Design, development and application of a real-time capacitive sensor for automatically measuring liquid level

Bento, Rodrigo T.; Silva, Roger W. O.; Dias, Lucas A.; Filho, Andre Ferrus; Pitta, Antônio J. C.

doi:10.1007/s42452-019-0770-3

Cited by 10 publications

(1 citation statement)

References 18 publications

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“…For this, a capacitive transducer of non-invasive coplanar electrodes is presented. The main differences of this research in relation to other works on the existing area and commercial equipments are: (i) the embedded construction of all elements of the measurement system in a single compact hardware; (ii) the arrangement of the electrodes in a coplanar form that assists in system coupling to ore flow monitoring applications; and (iii) the oscillating circuit method [7][8][9] applied to iron ore moisture monitoring, which adds a high cost-benefit ratio compared to other techniques, such as those using high frequency.…”

Section: Introductionmentioning

confidence: 99%

Capacitive, Non-Invasive and Coplanar-Electrode Transducer for Measuring Iron Ore Moisture

Silva

Segundo

Silva

et al. 2019

The 6th International Electronic Conference on Sensors and Applications

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Currently, the mineral industry makes iron ore beneficiation processes in humid or natural moisture. Excessive moisture in iron ore can affect the beneficiation process, causing loss of productivity and transport issues, as well as reducing the efficiency of dewatering subprocesses and safety. The traditional technic for measuring iron ore moisture is the standard oven method, which is very accurate, but not very representative. Furthermore, it has a high time response: up to 24 h for each mineral sample. Consequently, corrective and preventive actions to the process become inefficient. Alternative technics, such as the microwave method, perform online moisture measurements but with low accuracy. Recently, we developed a high accuracy capacitive sensor for measuring ore moisture but not online (bench device). This paper refers to the development of a capacitive, non-invasive, coplanar-electrode transducer for iron ore moisture measurement, designed for online applications. To achieve this, we constructed a signal conditioning system, based on an 8-bit microcontroller and a driven shield for the sensor element. The system transmits the processed data via radio frequency to a computer. Moreover, it applies a statistical filter to the measurements, based on standard deviation and moving average, as a way for minimizing electromagnetic interference. The statical calibration results reached a coefficient of determination of 98.41%. The coplanar, non-invasive approach of the transducer offers the advantage of preserving the physical integrity of the sensor electrodes as well as a future online application.

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Section: Introductionmentioning

confidence: 99%