Polymer Augmented Low Salinity Flooding in Low Permeability Carbonate Reservoirs

Day 2 Tue, October 04, 2022 Pub Date : 2022-09-26 DOI:10.2118/210233-ms

Song Haofeng, Ghosh Pinaki, Bowers Annalise, Mohanty K Kishore

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Abstract

Low salinity waterflooding improves displacement efficiency in initially oil-wet reservoirs if it can alter wettability, but it is often a slow process. Polymer flooding usually does not improve displacement efficiency, but enhances sweep efficiency. In this work, the synergy between low salinity and polymer flooding is studied for low permeability carbonate rocks. Polymer solutions were consecutively filtered through a 1.2 µm mixed cellulose ester membrane and a 0.4 µm polycarbonate membrane. With the proper preparation method, two polymers (HPAM and AN132) with the molecular weight of 6 MDa were successfully injected into the oil-aged carbonate rocks with the absolute permeability of 10-20 mD. Low salinity polymer flood was carried out using HPAM prepared in diluted seawaters (with modified sulfate concentrations). After extensive water floods, HPAM prepared in the 10 times-diluted seawater produced the same incremental oil recovery (4-5% original oil in place) as the ATBS-polymer AN132 prepared in the seawater. Increasing the sulfate concentration by four- and eight-folds doubled the incremental oil from low salinity polymer floods.

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低渗透碳酸盐岩储层聚合物增强低矿化度驱

如果能改变润湿性，低矿化度水驱可以提高初始油湿油藏的驱替效率，但这通常是一个缓慢的过程。聚合物驱通常不能提高驱替效率，但能提高波及效率。本文研究了低渗透碳酸盐岩低矿化度与聚合物驱的协同作用。聚合物溶液通过1.2µm混合纤维素酯膜和0.4µm聚碳酸酯膜连续过滤。采用合适的制备方法，成功地将分子量为6 MDa的两种聚合物(HPAM和AN132)注入到绝对渗透率为10-20 mD的油龄碳酸盐岩中，并将制备的HPAM在稀释海水(改性硫酸盐浓度)中进行低矿化度聚合物驱。经过大面积注水后，在稀释10倍的海水中制备的HPAM与在海水中制备的atbs -聚合物AN132产生相同的原油采收率增量(原始原油采收率为4-5%)。将硫酸盐浓度提高4倍和8倍，低矿化度聚合物驱的产油量增加了一倍。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Day 2 Tue, October 04, 2022

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