一种耐高温耐盐超分子增稠体系

Ma Yingxian, Ma Leyao, Jianchun Guo, J. Lai, Han Zhou, Jia Li
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引用次数: 5

摘要

采用一锅法制备了物理连接的烯丙醇聚合物/聚丙烯酰胺双网水凝胶。与传统的聚丙烯酰胺体系相比,这些双网状超分子压裂液在高温下具有更好的粘度。经流变仪测试,在170/s剪切速率下,流体粘度在150℃下可保持320 mPa s。在NMR和FT-IR结果的帮助下,我们确定了大量的链极性基团仍然是自由的,这可以络合离子保持,甚至提高链的稳定性。因此,这些双网络体系具有良好的耐盐性,具有非共价相互作用和物理缠结,并且烯丙醇聚合物/聚丙烯酰胺体系的粘度不降反升。在高矿化度条件下,粘度比初始条件下可提高近40%。综上所述,新型压裂液体系在高矿化度条件下仍能保持较高的粘度和较好的流变性能,并表现出优异的高温稳定性,弥补了现阶段压裂液的不足。由于低水质和恶劣的井下温度导致的潜在流体问题有望得到解决或缓解。
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A High Temperature and Salt Resistance Supramolecular Thickening System
We prepared physically linked allyl alcohol polymer/polyacrylamide double network hydrogels via one-pot strategy. These double network supermolecular fracturing fluids were found to have a better viscosity at high temperature compared to the conventional polyacrylamide systems. After testing with a rheometer, the fluid viscosity could stay 320 mPa s at 150 °C under 170/s shear rate. With NMR and FT-IR results' help, we determined that abundant polar groups of chains were still free, which could complex ions to keep, even enhance the chain stability. Thus, these double network systems showed excellent salt resistance with the non-covalent interactions and physical entanglements, and the viscosity of the allyl alcohol polymer/polyacrylamide system did not drop but increase. The viscosity in high salinity could increase nearly 40 % compared with the initial situation. Overall, the novel fracturing fluid system could maintain a high viscosity and better rheological properties under high salinity and showed excellent high-temperature stability, to make up the lack of fracturing fluid at this stage. It is expected to potential fluid issues caused by low water quality and harsh downhole temperatures were resolved or mitigated.
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