Physicochemical Properties and Hydration Kinetics of Kenaf (Hibiscus cannabinus) Seed

Journal of Food Science and Engineering Pub Date : 2022-06-21 DOI:10.37256/fse.3220221401

Shafa'atu Giwa Ibrahim, Nor Aini Mat Noh, Nur Syamimi Zaini, Wan Zunairah Wan Ibadullah, Nazamid Saari, Roselina Karim

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引用次数: 1

Abstract

Hydration of kenaf seed was studied at 25, 35 45, 55 and 65 °C by the method of weight gain until equilibrium was achieved along with the physicochemical properties of the seed. The results showed that the kenaf seed had a small dimension and brownish surface color. Water absorbed during soaking was a function of soaking time and temperature. Soaking at higher temperatures increased the hydration rate constant and decreased the soaking time needed to reach equilibrium. Sigmoidal, Peleg and Page models effectively described the hydration characteristics of the seed under the soaking temperatures. The half-saturation time; τ, Peleg' s rate constant; K1 and Page rate constant K3 decreased from 199.78-32.97 min, 2.55-0.47 min/% and 3.14-2.74 min/%, respectively, while the sigmoidal rate constant; K increased from 0.85-6.83 min-1 with an increase in soaking temperature from 25-65 °C. The rate of water absorption of the seed at a higher temperature was faster. The temperature dependence of K was explained by the Arrhenius equation, from which activation energy of 71.31 KJ/mol was obtained.

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红麻种子理化性质及水化动力学研究

采用增重法在25、35、45、55和65℃条件下对红麻种子进行水化处理，直至达到种子理化性质的平衡。结果表明，红麻种子尺寸小，表面呈褐色。浸泡过程中的吸水率与浸泡时间和温度有关。高温浸泡提高了水化速率常数，缩短了达到平衡所需的浸泡时间。s型、Peleg和Page模型有效地描述了种子在浸泡温度下的水化特性。半饱和时间;τ，法勒速率常数;K1和Page速率常数K3分别从199.78 ~ 32.97 min、2.55 ~ 0.47 min/%和3.14 ~ 2.74 min/%下降;随着保温温度从25 ~ 65℃升高，K从0.85 ~ 6.83 min-1升高。温度越高，种子吸水速率越快。用Arrhenius方程解释了K的温度依赖性，得到了71.31 KJ/mol的活化能。

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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Journal of Food Science and Engineering

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