Rutambhara Yogi scite author profile

This paper reports use of a nondestructive, miniaturized, microwave microstrip ring resonator for moisture sensing application in papers. Advantages offered by this sensor over the prevailing sensors are room-temperature operation, response time in milliseconds, measurements unaffected by dusty environment and ionic conductivity of samples. Samples of eleven types were tested, with grammage (grams per square metre) and thickness varying from 21 to 70 g m −2 and 24 to 80 µm respectively. The wet basis moisture normalization (with respect to instantaneous moisture content in the sample) was established to remove scatter and to bring out clearly grammage dependence, thus avoiding error in moisture prediction due to density variations, using only scalar measurements. A single equation for f r variations is realized in terms of grammage and normalized percentage moisture (M ww ) which is valid for all types of tested paper. A model of the wet paper is suggested mainly based on water-dry paper interaction, also considering parameters like thickness and surface roughness, to explain trends of the sensitivity curves. The estimated %M ww shows an error of ±0.9% in the estimated value as compared to the actual value.

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Study of bi-coloured leaves by microwave microstrip moisture sensor

Yogi

Gangal

Karekar

et al. 1999

Sensors and Actuators B: Chemical

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Tetrode based technology demonstrator at 352 MHz, 400 kWp for ESS spoke linac

Yogi

Wedberg

Hermansson

et al. 2014

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Rutambhara Yogi

Microwave ring resonator as a novel bio-material moisture sensor

Split modes in asymmetric microstrip ring resonator by flexible perturbation

Microwave microstrip ring resonator as a paper moisture sensor: study with different grammage

Study of bi-coloured leaves by microwave microstrip moisture sensor

Tetrode based technology demonstrator at 352 MHz, 400 kWp for ESS spoke linac

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