整合压裂后频谱噪声测井、温度建模和生产测井,诊断出产水,解决裸眼多级压裂的不确定性

A. Asif, Jon E. Hansen, AbdulMuqtadir Khan, M. Sheshtawy
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引用次数: 0

摘要

致密砂岩气藏的油气开发正在彻底改变当前的油气市场。超低至低渗透储层最有效的开发策略是多级压裂。采用桥塞射孔法完成的胶结套管或尾管几乎可以完全控制裂缝起裂深度。在配备压裂滑套和封隔器的无胶结完井中,由于完井后的能见度不足,并且封隔器之间的裸眼间隔很长,因此很难清楚地确定裂缝起裂点。此外,每次治疗中开始的骨折数量是不确定的。在高温高压致密气段中,通过五个压裂段完成了3190英尺的裸眼段。所有压裂段都成功增产,进行了裂缝清理返排,并磨铣了进气口。然后进行了高分辨率光谱噪声测井(SNL)和数值温度模拟。使用一套常规多相传感器完成了额外的测井。还执行了多阵列生产日志套件。最后,在综合诊断的基础上,使用高温隔离塞对底部4级进行隔离。SNL有助于分析尾管后面隔离封隔器的完整性。观察到多道裂缝的开始,在单段段内发现了多达9条裂缝。裸眼井段长度与裂缝数量之间存在相关性。在走滑断裂体制下,建立了横向断裂梯度与起裂深度的相关性。裂缝是在FG计算值较低的深度开始的,这证实了常规的认识,增加了裸眼测井数据对岩石性质计算的信心。SNL和温度建模有助于定量评估尾管后的流动裂缝和分级生产。多阵列生产测井结果量化了水平尾管内部的流动和流动剖面。两种技术的生产流程评价结果一致。在一次作业中整合了多个数据集,提供了对完井和生产的全面了解。高产水层被隔离。隔离后的下游分离器安装显示含水率降低了95%。将压裂后测井数据与裸眼测井数据和压裂数据相结合是独一无二的。高分辨率SNL为裂缝起裂点和完井封隔器的完整性提供了有价值的信息。压裂效率,与所放置的支撑剂相比,为未来类似的完井提供了优化的处理方法。
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Integration of Post-Fracturing Spectral Noise Log, Temperature Modeling, and Production Log Diagnoses Water Production and Resolves Uncertainties in Openhole Multistage Fracturing
Hydrocarbon development from tight gas sandstone reservoirs is revolutionizing the current oil and gas market. The most effective development strategy for ultralow- to low-permeability reservoirs involves multistage fracturing. A cemented casing or liner completed with the plug-and-perf method allows nearly full control of fracture initiation depth. In uncemented completions equipped with fracturing sleeves and packers, clearly identifying the fracture initiation points is difficult due to lack of visibility behind the completion and long openhole intervals between packers. Also, the number of fractures initiated in each treatment is uncertain. A lateral was completed with access to 3,190 ft of openhole section across five fracturing stages in a high-temperature and high-pressure tight-gas interval. All stages were successfully stimulated, fracture cleanup flowback was conducted, and entry ports were milled out. A high-definition spectral noise log (SNL) was then conducted along with numerical temperature modeling. Additional logging was done with a set of conventional multiphase sensors. A multi-array production log suite was also performed. Finally, the bottom four stages were isolated with a high-temperature isolation plug based on the integrated diagnosis. The SNL helped to analyze the isolation packer integrity behind the liner. The initiation of multiple fractures was observed, with as many as nine fractures seen in a single-stage interval. A correlation was found between the openhole interval length and the number of fractures. A correlation of fracture gradient (FG) and initiation depths was made for the lateral in a strike-slip fault regime. The fractures were initiated at depths with low calculated FG, confirming the conventional understanding and increasing confidence in rock property calculations from openhole log data. SNL and temperature modeling aided quantitative assessment of flowing fractures and stagewise production behind the liner. Multi-array production logging results quantified the flow and flow profile inside the horizontal liner. The production flow assessments from both techniques were in good agreement. The integration of several datasets was conducted in a single run, which provided a comprehensive understanding of well completion and production. High water producing intervals were isolated. Downstream separator setup after the isolation showed a water cut reduction by 95%. The integration of the post-fracturing logs with the openhole logs and fracturing data is unique. The high-resolution SNL provided valuable insight on fracture initiation points and the integrity of completion packers. Fracturing efficiency, compared to the proppant placed, provides treatment optimization for similar completions in the future.
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