高温高盐度碳酸盐岩油藏提高采收率的表面活性剂-聚合物配方

Mauricio Sotomayor, Hassan J. Alshaer, Xiongyu Chen, Krishna K. Panthi, M. Balhoff, K. Mohanty
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引用次数: 2

摘要

高温(>100℃)和高盐度(>50,000 ppm TDS)等恶劣条件会导致许多表面活性剂和聚合物降解,从而给化学提高采收率(EOR)的应用带来挑战。碳酸盐岩储层也倾向于具有更高浓度的二价阳离子和正电荷,这有助于化学降解和表面活性剂的吸附。这项工作的目的是开发一种表面活性剂-聚合物(SP)配方,该配方可以注入现有的硬盐水,在这些恶劣条件下实现超低的IFT,并产生低表面活性剂保留率。通过相行为实验确定有效的SP配方。在这些测试中,阴离子和两性离子表面活性剂、共溶剂、盐水和油的组合进行了测试。高分子量聚合物与表面活性剂结合使用,在化学驱过程中提供高粘度和稳定的驱替。确定了有效的表面活性剂配方,并进行了5次化学驱,测试了采收率。前两次注水使用的是地面印第安纳石灰岩的沙包,而其他三次注水使用的是印第安纳石灰岩岩心。砂堆实验表明,该配方具有较高的采收率,证明了配方的有效性,但由于孔隙结构复杂,岩心的采收率较低。表面活性剂的保留率在砂堆中较高,但在印第安纳石灰岩岩心中较低(0.29-0.39 mg/gm)。0.4 PV左右的表面活性剂段塞足以实现采油。预冲聚丙烯酸钠提高了采收率。
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Surfactant-Polymer Formulations for EOR in High Temperature High Salinity Carbonate Reservoirs
Harsh conditions, such as high temperature (>100 oC) and high salinity (>50,000 ppm TDS), can make the application of chemical enhanced oil recovery (EOR) challenging by causing many surfactants and polymers to degrade. Carbonate reservoirs also tend to have higher concentrations of divalent cations as well as positive surface charges that contribute to chemical degradation and surfactant adsorption. The objective of this work is to develop a surfactant-polymer (SP) formulation that can be injected with available hard brine, achieve ultra-low IFT in these harsh conditions, and yield low surfactant retention. Phase behavior experiments were performed to identify effective SP formulations. A combination of anionic and zwitterionic surfactants, cosolvents, brine, and oil was implemented in these tests. High molecular weight polymer was used in conjunction with the surfactant to provide a high viscosity and stable displacement during the chemical flood. Effective surfactant formulations were determined and five chemical floods were performed to test the oil recovery potential. The first two floods were performed using sandpacks from ground Indiana limestone while the other three floods used Indiana limestone cores. The sandpack experiments showed high oil recovery proving the effectiveness of the formulations, but the oil recovery was lower in the cores due to complex pore structure. The surfactant retention was high in the sandpacks, but it was lower in Indiana Limestone cores (0.29-0.39 mg/gm of rock). About 0.4 PV of surfactant slug was enough to achieve the oil recovery. A preflush of sodium polyacrylate improved the oil recovery.
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