Experimental Evaluation of a New Nonaromatic Nonionic Surfactant for Deep Carbonate Stimulation

IF 1.3 4区 工程技术 Q3 ENGINEERING, PETROLEUM
Khatere Sokhanvarian, C. Stanciu, Jorge Fernandez, A. Ibrahim, H. Kumar, H. Nasr-El-Din
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引用次数: 2

Abstract

Matrix acidizing improves productivity in oil and gas wells. Hydrochloric acid (HCl), because of its many advantages such as its effectiveness, availability, and low cost, has been a typical first-choice fluid for acidizing operations. However, HCl in high-pressure/high-temperature (HP/HT) wells can be problematic because of its high reactivity, resulting in face dissolution, high corrosion rates, and high corrosion inhibition costs. Several alternatives to HCl have been tested; among them, emulsified acid is a favorable choice because of its inherent low corrosion rate, deeper penetration into the reservoir, fewer asphaltene/sludge problems, and better acid distribution due to its higher viscosity. The success of the new system is dependent upon the stability of the emulsion, especially at high temperatures. The emulsified acid must be stable until it is properly placed, and it must also be compatible with other additives in an acidizing package. This study develops a stable, emulsified acid system at 300°F using aliphatic nonionic surfactants. This paper introduces a new nonaromatic, nonionic surfactant to form an emulsified acid for HP/HT wells. The type and quality of the emulsified acid were assessed through conductivity measurements and drop tests. The thermal stability of the system was monitored as a function of time through the use of pressure tubes and a preheated oil bath at 300°F. A LUMisizer® (LUM GmbH, Berlin, Germany) and Turbiscan® (Formulaction, S. A., L’Union, France) were used to determine the stability and the average droplet size of the emulsion, respectively. The viscosity of the emulsified acid was measured at different temperatures up to 300°F as a function of shear rate (1 to 1,000 s−1). The microscopy study was used to examine the shape and the distribution of acid droplets in diesel. Coreflood studies at low and high flow rates were conducted to determine the performance of the newly developed stable emulsified acid in creating wormholes in carbonate rocks. Inductively coupled plasma and computed tomography (CT) scans were used to determine the dissolved cations and wormhole propagation, respectively. Superior stimulation results with a low pore volume of acid to breakthrough (PVBT) were achieved at 300°F with the newly developed emulsified acid system. The wormhole propagation was narrow and dominant compared to branched wormholes resulting from conventional emulsified acid systems. Results indicate that a nonionic surfactant with optimal chemistry, such as a suitable hydrophobe chain length and structure, can form a stable emulsified acid. In this study we introduce a new and effective aliphatic nonionic surfactant to create a stable emulsified acid system for matrix acidizing at HP/HT conditions, leading to a deeper penetration of acid with low pore volume to breakthrough. The successful core flood studies in the laboratory using carbonate cores suggest that the new emulsified acid system may efficiently stimulate HP/HT carbonate reservoirs.
一种新型非芳香族非离子表面活性剂用于深层碳酸盐岩增产的实验评价
基质酸化可提高油气井的产能。盐酸(HCl)由于其有效性、可用性和低成本等优点,一直是酸化作业的首选流体。然而,高压/高温(HP/HT)井中的HCl可能存在问题,因为其反应性高,导致表面溶解、高腐蚀速率和高缓蚀成本。已经测试了几种盐酸的替代品;其中,乳化酸是一种有利的选择,因为其固有的低腐蚀速率、更深的储层渗透、更少的沥青质/污泥问题以及由于其较高的粘度而更好的酸分布。新系统的成功取决于乳液的稳定性,尤其是在高温下。乳化酸在正确放置之前必须是稳定的,并且还必须与酸化包中的其他添加剂相容。本研究使用脂肪族非离子表面活性剂在300°F下开发了一种稳定的乳化酸体系。本文介绍了一种新型的非芳香、非离子表面活性剂,用于形成HP/HT井用乳化酸。乳化酸的类型和质量通过电导率测量和跌落试验进行评估。通过使用压力管和在300°F下预热的油浴,监测系统的热稳定性作为时间的函数。使用LUMisizer®(德国柏林LUM GmbH公司)和Turbiscan®(法国L’Union公司Formula ction公司)分别测定乳液的稳定性和平均液滴尺寸。乳化酸的粘度是在高达300°F的不同温度下测量的,作为剪切速率(1至1000 s−1)的函数。用显微镜研究了柴油中酸液滴的形状和分布。在低流速和高流速下进行岩心驱替研究,以确定新开发的稳定乳化酸在碳酸盐岩中形成虫洞的性能。分别使用电感耦合等离子体和计算机断层扫描(CT)来确定溶解阳离子和虫洞传播。使用新开发的乳化酸系统,在300°F下获得了低孔体积酸穿透(PVBT)的优异增产效果。与传统乳化酸系统产生的分支虫洞相比,虫洞的传播是窄的并且占主导地位。结果表明,非离子表面活性剂只要具有合适的疏水链长度和结构,就可以形成稳定的乳化酸。在本研究中,我们引入了一种新的有效的脂族非离子表面活性剂,以创建一种稳定的乳化酸体系,用于HP/HT条件下的基质酸化,从而使低孔体积的酸渗透更深。在实验室中使用碳酸盐岩心进行的成功岩心驱替研究表明,新的乳化酸系统可以有效地刺激高压/高温碳酸盐岩储层。
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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来源期刊
SPE Drilling & Completion
SPE Drilling & Completion 工程技术-工程:石油
CiteScore
4.20
自引率
7.10%
发文量
29
审稿时长
6-12 weeks
期刊介绍: Covers horizontal and directional drilling, drilling fluids, bit technology, sand control, perforating, cementing, well control, completions and drilling operations.
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