Dynamic Investigation of Silicate Preformed Particle GELS (SPPGS) Using Transparent Fracture Model (Hele-Shaw Cell) and Simulator

82nd EAGE Annual Conference & Exhibition Pub Date : 2021-10-18 DOI:10.3997/2214-4609.202113155

A. Paprouschi, M. Aliahmadi

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Abstract

Summary Implementing conformance treatments has been essential for enhanced oil recovery in recent years. Reducing water production becomes an issue for the oil industries when it competes directly with oil rates. Enhanced Preformed Particle Gels (PPGs) are one of the superabsorbent materials to shut off high permeable zones and promote flood sweep improvement. This research aims to evaluate the behaviour of in-house synthesized silicate preformed particle gels (SPPGs) through Hele-Shaw cell as a dynamic test. The experimental results were validated with the model and implemented into a reservoir simulator called UTCHEM. Various injection rates were injected in the silicate gel model of the modified simulator. We obtain that the simulation results contain assumption for the silicate gel injection are compatible with the experimental values obtained from injections of SPPG through Hele-Shaw Cell. The results indicate that gel injection pressure increases with flow rate. After Gel placement, results showed that water flood pressure decreases as the fracture width increases from 0.5 mm to 1 mm. Simulation results indicated a 21% pressure increase while using silicate gel.

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基于透明裂缝模型(Hele-Shaw Cell)和模拟器的硅酸盐预制颗粒凝胶动力学研究

近年来，实施一致性处理对于提高石油采收率至关重要。减少产水量成为石油行业面临的一个问题，因为它与石油价格直接竞争。增强型预成型颗粒凝胶(PPGs)是一种高效吸水材料，可以封堵高渗透层，改善洪水波及效果。本研究旨在通过Hele-Shaw电池作为动态测试来评估内部合成的硅酸盐预成型颗粒凝胶(sppg)的行为。实验结果与该模型进行了验证，并在一个名为UTCHEM的油藏模拟器中实现。在改进后的模拟器的硅酸盐凝胶模型中注入不同的注入速率。模拟结果与Hele-Shaw细胞注入SPPG的实验结果相吻合。结果表明:注胶压力随流量增大而增大;结果表明:注胶后，随着裂缝宽度从0.5 mm增加到1 mm，水驱压力减小;模拟结果表明，使用硅酸盐凝胶后压力增加21%。

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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82nd EAGE Annual Conference & Exhibition

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