低地层损害粘土稳定剂的合成与应用

Lei Liang, Yanling Wang, Bin Liu, Yongfei Li, Longhao Tang, B. Bai, Yehui Zhang
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引用次数: 0

摘要

为研制低地层损害粘土稳定剂,合成了有机聚醚胺粘土稳定剂。通过与工业粘土稳定剂的比较,研究了OPACS的应用性能。以1,2 -丙二醇、2-(氯甲基)氧环烷和氨为主要原料合成OPACS。通过FTIR和NMR表征了OPACS的分子结构,并通过离心测试了其抗膨胀性能。对其耐温、耐酸、耐碱、耐洗脱等性能进行了研究。采用不同渗透率岩心对OPACS进行了地层损伤测试,并通过扫描电镜对其抗膨胀机理进行了研究。红外光谱和核磁共振光谱表明合成了预期的产物结构。当粘土稳定剂添加量为2.0 wt.%时,OPACS的抗膨胀率可达90%以上,优于我们购买的商品粘土稳定剂(约80%)。在温度为20℃~ 120℃,pH为2 ~ 12的条件下,OPACS的抗膨胀率变化小于2.5%。长期药效试验中,在0.5 wt.% ~ 3.0 wt.%的浓度范围内,OPACS的洗脱回收率大于92%。选取不同渗透率的天然岩心进行岩心流动实验。试验结果表明,经OPACS处理的岩心渗透率恢复率达95%以上,地层损伤值小于5%。通过对不同稳定剂处理过的粘土的SEM分析,发现OPACS处理过的粘土结构比其他稳定剂处理过的粘土更致密。结果表明,OPACS能有效抑制粘土的吸水膨胀和采收率地层损害,有利于提高采收率,对环境友好。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Synthesis and Application of a Low Formation Damage Clay Stabilizer
To develop a low formation damage clay stabilizer, a kind of organic polyether amine clay stabilizer (OPACS) was synthesized. Compared with the commercial clay stabilizers, the application performance of the OPACS was investigated. OPACS was synthesized with 1, 2-propanediol, 2-(chloromethyl)oxirane and ammonia as main raw materials. The molecular structure of OPACS were characterized by FTIR and NMR, and its anti-swelling performance was tested by centrifugation. Other performance, including its temperature resistance, acid and alkali resistance, elution resistance and etc., were also researched. Different permeability cores were used to test the formation damage of OPACS, and its anti-swelling mechanism was studied by SEM. The FTIR and NMR spectra showed that the expected product structure was synthesized. When the clay stabilizer was adding with 2.0 wt.%, the anti-swelling rate of OPACS was over 90% which was better than the commercial clay stabilizers (about 80%) we bought. At the temperature range of 20 °C-120 °C and the pH range of 2-12, the anti-swelling rate of OPACS changed less than 2.5%. In the long-term efficacy test, the elution recovery rate of OPACS was higher than 92% within the concentration between 0.5 wt.%-3.0 wt.%. Natural cores with different permeability were selected for core flow experiments. The test results showed that the permeability recovery rate of cores were more than 95% treated with OPACS, which meant the formation damage value was less than 5%. From the SEM of clay treated with different clay stabilizers, we could find out the structure of clay treated with OPACS was more compact than those treated with other stabilizers we bought. These results have shown that OPACS can effectively inhibit the water absorption swelling of clay and recovery formation damage, which are helpful to the EOR and friendly to the environment.
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