高难度储层水力压裂候选井选择与合理设计的新方法

M. Mirza, H. Saadi, R. Trejo, R. Kayumov, A. Hilal
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摘要

位于阿曼苏丹国南部的Karim小油田(KSF)群中的Karim和Haradh油藏具有低至中等渗透率和显著非均质性的特点,含有中至重质原油。储层深度在1500至2000米之间,生产面积相对较小(每个油田约2平方公里)。在过去的10年里,尽管井距很近,但油田的开发并没有带来持续的石油产量。地质和储层研究表明,这主要是由于大多数井的非均质性、储层缺乏连续性以及存在严重的井筒损害。因此,KSF运营商发起了一项评估活动,重点是水力压裂,以刺激生产井,并改善其排水面积的扩大。该措施显著提高了油井产能,分析结果表明,在提高这些油藏的最终采收率方面具有良好的潜力。虽然水力压裂的结果令人鼓舞,但它们也表明,适当选择候选井、压裂过程中的关键参数、完井效果和井龄的影响对成功采油非常重要。因此,开发了Karim和Haradh地层水力压裂候选井的选择和排序的综合程序。该程序包括评估关键属性的影响,如裂缝高度、油水接触深度、油柱厚度和断层距离。此外,从以前的评估活动中吸取的经验教训将有助于在未来的活动中获得最佳的裂缝几何形状。候选选择工作流程包括了解以前在KSF不同地层中进行压裂作业的井的地质、地质力学和岩石物理特性。在候选选择过程中,使用明确的工作流程对20多口现有井进行了筛选,以纳入选择标准的所有相关方面。候选选择阶段的结果为Karim和Haradh地层的压裂作业选择了最佳井。通过对压裂设计的改进,得到了所选井的最佳压裂设计。
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Novel Approach for Selecting Well Candidates and Appropriate Design of Hydraulic Fracturing in Challenging Reservoirs
Karim and Haradh reservoirs within the Karim Small Fields (KSF) cluster in the South of the Sultanate of Oman are characterized by low to medium permeability and significant heterogeneity and contain medium to heavy crude oil. Reservoir depths are in the range of 1500 to 2000 m and productive areas are relatively small (around 2 km2 per field). Over the past 10 years, fields development did not result in sustained oil production despite the close well spacing. Geological and reservoir studies indicated that this is mainly due to the heterogeneity, lack of reservoir continuity and presence of significant wellbore damage in most wells. Accordingly, the KSF operator initiated an appraisal campaign focusing on hydraulic fracturing to stimulate the producing wells and improve the extension of their drainage areas. This campaign resulted in significant improvement in well productivity and the analysis of results indicates good potential for improving the ultimate oil recovery from these reservoirs. Although the results from hydraulic fracturing campaign are encouraging, they also indicate that appropriate selection of well candidates, key parameters in the fracturing procedure, effects of well completion and impact of well age are very important for successful oil gain. As a result, a comprehensive procedure for selecting and ranking candidate wells for hydraulic fracturing in Karim and Haradh formations has been developed. The procedure includes assessing the impacts of key properties such as fracture height, depth of oil-water contact, thickness of oil column, and distance to faults. In addition, the lessons learned from the previous appraisal campaign will contribute to achieving optimum fracture geometry in future campaigns. The candidate selection workflow involves understanding the geology, geomechanics, and petrophysics of the wells in which a fracturing operation was performed previously in different formations in KSF. More than 20 existing wells were screened through the candidate selection process using a clear workflow to incorporate all the relevant aspects of the selection criteria. The outcome of the candidate selection phase led to selection of the best wells for fracturing operations in the Karim and Haradh formations. The improvements on the fracturing design have been followed to obtain the optimum fracturing design for the selected wells.
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