Experimental study on adsorption and wettability alteration aspects of a new chemical using for enhanced oil recovery in carbonate oil reservoirs

Edris Joonaki, Hamid Reza Erfani Gahrooei, Shima Ghanaatian
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引用次数: 35

Abstract

There is increasing interest in new multi-purpose chemicals for EOR in carbonate reservoirs, because of their oil wet nature that prevents oil from being produced. A new chemical compound [Et3NH]Cl/1.5 AlCl3 (X = 0.6) modified with CuCl, is developed for enhancing the recovery of the free imbibition and core flooding mechanisms for naturally fractured reservoirs. Laboratory experiments have been conducted to understand the injection of such chemical into oil-wet, fractured reservoirs. The compound is tested on Iranian heavy oil sample from the Bangestan reservoir, Marun oil field. Core plugs were prepared and aged in the crude to attain restored state samples. It is found that ionic liquid compound significantly reduces oil viscosity, molecular weight and also alters wettability to a more desirable state. This chemical compound has the capability of reducing IFT and contact angle. These combined effects result in noticeable free water imbibition recovery enhancement in Amott cell after oil has undergone a reaction with the compound. The potential of the new chemical compound for increasing oil recovery and in situ upgrading of heavy oil are also examined at reservoir condition by core flooding experiments. In addition, the adsorption behavior of the new proposed chemical is also studied.

碳酸盐油藏增油新药剂吸附及润湿性蚀变实验研究
由于碳酸盐岩储层的油湿性会阻碍原油的开采,因此人们对用于提高采收率的新型多用途化学品的兴趣越来越大。为了提高天然裂缝性储层的自由渗吸和岩心驱油机理,研制了一种CuCl修饰的新型化合物[Et3NH]Cl/1.5 AlCl3 (X = 0.6)。已经进行了实验室实验,以了解将这种化学物质注入油湿性裂缝性油藏的情况。该化合物在来自孟加拉国马伦油田的伊朗稠油样本上进行了测试。制备岩心塞并在原油中陈化以获得恢复状态样品。发现离子液体化合物显著降低了油的粘度、分子量,并将润湿性改变到更理想的状态。该化合物具有降低IFT和降低接触角的能力。这些综合效应导致油与化合物发生反应后,Amott细胞中自由吸水性明显增强。通过岩心驱油实验,验证了该化合物在油藏条件下提高原油采收率和稠油原位改造的潜力。此外,还研究了新化合物的吸附行为。
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