已转化的滞留油气和未转化的残留有机质,滞留及潜在烃类资源规模巨大,地下人工加热等方式理论上可突破烃源岩的有机质数量和成熟度属性短板,可能是实现成功开发的有效路径。储集层属性和烃源岩属性是实现源岩层系油气规模发展的内在潜质基础,公共属性参数是外部环境基础。造缝产烃还是改质造烃?前提是准确研判优选何种内在属性参数,基础是系统整合优化所有外在属性参数,推动实现源岩层系油气商业化可持续发展,未来中低熟富有机质页岩及油页岩、中高熟富气态烃页岩层系、低变质程度富油煤岩、深层可气化煤炭等是值得期待的战略发展领域。 相似文献
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页岩气是一种分布广泛且储量丰富的非常规能源,但由于其储层具有孔隙度小及渗透率低等特性,一直以来页岩气未得到大规模开采。直到近20年,页岩气开采技术才得到飞速发展,这主要得益于水力压裂技术的进步。压裂液是水力压裂的重要组成部分,其性能的优劣直接影响水力压裂施工的成败。通过调研国内外文献,结合国内外压裂液技术的发展历程,分析了页岩气开采中几种常用压裂液的优点、适应性及存在的问题,综述了两类新型的无水压裂技术。结合我国页岩气储层的特殊性及压裂技术发展的现状,提出了适于我国页岩气开采的压裂液技术发展的建议,并特别强调了在页岩气开发初期重视环保的重要性。 相似文献
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页岩气开采的相关实验、模型和环境效应 总被引:1,自引:0,他引:1
页岩气是一种重要的非常规天然气资源,正在改变世界能源、经济和政治格局。渗透率是评价页岩气藏商业开采可行性的重要参数之一,由于页岩的致密性,页岩气的流动机理不同于常规气藏,因此,页岩储层渗透率测试和页岩气流动模型已成为当前国际研究的热点课题之一。在对页岩气开采技术简单介绍的基础上,综述了页岩储层渗透率测试的试验和理论研究现状,分析了气体吸附对页岩渗透率的影响。阐述了页岩气流动模型的最新进展,分析了双重孔隙模型描述气体迁移的准确性,提出了描述均匀储层中页岩气解吸-扩散-渗流多级运移模型。评述了页岩气开采的温室效应和对地下水的影响,并简单介绍了适合页岩气开采的新技术即无水压裂开采技术,即采用CO2对页岩气藏分段压裂,同时将CO2埋存于废弃井中。最后,对页岩储层渗透率测试和页岩气流动模型研究的新发展以及无水压裂技术进行了展望。 相似文献
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水力压裂技术是油气藏尤其是页岩气开发中的核心技术,利用数值模拟方法进行压裂优化和产能预测又是水力压裂成功的关键。本文首先介绍了水力压裂技术的发展历程。然后从计算模型(二维模型、拟三维模型和全三维模型)和数值模拟方法(基于连续介质和基于非连续介质)两方面对油气藏开发领域的水力压裂计算模拟技术进行较全面的总结。最后,从以下3个方面指出现今研究的不足并提出了进一步的研究建议:(1)全三维模型的完善-全三维模型应当与真实的工程参数和监测数据结合,用于校正模型本身,而校正后的全三维模型又可预测和优化新的现场水力压裂作业; (2)数值模拟方法的选用-已有的水力压裂数值模拟方法种类繁多,需要针对各种方法的适用范围、计算效率和模拟效果等,进行全面的比较和优化; (3)页岩储层中天然裂缝网络的数值模拟-天然裂隙网络加剧了页岩储层力学性质的各向异性,同时水力裂缝沟通天然裂缝活化扩展是有利于储层的增渗增产,对压裂缝网的形态、尺寸和连通率等起着至关重要的作用。因此,数值计算过程中综合考虑页岩储层中天然裂缝与水力裂缝的相互作用,将是未来水力压裂模拟的热点。 相似文献
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Hydraulic fracturing is an important technique used for developing shale gas reservoirs. Compared with multistage consecutive fracturing, multistage alternative fracturing is a more challenging technique due to the current limitations of downhole tools. This paper simulates multistage fracturing and compares the fracture geometries and fluid distributions of consecutive and alternative fracturing. It is found that simultaneous propagation of multiple fractures results in their unequal stimulations. Some perforations do not contribute to well production because their fractures are restrained. Alternative fracturing tends to create more uniform length fractures and thus achieves a greater stimulated reservoir volume than that of consecutive fracturing. 相似文献