Predicting sorghum moisture content with radiofrequency dielectric functions

Accurate grain and food moisture content (mc) estimation is an issue of great economic importance in agro-food industry operations such as drying, storage, and processing. Nonetheless, there is a high level of unmet need for on-line mc sensing that could lead to more reliable grain processing automa...

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Bibliographic Details
Published in:Engineering in Agriculture, Environment and Food Environment and Food, 2019, Vol.12(2), pp.222-231
Main Authors: Berbert, Pedro Amorim, Soares, Karina de Jesus, Moura, Eros Estevão de, Berbert-Molina, Marília Amorim, Oliveira, Marcia Terezinha Ramos de, Martinazzo, Ana Paula
Format: Article
Language:English
Subjects:
Capacitive sensor
Dielectric models
Grain bulk density
Grain moisture content
Radiofrequencies
Sorghum
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Summary:Accurate grain and food moisture content (mc) estimation is an issue of great economic importance in agro-food industry operations such as drying, storage, and processing. Nonetheless, there is a high level of unmet need for on-line mc sensing that could lead to more reliable grain processing automation. Dielectric models that relate product mc to its relative permittivity ε′ and loss factor ε" are considered promising solutions for continuous measurement of moisture in grain. The object of this paper was to investigate the applicability of three dielectric models derived from the function [(ε' – 1)/ε"] for mc measurement of sorghum from 7 to 23% w.b. Of the three dielectric models tested, the most satisfactory was the function [(ε′-1)/ε"]/[(2√ε′)/(1+√ε′)] at 0.1 and 1.0 MHz. However, the moisture range had to be divided into two intervals. The corresponding equations could estimate sorghum mc with standard errors of calibration of 0.6 and 0.7, and standard errors of prediction of 0.6 and 0.8 percentage point moisture, for calibration and validation sets respectively. Comparison of the results obtained here with those reported in literature revealed that the function [(ε′-1)/ε"]/[(2√ε′)/(1+√ε′)] produced mc values which are well within the performance of commercial moisture meters.
ISSN:1881-8366
1881-8366
DOI:10.1016/j.eaef.2019.01.003