聚合物凝胶对微流控装置中油水渗透性破坏的影响

Neft i gaz Pub Date : 2024-02-15 DOI:10.37878/2708-0080/2024-1.14

ZH. Kuli, SH. Kenzhekhanov, I. Gussenov, X. Yin, N. Tileuberd, M. Mashrapova

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引用次数: 0

摘要

微流体技术是一个快速发展的领域，在包括提高石油采收率在内的各个领域都有广泛应用。本研究阐述了制作微芯片的方法，该芯片的通道宽度为 50 μm，旨在模拟和可视化多孔介质中的流体流动。该微流体装置采用紫外线固化聚合物 NOA81 制成。固化后可形成坚固透明的微芯片结构，适用于微流体应用中的精确流体控制和分析。在微芯片上进行的洪流实验表明，在模型通道中引入 0.5 wt% 的聚合物凝胶后，在冲击前沿和注入压力稳定后，水的渗透性分别降低了 106 倍和 25 倍。相比之下，油的渗透性至少降低了 40 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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THE EFFECT OF POLYMER GEL ON THE OIL AND WATER PERMEABILITY DAMAGE IN A MICROFLUIDIC DEVICE

Microfluidics, a rapidly advancing field, finds wide applications in various domains, including enhanced oil recovery. This study delineates the methodology for fabricating a microchip with channels having a width of 50 μm, designed to simulate and visualize fluid flow in porous media. The microfluidic device was constructed using NOA81, a UV-curable polymer. Upon curing, it forms a robust and transparent microchip structure suitable for precise fluid control and analysis in microfluidic applications. Flood experiments conducted on the microchip revealed that the introduction of a 0.5 wt% polymer gel into the model's channels resulted in a reduction of water permeability by a factor of 106 and 25 at the shock front and after injection pressure stabilized, respectively. In contrast, oil permeability was reduced by at least 40 times.

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Neft i gaz

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