Função de Meyer e Schilz para estimar o teor de água de sementes de feijão avaliado por radiofrequência

A obtenção de funções dielétricas que sejam independentes da massa específica aparente para estimar o teor de água dos grãos é importante para o desenvolvimento de sensores para utilização em secadores automáticos. O objetivo do presente trabalho foi avaliar a adequabilidade da função de Meyer e Schilz, [(épsilon'1)/épsilon"], para determinação indireta, não destrutiva e em linha do teor de água de sementes de feijão em radiofreqüências, em que épsilon' e épsilon" representam a permissividade elétrica relativa e o fator de perda dielétrica, respectivamente. Foram utilizadas amostras da variedade Campeão-3 com teor de água entre 11,5 e 20,6% b.u. e massa específica aparente no intervalo entre 756 e 854 kg m-3. Todas as medições das propriedades dielétricas foram feitas em ambiente a 20 ± 1ºC e umidade relativa de 66 ± 2%. O modelo permitiu estimar o teor de água das sementes de feijão com erro padrão da estimativa e erro máximo de 0,5 e 1,0 ponto percentual, respectivamente.Derivation of density-independent dielectric functions for moisture determination in grains is important for the implementation of on-line sensors in automated driers. The object of this study was to investigate the Meyer and Schilz function [(epsilon'1)/epsilon"] for indirect and non-destructive water content measurement of seeds of common bean by radiofrequency, where epsilon' and epsilon" are the relative permittivity and the dielectric loss factor, respectively. Samples consisted of common bean seeds variety Campeão-3 at moisture contents ranging from 11.5 to 20.6% w.b., and bulk densities from 756 to 854 kg m-3, performing dielectric measurements in a room at 20 ± 1ºC and 66 ± 2% relative humidity. The model could estimate common bean seed moisture content with a standard error of the estimate, and maximum error of 0.5 and 1.0 percentage point in moisture, w.b., respectively

Efeito da temperatura do ar de secagem sobre o teor e a composição química do óleo essencial de Pectis brevipedunculata

Leaves and flower heads of P. brevipedunculata were submitted to four drying-air temperatures (room temperature, 40, 50 and 60 ºC). Room temperature (approximately 30 ºC) and higher temperature drying (50 and 60 ºC) had a deleterious effect on the essential oil content. The recommended drying-air temperature for the species is 40 ºC for it results in the same amount of essential oil observed in fresh cut plants. Overall, 13 components accounting for more than 92% of the total composition were identified. Citral was the major component, followed by α-pinene and limonene. The essential oil showed high toxicity against Artemia salina larvae

Meyer and schilz function to estimate common bean seed water content evaluated by radiofrequency

Derivation of density-independent dielectric functions for moisture determination in grains is important for the implementation of on-line sensors in automated driers. The object of this study was to investigate the Meyer and Schilz function [(epsilon'1)/epsilon"] for indirect and non-destructive water content measurement of seeds of common bean by radiofrequency, where epsilon' and epsilon" are the relative permittivity and the dielectric loss factor, respectively. Samples consisted of common bean seeds variety Campeão-3 at moisture contents ranging from 11.5 to 20.6% w.b., and bulk densities from 756 to 854 kg m-3, performing dielectric measurements in a room at 20 ± 1ºC and 66 ± 2% relative humidity. The model could estimate common bean seed moisture content with a standard error of the estimate, and maximum error of 0.5 and 1.0 percentage point in moisture, w.b., respectively