Efficiency Analysis and Application of Improved Method for Heterogeneous Liquids Quality Assessing by Impedance Components

A. Dolzhanskiy, Yelizaveta Kolot
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Abstract

Parameters of the total electrical resistance (impedance) are often used for substances properties identification, in particular, for heterogeneous liquids. In such conditions, the quality of the product is compared with the measured impedance (or full admittance) on alternating current [7, 8]. To do this, the industrial meters (RLC-meters), based on equivalent circuits, for example, in accordance with the «Warburg impedance scheme», are used. The disadvantages of such measurement tools are the uncertainty of the measuring circuit model components, the choice limitations of electrical parameters measuring means with the necessary sensitivity, as well as the high cost. Previously, the authors developed a new method of separate determination of active and capacitive impedance components for a heterogeneous fluid. This method is based on measuring at two close frequencies the levels of electric current and voltage with the subsequent calculation of the impedance components by a certain algorithm [1]. It is taken into account that the electrical properties of suspensions are usually caused by several types of charge carriers and depend a lot on the measurement conditions, in particular, the type (constant or alternating) and frequency of the electric current (6)…(8) [2, 3]. A new theoretical analysis and comparison of its results (9)…(11) with experimental data to determine the electrical properties of a water-graphite suspension (Table 1) revealed that the sensitivity of one of the impedance components (active or capacitive) to changes in a specific fluid property is higher than the total impedance. The experimental dependencies of the impedance components of a model fermented milk product on its fat content at low frequencies (up to 400 Hz) and voltage (up to 5 V) of electric current are presented (Figures 2, 3). These data confirmed the possibility of practical use of the design results for rapid quality assessment of various electrically conductive heterogeneous liquids with the necessary sensitivity and accuracy of measuring instruments.
阻抗分量法评价非均质液体质量改进方法的有效性分析及应用
总电阻(阻抗)参数常用于物质性质鉴定,特别是非均相液体。在这种情况下,将产品的质量与交流电的测量阻抗(或全导纳)进行比较[7,8]。为此,使用了基于等效电路的工业仪表(rlc仪表),例如,根据«Warburg阻抗方案»。这种测量工具的缺点是测量电路模型元件的不确定性,具有必要灵敏度的电参数测量手段的选择限制,以及成本高。此前,作者开发了一种新的方法来分离测定非均质流体的有源和容性阻抗分量。该方法是基于在两个相近的频率测量电流和电压的电平,然后通过一定的算法[1]计算阻抗分量。考虑到悬浮液的电学性质通常是由几种载流子引起的,并且在很大程度上取决于测量条件,特别是电流的类型(恒定或交流)和频率(6)…(8)[2,3]。为了确定水-石墨悬浮液的电性能(表1),一项新的理论分析和结果(9)与实验数据(11)进行了比较,结果表明,其中一个阻抗分量(有源或容性)对特定流体特性变化的灵敏度高于总阻抗。在低频率(高达400 Hz)和电压(高达5 V)的电流下,模型发酵乳制品的阻抗成分对其脂肪含量的实验依赖关系(图2,3)。这些数据证实了设计结果在实际应用中快速评估各种导电非均质液体质量的可能性,并具有必要的测量仪器的灵敏度和精度。
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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