碳酸盐岩储层高温高盐条件下SP驱最佳配方设计

M. Ahmed, A. Sultan, A. AlSofi, H. Al-Hashim
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摘要

化学提高采收率(CEOR)工艺已被用于在初级采油阶段之后提高油藏的采收率。在恶劣的储层条件下(高盐度和高温),许多CEOR方法无法达到其目标。这就提出了一个挑战,即设计出能够承受这些恶劣条件的最佳配方,从而以尽可能低的成本获得最大的碳氢化合物采收率。研究了热增粘聚合物(TVP)和丙烯酰胺叔丁基磺酸酯(ATBS)/丙烯酰胺(AM)共聚物对碳酸盐中残油的转移效果。表面活性剂为羧甜菜碱基两性表面活性剂SS-880和SS-885。这些候选材料的选择是基于KFUPM之前的工作进行的密集评估过程,包括流体流变学、长期热稳定性、界面张力(IFT)、吸附和微流体研究。此外,接触角测量在高压和高温下使用捕获滴分析仪。通过岩心驱替实验,研究了段塞段尺寸和注入顺序优化。研究了SW-SP-SW、SW-P-S-SW、SW-S-SW-P-SW和SW-P-SW-S-SW等不同的注入方案,以确定最佳注入方案。岩心驱油实验在90℃下进行。本研究中使用的海水(SW)是阿拉伯海湾的海水,盐度为57,000 ppm。结果表明,表面活性剂-聚合物组合和SW-SP-SW注入方案的采收率最佳。最佳化学组合为羧甜菜碱(0.05% wt.)和ATBS/AM (0.25% wt.)。还观察到,采收率随着段塞的大小成比例地增加。这表明化学注入顺序和段塞尺寸对最终采收率有显著影响。这被认为是由于化学物质之间有利的协同作用。岩心驱油实验证实了优化CEOR工艺设计的重要性,考虑了化学物质类型、浓度、段塞尺寸以及海水(SW)、表面活性剂(5)和聚合物(P)不同组合的驱油顺序。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Designing an Optimum Recipe for SP Flooding in Harsh Carbonate Reservoir Conditions High Temperature High Salinity
Chemical-Enhanced-Oil-Recovery (CEOR) processes have been used for increasing oil recoveries from oil reservoirs following the primary recovery phase. At harsh reservoir conditions (high salinity and high temperature), many CEOR methods fail to achieve their objectives. This raises the challenge to design optimum recipes that tolerate these harsh conditions and hence attain maximum hydrocarbon recovery at the minimum possible cost. This paper evaluates the effectiveness of a Thermo-Viscosifying Polymer (TVP) and an Acrylamido Tertiary Butyl Sulfonate (ATBS)/acrylamide (AM) copolymer in mobilizing residual oil from carbonate. The surfactants are carboxybetaine based amphoteric surfactants SS-880 and SS-885. These candidates were selected based on an intensive evaluation process carried out in previous works at KFUPM, which includes fluid rheology, long-term thermal stability, interfacial tension (IFT), adsorption and microfluidic studies. Furthermore, contact angles were measured at high pressure and high temperature using a captive drop analyzer. Slug size and injection sequence optimization were also investigated through core-flooding experiments. Different injection scenarios including SW-SP-SW, SW-P-S-SW, SW-S-SW-P-SW and SW-P-SW-S-SW were also investigated to identify the best injection scenario. The coreflooding experiments were conducted at 90°C. The seawater (SW) used in this study is Arabian Gulf seawater having salinity of 57,000 ppm. The results showed that surfactant-polymer combination and SW-SP-SW injection scenario were the best in terms of oil recovery. The optimum chemical combination was found to be carboxybetaine (0.05% wt.) and ATBS/AM (0.25% wt.). It was also observed that the recoveries were increasing proportionally to the slug-size. This indicates that the chemical injection sequence and slug-size have a significant impact on ultimate oil recovery. This is believed to be due to the advantageous synergies between the chemicals. The core-flooding experiments confirmed the importance of optimizing the design of CEOR processes taking into consideration the type of chemicals, concentrations, slug sizes, and flooding sequence of the different combination of seawater (SW), surfactant (5) and polymer (P).
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