Development of Surfactant-Polymer SP Processes for High Temperature and High Salinity Carbonate Reservoirs

P. Ghosh, H. Sharma, K. Mohanty
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引用次数: 12

Abstract

Oil recovery during waterflooding of carbonate reservoirs is often low due to their oil-wetness and heterogeneity. Surfactant-Polymer (SP) flooding can improve the oil recovery from these reservoirs through ultra-low interfacial tension (IFT), mobility control and wettability alteration. However, there are several challenges associated with this process in high salinity and high temperature carbonate reservoirs related to thermal stability of polymers at elevated temperatures, compatibility of surfactants with high concentration of divalent cations present in formation brines, and geochemical interactions with carbonate minerals. This paper addresses the following challenges: surfactant interaction with formation brine containing high concentration of divalent cations and thermal stability and transport of polymers in carbonate rocks at a high temperature (80 C). Surfactant phase behavior experiments were performed to identify promising surfactant candidates which showed ultralow IFT with crude oil and aqueous stability at high temperature in high salinity and high hardness brines. A systematic study was performed to understand the effect of surfactant hydrophobe length on phase behavior, oil recovery, and surfactant retention in coreflood experiments. Novel surfactants with very short hydrophobes and cosolvent-like properties were also included to further optimize the phase behavior. Surfactants of larger hydrophobe length, containing similar number of EO and PO groups, gave higher solubilization ratio (and lower IFT) and lower optimum salinity. Specialty synthetic polymers with good thermal stability and salinity tolerance (TDS > 90,000 ppm) were investigated for their transport in single-phase corefloods. Results showed successful transport of polymer, without degradation in-situ, and improvement in mobility control. SP core floods were conducted using selected formulations in Indiana limestone cores. Coreflood experiments showed small increases in oil recovery over waterflood after the injection of the chemical formulation. Succesful polymer transport was observed in SP corefloods at high temperature.
高温高盐度碳酸盐岩储层表面活性剂-聚合物SP工艺研究进展
由于碳酸盐岩油藏的油湿性和非均质性,其水驱采收率往往较低。表面活性剂-聚合物(SP)驱可以通过超低界面张力(IFT)、流动性控制和润湿性改变来提高这些油藏的采收率。然而,在高矿化度和高温碳酸盐储层中,该工艺存在一些挑战,包括聚合物在高温下的热稳定性、表面活性剂与地层盐水中高浓度二价阳离子的相容性以及与碳酸盐矿物的地球化学相互作用。本文解决了以下挑战:表面活性剂与含高浓度二价阳离子的地层盐水的相互作用,以及高温(80℃)下碳酸盐岩中聚合物的热稳定性和输运。表面活性剂的相行为实验确定了有前途的表面活性剂候选物,这些表面活性剂在高盐度和高硬度盐水中具有超低的原油IFT和高温水稳定性。在岩心驱油实验中,系统研究了表面活性剂疏水长度对相行为、采收率和表面活性剂保留率的影响。为了进一步优化相行为,还加入了具有极短疏水性和类助溶剂性质的新型表面活性剂。疏水长度较大且含有相近数量的EO和PO基团的表面活性剂具有较高的增溶比(较低的IFT)和较低的最佳盐度。研究了具有良好热稳定性和耐盐性(TDS > 90000 ppm)的特种合成聚合物在单相岩心驱油中的输运情况。结果表明,聚合物的成功运输,没有原位降解,并改善了迁移控制。在印第安纳石灰岩岩心中使用选定的配方进行SP岩心驱替。岩心驱油实验表明,在注入化学配方后,采收率比水驱有小幅提高。高温条件下,SP岩心驱油中聚合物运移成功。
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