低渗透砂岩储层中活性碳水的强制浸润和润湿性改变实验研究

SPE Journal Pub Date : 2024-02-01 DOI:10.2118/219454-pa
Songyan Li, Kexin Du, Yaohui Wei, Minghe Li, Zhoujie Wang
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摘要

浸润是多孔介质中流体输送的主要机制之一。碳化水与活性水[活性-碳化水(ACW)]的结合在提高石油采收率(EOR)和碳减排过程中具有广阔的前景。迄今为止,ACW 浸入诱导碳氢化合物采收的规律尚不明确。本文首先通过自发浸润实验选择了最佳表面活性剂浓度,并在此基础上溶解二氧化碳形成 ACW。比较了地层水(FW)、表面活性剂溶液 DX-1 和 ACW 在不同压力下的浸润效果。通过测量接触角,研究了三种浸润液在浸润过程中岩石润湿性的变化。研究了断裂对 ACW 浸润的影响。最后,计算了改进的 NB-1,以阐明 EOR 的强制浸润机理。结果表明,0.1% DX-1 产生的浸润效果最佳。压力与浸润恢复呈正相关。由于 ACW 的润湿性逆转能力优于 FW 和 DX-1,因此 ACW 可以明显改善浸润效果。ACW 中的二氧化碳可以通过向岩石小孔隙的扩散而滞留在地层中。三种浸润液的接触角随着压力的增加而减小。在 ACW 中,岩石与油滴的接触角低至 38.13°。此外,断裂增加了基质与流体之间的接触面积,从而改善了浸润效果。NB-1 的变化表明,FW 的浸润是重力驱动的共流浸润。DX-1 和 ACW 的浸润是由毛细力和重力驱动的逆流浸润。上述结果证明了 ACW 在低渗透储层开发和减碳方面的可行性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Experimental Study on Forced Imbibition and Wettability Alteration of Active Carbonated Water in Low-Permeability Sandstone Reservoir
Imbibition is one of the main mechanisms for fluid transport in porous media. A combination of carbonated water and active water [active-carbonated water (ACW)] has great prospects in enhanced oil recovery (EOR) and carbon reduction processes. To date, the law of hydrocarbon recovery induced by ACW imbibition is not clear. In this paper, the optimal surfactant concentration was first selected through a spontaneous imbibition experiment, and on this basis, CO2 was dissolved to form ACW. The imbibition effects of formation water (FW), surfactant solution DX-1, and ACW under different pressures were compared. The changes in rock wettability in the three imbibition solutions during imbibition were studied by measuring the contact angle. The effect of fracture on ACW imbibition was studied. Finally, the improved NB−1 was calculated to elucidate the mechanism of forced imbibition for EOR. The results show that 0.1% DX-1 produces the optimal imbibition effect. Pressure is positively correlated with imbibition recovery. ACW can significantly improve the imbibition effect due to its wettability reversal ability being better than those of FW and DX-1. CO2 in ACW can be trapped in the formation through diffusion into small rock pores. The contact angles of the three imbibition solutions decrease with increasing pressure. The contact angle between the rock and oil droplet in the ACW is as low as 38.13°. In addition, the fracture increases the contact area between the matrix and the fluid, thereby improving the imbibition effect. The alteration of NB−1 indicates that FW imbibition is gravity-driven cocurrent imbibition. DX-1 and ACW imbibitions are countercurrent imbibitions driven by capillary force and gravity. The above results demonstrate the feasibility of ACW in low-permeability reservoir development and carbon reduction.
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