Simulation of Scale Inhibitor Squeeze Treatments in a Polymer Flooded Reservoir

A. Beteta, O. Vazquez, M. A. Al Kalbani, Faith Eze
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Abstract

This study aims to demonstrate the changes to scale inhibitor squeeze lifetimes in a polymer flooded reservoir versus a water flooded reservoir. A squeeze campaign was designed for the base water flood system, then injection was switched to polymer flooding at early and late field life. The squeeze design strategy was adapted to maintain full scale protection under the new system. During the field life, the production of water is a constant challenge. Both in terms of water handling, but also the associated risk of mineral scale deposition. Squeeze treatment is a common technique, where a scale inhibitor is injected to prevent the formation of scale. The squeeze lifetime is dictated by the adsorption/desorption properties of the inhibitor chemical, along with the water rate at the production well. The impact on the adsorption properties and changes to water rate on squeeze lifetime during polymer flooding are studied using reservoir simulation. A two-dimensional 5-spot model was used in this study, considered a reasonable representation of a field scenario, where it was observed that when applying polymer (HPAM) flooding, with either a constant viscosity or with polymer degradation, the number of squeeze treatments was significantly reduced as compared to the water flood case. This is due to the significant delay in water production induced by the polymer flood. When the polymer flood was initiated later in field life, 0.5PV (reservoir pore volumes) of water injection, water cut approximately 70%, the number of squeeze treatments required was still lower than the water flood base case. However, it was also observed that in all cases, at later stages of field life the positive impacts of polymer flooding on squeeze lifetime begin to diminish, due in part to the high viscosity fluid now present in the production near-wellbore region. This study represents the first coupled reservoir simulation/squeeze treatment design for a polymer flooded reservoir. It has been demonstrated that in over the course of a field lifetime, polymer flooding will in fact reduce the number of squeeze treatments required even with a potential reduction in inhibitor adsorption. This highlights an opportunity for further optimization and a key benefit of polymer flooding in terms of scale management, aside from the enhanced oil recovery.
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聚合物驱油藏阻垢剂挤压处理模拟
本研究旨在证明聚合物驱油藏与水驱油藏中阻垢剂挤压寿命的变化。为基础水驱系统设计了一个挤压方案,然后在油田开发的早期和后期将注入转换为聚合物驱。采用挤压设计策略可以在新系统下保持全尺寸保护。在油田生产过程中,产水是一个持续的挑战。无论是在水处理方面,还是相关的矿物水垢沉积风险。挤压处理是一种常用的技术,即注入阻垢剂以防止结垢。挤压寿命取决于化学抑制剂的吸附/解吸特性,以及生产井的产水量。采用油藏模拟的方法,研究了聚合物驱过程中吸附特性和含水率变化对挤压寿命的影响。本研究使用了二维5点模型,该模型被认为是现场场景的合理表示,其中观察到,当使用聚合物(HPAM)驱油时,无论是粘度恒定还是聚合物降解,与水驱相比,挤压处理的次数都显著减少。这是由于聚合物驱引起的产水延迟造成的。当油田后期开始聚合物驱时,注水0.5PV(油藏孔隙体积),含水率约为70%,所需的挤压处理次数仍低于水驱基准情况。然而,也观察到,在所有情况下,在油田寿命的后期,聚合物驱对挤压寿命的积极影响开始减弱,部分原因是目前生产近井区域存在高粘度流体。该研究代表了首次针对聚合物驱油藏的油藏模拟/挤压耦合处理设计。已经证明,在油田的整个生命周期中,聚合物驱实际上可以减少所需的挤压处理次数,即使可能减少抑制剂的吸附。这凸显了进一步优化的机会,除了提高采收率外,聚合物驱在规模管理方面的一个关键优势。
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