Development and evaluation of organic/metal ion double crosslinking polymer gel for anti-CO2 gas channeling in high temperature and low permeability reservoirs

聚合物 磁导率 化学工程 材料科学 金属 离子 化学 复合材料 有机化学 工程类 冶金 生物化学
作者
Hongbin Yang,Haizhuang Jiang,Zhe Xu,Xing Zhang,Tao Wang,Hai‐Ning Liu,Xiao Ma,Jianjun Zhu,Xiangfeng Zhang,Wan-Li Kang
出处
期刊:Petroleum Science [Elsevier BV]
卷期号:22 (2): 724-738 被引量:51
标识
DOI:10.1016/j.petsci.2024.11.016
摘要

CO 2 flooding enhanced oil recovery (CO 2 -EOR) represents a significant technology in the low permeability reservoir. With the fractures and heterogeneity in low permeability reservoirs, CO 2 -EOR is susceptible to pessimistic gas channeling. Consequently, there is a need to develop conformance control materials that can be used in CO 2 -EOR. Herein, to address the challenges of low strength and poor stability of polymer gel in high temperature and low permeability reservoirs, a new organic/metal ion composite crosslinking polymer gel (AR-Gel) is reported, which is formed by low hydrolysis and medium to high molecular weight polymer (CX-305), organic crosslinking agent (phenolic resin), and aluminium citrate (Al(III)). The crosslinking of Al(III) with carboxyl group and organic/metal ion double crosslinking can construct a more complex and stable polymer gel structure on the basis of traditional chemical crosslinking, to cope with the harsh conditions such as high temperature. The structure–activity relationship of AR-Gel was revealed by rheology behavior and micro-morphology. The applicability of AR-Gel in reservoir was investigated, as was its strength and stability in supercritical CO 2 . The anti-gas channeling and enhanced oil recovery of AR-Gel were investigated using low permeability fractured cores, and the field process parameters were provided. The gel can be used to meet supercritical CO 2 reservoirs at 110 °C and 20,000 mg/L salinity, with long-term stability over 60 days. The plugging rate of AR-Gel for fractured core was 97%, with subsequent CO 2 flooding resulting in an enhanced oil recovery by 34.5%. AR-Gel can effectively control CO 2 gas channeling and enhanced oil recovery. It offers a new material with high strength and temperature resistance, which is particularly beneficial in the CO 2 flooding for the conformance control of oil field.
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