厄瓜多尔非常规钙质页岩柱压裂增产效果

A. Izurieta, Alexander Albuja, A. Brito, W. Xuepeng, Feng Yuliang, I. Solis, Karina Proaño, Nelson Ramirez
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引用次数: 0

摘要

在一个以成熟资产闻名的盆地中,低渗透含油饱和油藏的经济开采一直是一个挑战。M2石灰石是一个新的挑战。为了进行表征,有必要使用基于页岩储层的方法,使用专有的评估方法整合来自不同测井资料的信息。采用柱压裂技术,在柱间创造稳定的空隙,从而在地质力学条件良好的候选地层中形成无限导电性通道,从而实现了低渗透钙质页岩的经济生产和探明储量。通过结合岩石力学特性和矿物学、碳/氧测井以及钻屑的x射线衍射(XRD),研究了地质力学、矿物学和饱和层段。一旦选择了M2灰岩层段中的远景层,就可以使用三维网格模拟器设计常规压裂处理方案。根据地质力学和常规压裂应用的结果,对候选井进行了柱状压裂评估。然后设计了一个泵送计划,包括柱体积、隔离器和分段尾柱。将裂缝模拟器的模拟结果加载到数值油藏模拟器中,并对不同的开发方案进行了评估。M2灰岩在火山侵入区附近显示出生产潜力,或者在钻井过程中通过岩屑和高含气量读数观察到的油样显示出潜在的碳氢化合物。该项目使用的数据是在常规油藏开发过程中收集的,但从未使用非常规油藏方法进行过评估。XRD分析和酸溶解度测试证实,储层不含高碳酸盐含量,也不含酸溶解度。诊断性压裂注入测试(DFIT)和minifrac分析有助于确定压裂尺寸和压裂技术。这项工作的结果有助于更好地了解储层;为了提高这类项目的投资回报,需要制定开发计划。地质力学评价是矿柱压裂应用和设计的基础。之所以选择这种压裂技术,是因为它比常规压裂少使用43%的支撑剂,降低了筛出的风险,并且比常规压裂提供了更高的产能。这是厄瓜多尔油藏首次采用柱状压裂技术。生产结果证实了32°API油的储量,并完成了厄瓜多尔最大的压裂作业。根据该井的结果,提出了不同的开发方案。介绍了一套完整的工作流程,利用专有的地质力学候选选择标准来描述、设计水力压裂作业,并开发非常规钙质页岩。可获得的数据与常规油藏相同,而评价技术和裂缝设计则是针对这种类型的油藏进行定制的,以实现经济生产。
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Pillar Fracturing Production Enhancement Results for an Unconventional Calcareous Shale in Ecuador
Economical production from low-permeability oil-saturated reservoirs has always been a challenge in a basin known for its mature assets. M2 limestone is a new challenge. To characterize, it was necessary to use the methodology based on shale plays, integrating information from different logs using a proprietary evaluation method. Applying pillar fracturing, creating stable voids between pillars, and hence, infinite-conductivity channels in geomechanically competent candidates resulted in economical production and proved reserves from a low-permeability calcareous shale. Geomechanics, mineralogy, and saturated intervals were addressed by using a combination of rock mechanical properties and mineralogy, carbon/oxygen logs, and X-ray diffraction (XRD) on drilling cuttings. Once the prospective zones in the M2 limestone intervals were selected, a conventional fracturing treatment was designed using a 3-D gridded simulator. The candidate well was evaluated for pillar fracturing by using results from geomechanics and the conventional fracture application. A pumping schedule that included pillar volume, spacer, and tail in stages was then designed. Results from the fracture simulator were loaded in a numerical reservoir simulator, and different development scenarios were evaluated. M2 limestone has shown production potential near areas where volcanic intrusion is present, or indicated hydrocarbon potential by oil shows observed on cuttings and high-gas readings during drilling. The data used for this project was collected during conventional reservoir development but had never been evaluated using an unconventional reservoir approach. XRD analysis and acid solubility tests confirmed that the reservoir does not contain a high-carbonate content nor acid solubility. Diagnostic Fracture Injection Test (DFIT) and minifrac analysis helped to define the size and fracturing technique to be used. Results from this work provided a better understanding of the reservoir; a development plan is needed to improve the investment return for this type of project. Geomechanical evaluation is fundamental to the application and design of pillar fracturing. This fracturing technique was selected because it used 43% less proppant than a conventional job, reduced risk of screen out, and provided higher productivity over a conventional fracturing job. This is the first time that pillar fracturing has been applied in this Ecuadorian reservoir. The production outcome proved reserves of 32°API oil and resulted in the largest fracturing job in Ecuador. Different development scenarios are proposed based on the results from this well. A complete workflow to characterize, design a hydraulic fracture job using proprietary geomechanical candidate selection criteria, and develop an unconventional calcareous shale is presented. The available data are the same as in a conventional reservoir, whereas the evaluation technique, as well as fracture design, is customized to this type of reservoir to attain economical production.
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