CO2 -Foam Fracturing With Methanol Successfully Stimulates Canyon Gas Sand

Spe Production Engineering Pub Date : 1992-05-01 DOI:10.2118/20119-PA

J. Craft, S. Waddell, D. G. Mcfatridge

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引用次数: 7

Abstract

Successful stimulation using CO{sub 2} foam with methanol has revived the economically marginal Canyon gas-sand reservoir of Sterling County, TX. Field experience in the Conger (Penn) field demonstrated that CO{sub 2} foam (1) lessened the water required in the fluid and (2) provided a gas assist to help remove water and lower interfacial tension (IFT). The low pH of the fluid, combined with additional clay stabilization, iron control, and enhanced water recovery additives, proved helpful in initial well response and subsequent performances. Since the CO{sub 2}-foam fracture treatments were administered, production from Sterling County Canyon gas sands met or surpassed initial rates, even though formation pressure in the field declined 33.2%. Stimulation is essential for commercial production in these sands. However, water blockage, caused by stimulation, was encountered in designing an effective completion technique for a tight formation with reduced bottomhole pressure (HBP). Production in tight, low-pressure gas wells can be completely blocked if formation pressure does not exceed the capillary pressure increase caused by injected fracture fluid. Original stimulation techniques consisted mainly of gelled-water fracture treatments containing 65,000 lbm of 20/40-mesh sand with a maximum concentration of 2 1/2 lbm/gal. In many cases, several weeks of swabbing were requiredmore » to ensure continuous flow. After the fracture treatments, about 40% water recovery was realized throughout the field. This paper discusses CO{sub 2}-foam fracture treatments and job design and presents case histories from several Conger (Penn) field CO{sub 2}-foam fracture treatments.« less

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甲醇- CO2泡沫压裂成功开采峡谷气砂

使用CO{sub 2}泡沫与甲醇的成功增产措施使德克萨斯州Sterling County的Canyon气砂储层恢复了经济效益。在Conger (Penn)油田的现场经验表明，CO{sub 2}泡沫(1)减少了流体中所需的水，(2)提供了气体辅助，有助于去除水并降低界面张力(IFT)。事实证明，低pH流体，再加上额外的粘土稳定剂、铁控制剂和提高采收率的添加剂，有助于提高初始井响应和随后的性能。由于实施了CO{sub 2}泡沫压裂，尽管地层压力下降了33.2%，但Sterling County Canyon气砂的产量达到或超过了初始产量。增产对于这些砂岩的商业生产至关重要。然而，在为降低井底压力(HBP)的致密地层设计有效完井技术时，遇到了由增产措施引起的水堵塞问题。如果地层压力不超过注入压裂液引起的毛管压力增加，致密、低压气井的生产可能会完全堵塞。最初的增产技术主要是胶凝水压裂，其中含有65,000 lbm的20/40目砂，最大浓度为2.5 lbm/gal。在许多情况下，需要数周的抽汲以确保连续流动。经过压裂处理后，整个油田的采收率约为40%。本文讨论了CO{sub 2}泡沫压裂处理和作业设计，并介绍了几个较长(Penn)油田CO{sub 2}泡沫压裂处理的案例。«少

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Spe Production Engineering

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