Complex Stimulation Approach to Low-Temperature Carbonate Formation Revitalizes Bahrain Brownfield

Ahmed Aljanahi, Sayed Abdelrady, Hassan Almannai, Feras Altawash, E.A.E. Ali, A. Yudin, Z. Al-jalal, Metin Guleryuzlu
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Abstract

Carbonate formations often require stimulation treatments to be developed economically. Sometimes, proppant fracturing yields better results than acid stimulation. Carbonates are seldom stimulated with large-mesh-size proppants due to admittance issues caused by fissures and high Young’s modulus and narrow fracture width. The Magwa formation of Bahrain’s Awali brownfield is a rare case in which large treatments using 12/20-mesh proppant were successful after the more than 50 years of field development. To achieve success, a complex approach was required during preparation and execution of the hydraulic fracturing campaign. During the first phase, the main challenges that restricted achieving full production potential in previous stimulation attempts (both acid and proppant fracturing) were identified. Fines migration and shale instability were addressed during advanced core testing. Tests for embedment were conducted, and a full suite of logs was obtained to improve geomechanical modeling. In addition, a target was set to maximize fracture propped length to address the need for maximum reservoir contact in the tight Magwa reservoir and to maximize fracture width and conductivity. Sufficient fracture width in the shallow oil formation was required to withstand embedment. Sufficient conductivity was required to clean out the fracture under low-temperature conditions (124°F) and to minimize drawdown along the fracture considering the relatively low energy of the formation (pore pressure less than 1,000 psi). Understanding the fracture dimensions was critical to optimize the design. Independent measurement using high-resolution temperature logging and advanced sonic anisotropy measurements after fracturing helped to quantify fracture height. As a result of the applied comprehensive workflow, 18 wells were successfully stimulated, including three horizontal wellbores with multistage fracturing - achieving effective fracture half-lengths of 450-to 500-ft. Oil production from the wells exceeded expectations and more than doubled the results of all the previous attempts. Production decline rates were also less pronounced due to achieved fracture length and the ability to produce more reservoir compartments. The increase in oil recovery is due to the more uniform drainage systems enabled by the conductive fractures. The application of new and advanced techniques taken from several disciplines enabled successful propped fracture stimulation of a fractured carbonate formation. Extensive laboratory research and independent geometry measurements yielded significant fracture optimization and resulted in a step-change in well productivity. The techniques and lessons learned will be of benefit to engineers dealing with shallow carbonate reservoirs around the world.
巴林棕地低温碳酸盐岩地层复合增产改造
为了经济地开发碳酸盐岩地层,通常需要进行增产处理。有时,支撑剂压裂比酸增产效果更好。由于裂缝、高杨氏模量和窄裂缝宽度造成的导纳问题,碳酸盐岩很少使用大孔径支撑剂进行压裂。经过50多年的油田开发,巴林Awali棕地的Magwa地层是一个罕见的使用12/20目支撑剂进行大规模处理并取得成功的案例。为了取得成功,在水力压裂作业的准备和执行过程中,需要采用复杂的方法。在第一阶段,确定了在之前的增产尝试(酸压裂和支撑剂压裂)中限制充分发挥生产潜力的主要挑战。在高级岩心测试中解决了颗粒迁移和页岩不稳定性问题。进行了埋置测试,并获得了一整套测井曲线,以改进地质力学建模。此外,为了满足Magwa致密储层对最大储层接触的需求,并最大化裂缝宽度和导流能力,研究人员还设定了最大裂缝支撑长度的目标。浅层油层需要有足够的裂缝宽度来承受嵌入。考虑到地层能量相对较低(孔隙压力小于1000 psi),需要足够的导流能力来在低温条件下(124°F)清理裂缝,并尽量减少裂缝的压降。了解裂缝尺寸对于优化设计至关重要。压裂后使用高分辨率温度测井和先进的声波各向异性测量进行独立测量,有助于量化裂缝高度。采用综合作业流程后,成功改造了18口井,包括3口多级压裂水平井,有效裂缝半长达到450- 500英尺。这些井的产油量超出了预期,是之前所有尝试的两倍多。由于实现了裂缝长度和生产更多储层的能力,产量递减率也不那么明显。采收率的提高是由于导电裂缝使排水系统更加均匀。采用来自多个学科的新技术和先进技术,成功地对裂缝性碳酸盐地层进行了支撑裂缝增产。大量的实验室研究和独立的几何测量结果显著优化了裂缝,并导致了油井产能的阶梯式变化。这些技术和经验教训将对世界各地处理浅层碳酸盐岩储层的工程师有益。
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