Non-invasive Microwave Sensor for Ethanol Content in Gasoline Applications

2019 4th International Symposium on Instrumentation Systems, Circuits and Transducers (INSCIT) Pub Date : 2019-08-01 DOI:10.1109/INSCIT.2019.8868877

C. C. P. e Silva, M. M. Bezerra, S. Morais, C. C. R. Albuquerque, J. I. L. Araujo, A. Serres, J. J. Silva, M. Grilo, J. S. da Rocha Neto

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引用次数: 1

Abstract

The adulteration of gasoline has become a common practice in the process of its transportation, distribution and commercialization. Using non-compliant gasoline has many negative consequences for society including financial and health problems like gasoline overconsuming, decreasing engine performance, spontaneous combustion and increasing of pollutants emission. Therefore, several methods of complete gasoline analysis are available in the market, but many of these methods are only feasible in laboratories, requiring specialized people to gauge the quality of the product. Furthermore, non-invasive methods are not yet widely used to perform gasoline quality measurement, which is a further aggravation of gasoline handling throughout the entire testing and analysis process. Hence, considering that standard gasoline is a dielectric liquid mixture with about 30 different hydrocarbons, the present paper proposes a noninvasive method applied to gasoline quality measurement. This method is based on the variation of electrical parameters of the mixture, utilizing as the sensor a microwave resonator, once that varying dielectric parameters alter the power transmission in specific structures.

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无创微波传感器在汽油中乙醇含量的应用

汽油掺假已成为汽油运输、流通和商品化过程中普遍存在的现象。使用不符合标准的汽油会给社会带来许多负面影响，包括汽油消耗过多、发动机性能下降、自燃和污染物排放增加等经济和健康问题。因此，市场上有几种完整的汽油分析方法，但其中许多方法只能在实验室中可行，需要专门的人员来衡量产品的质量。此外，非侵入性方法尚未广泛应用于汽油质量测量，这进一步加剧了汽油在整个测试和分析过程中的处理。因此，考虑到标准汽油是一种含有约30种不同碳氢化合物的介电液体混合物，本文提出了一种用于汽油质量测量的无创方法。该方法基于混合介质的电参数变化，利用微波谐振器作为传感器，一旦介电参数的变化改变了特定结构中的功率传输。

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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2019 4th International Symposium on Instrumentation Systems, Circuits and Transducers (INSCIT)

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