非常规油层注气表面活性剂的筛选

A. Scerbacova, A. Ivanova, E. Mukhina, A. Ushakova, M. Bondar, A. Cheremisin
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引用次数: 0

摘要

常规石油储量的逐渐枯竭和对碳氢化合物原料需求的不断增长,导致页岩矿床的开发成为必要,页岩矿床具有储层温度高、渗透率极低的特点。目前提出的非常规油藏开发方法之一是以吞吐方式注入表面活性剂。与表面活性剂驱不同,表面活性剂驱的主要效果是通过驱替机制实现的,而鼓泡法是基于毛细吸胀的。表面活性剂溶液降低油水界面张力,使岩石表面润湿性变为水润湿性,导致吸附烃的解吸,增加对水的相对渗透率,从而提高产油量。选择了一些市售的阴离子和非离子表面活性剂进行实验室研究。与储层流体的相容性和热稳定性测试了14天。对于稳定组分,采用自旋滴法测量了与油交界面的界面张力。特别关注了储层的初始润湿性以及所选表面活性剂将其转变为水润湿性的能力的研究。宏观层面的润湿性采用“无孔”滴法测定。筛选的结果是,选择了两种表面活性剂组合物,它们能够改变岩石表面的润湿性,使其成为严格的水润湿性,因为这是选择低渗透油藏表面活性剂组合物的关键。为了避免形成Winsor III型微乳液,从而导致地层中狭窄通道堵塞和流体流动堵塞,选择了最佳操作浓度。并对静态吸附在碎石上的数值进行了评价。在鼓泡过滤实验中研究了最有效的成分,并取得了积极的结果。纳米颗粒也被筛选为表面活性剂组合物的潜在组分。研究发现,纳米颗粒在表面活性剂溶液中形成稳定的分散体,提高了其将润湿性转变为水湿态的能力。实验结果表明,吞吐技术适用于低渗透非常规油藏。由于表面活性剂用量少、效果好、井响应时间短,因此采用喷吹式注入表面活性剂溶液是较好的选择。该技术在工业规模上的成功实施可以提高页岩油的生产效率。
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Screening of Surfactants for Huff-N-Puff Injection into Unconventional Reservoirs
The gradual depletion of conventional oil reserves and the growing demand for hydrocarbon feedstock have led to shale deposits development necessity, which are characterized by high reservoir temperatures and very low permeabilites. One of the methods proposed for unconventional reservoirs development is surfactant injection in huff-n-puff mode. Unlike surfactant flooding, where the main effect is achieved through the displacement mechanism, the huff-n-puff method is based on capillary imbibition. Surfactant solutions decrease oil-water interfacial tension, change rock surface wettability to water-wet, lead to desorption of adsorbed hydrocarbons and increase relative permeability to water, thus increasing oil production. A number of commercially available anionic and nonionic surfactants were selected for laboratory investigation. Compatibility with reservoir fluids and thermal stability were tested for 14 days. For the stable compositions, the interfacial tension at the boundary with oil was measured with the spinning drop method. Special attention was paid to the study of initial reservoir wettability and the ability of the selected surfactants to shift it towards water-wet. Wettability at the macro level was determined by the "sessile" drop method. As a result of the screening, two surfactant compositions capable to alter the wettability of the rock surface to strictly water-wet were selected, as this is the key point when selecting surfactant compositions for low-permeable reservoirs. The optimum operating concentrations were selected to avoid the formation of a Winsor III microemulsion, which can lead to plugging of narrow channels and fluid flow blockage in the formation. Values of static adsorption onto crushed rock were also evaluated. The most effective composition was investigated in a huff-n-puff filtration experiment and positive results were obtained. Nanoparticles were also screened as potential components of surfactant compositions. It was found that nanoparticles forming stable dispersions in surfactant solutions improve their ability to change the wettability to a water-wet state. As a result of the laboratory work performed, it can be concluded that the huff-n-puff technology is applicable in unconventional reservoirs with very low permeabilities. The huff-n-puff mode for surfactant solutions injection is preferable due to lower surfactant consumption, targeted effect, and shortened well response time. Successful implementation of this technology on an industrial scale can improve the efficiency of shale oil production.
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