基于Maxwell-Wagner-Sillars效应的多相流实时电容层析成像研究进展

R. Rasel, F. Teixeira, Q. Marashdeh
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引用次数: 0

摘要

多相流层析成像涉及多相流混合物中不同相组分的分解和连续监测。本文总结了在不同频率下利用麦克斯韦-瓦格纳-西拉效应的电容层析成像技术(ECT)的最新进展。利用MWS效应来区分和监测水分散多相流的不同相。另外,它使ECT能够监测水连续多相流中的非导电相。我们举例说明了该方法在空气和水分散在油中的三相流(水分散情况)和油分散在水中的两相流(水连续情况)中的应用,使用传统的ECT测量传感器硬件。结果表明,所提出的方法继承了电痉挛的高采集速度,包括实时监测的潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Progress in Real-Time Capacitance Tomography of Multiphase Flows Based on the Maxwell-Wagner-Sillars Effect
Multiphase flow tomography involves the decomposition and continuously monitoring of different phase components in a multiphase flow mixture. This work summarizes recent progress on electrical capacitance tomography (ECT) exploiting the Maxwell-Wagner-Sillars (MWS) effect at various frequencies. The MWS effect is used to distinguish and monitor different phases of a water-dispersed multiphase flow. Alternatively, it enables ECT to monitor non-conducting phases in water-continuous multiphase flows. We illustrate the application of the method in a three-phase flow of air and water dispersed in oil (water-dispersed case) and in a two-phase flow of oil dispersed in water (water-continuous case) using a conventional ECT measurement sensor hardware. It is observed that the proposed method inherits the high speed of acquisition of ECT, including the potential for real-time monitoring.
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