The Comparison of Three Metallic, Organic, and Polymeric Crosslinked HPAM Gels for Water Conformance Applications

Q4 Chemical Engineering

Journal of Chemical and Petroleum Engineering Pub Date : 2021-06-01 DOI:10.22059/JCHPE.2021.316915.1343

Mohammad Dehdari, G. H. Motlagh, A. Nakhaee

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Abstract

Unwanted production of water in oil and gas reservoirs due to water coning is one of the headaches of the petroleum industry. Despite mechanical methods, some chemicals are also developed to delay or prevent this problem. Polymer gels have been proved to be a reliable and economical solution for water production. In this paper, we present a summary of tests for three different gel systems for a pre-determined reservoir condition. A metallic crosslinker (Chromium(III) Acetate), a polymeric crosslinker (Polyethylenimine), and an organic crosslinker mixture (Hexamethyleneteramine + Hydroquinone) are used for crosslinking HPAM polymer. The tests are performed for different concentrations of polymer and cross-linker. Gel strength and stability of these polymer gels are recorded over six weeks. The apparent viscosity of these gels is recoded and compared. The impact of salinity on gel strength and stability is also investigated. The results show that for the determined reservoir conditions HPAM-Chromium(III) Acetate and HPAM-Hexamethyleneteramine-Hydroquinone gels could form a stable and rigid barrier against water.

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三种金属、有机和聚合物交联HPAM凝胶在水相容性应用中的比较

油气储层中由于水锥而产生的不需要的水是石油工业的头痛问题之一。除了机械方法外，还开发了一些化学品来延缓或防止这个问题。聚合物凝胶已被证明是一种可靠和经济的水生产解决方案。在本文中，我们总结了三种不同凝胶体系在预先确定的储层条件下的测试结果。用金属交联剂(醋酸铬)、聚合物交联剂(聚亚胺)和有机交联剂混合物(六亚胺+对苯二酚)交联HPAM聚合物。对不同浓度的聚合物和交联剂进行了试验。这些聚合物凝胶的凝胶强度和稳定性记录超过六周。对这些凝胶的表观粘度进行了记录和比较。研究了矿化度对凝胶强度和稳定性的影响。结果表明，在确定的储层条件下，hpam -醋酸铬凝胶和hpam -六亚甲基二胺-对苯二酚凝胶可以形成稳定的刚性水屏障。

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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