Modeling Moisture Desorption Isotherms and Thermodynamic Properties of Fermented Tea Dhool (Camellia sinensis var. assamica)

W. S. Botheju; K. S. P. Amarathunge; M. T. Ziyad Mohamed

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Modeling Moisture Desorption Isotherms and Thermodynamic Properties of Fermented Tea Dhool (Camellia sinensis var. assamica)

机译：发酵茶酚水分解吸等温线和热力学性质的建模

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The desorption isotherms of fermented tea dhool were determined at 50, 55, 60, and 70°C by using static gravimetric method of saturated salt solutions within the water activity range of 0.05-0.81. Results indicated that the equilibrium moisture contents were decreased with the increase in temperature. A modified Oswin model was well fitted with the experimental data. Desorption isotherm curves obtained were type II sygmoidal. Thermodynamic properties like net isosteric heat of sorption and differential entropy were found to decrease exponentially with the increase in moisture content. Monolayer moisture content was also decreased linearly with the increase in temperature. The enthalpy-entropy compensation theory could be successfully applied for the moisture desorption behavior of fermented tea dhool samples and it was an enthalpy-driven spontaneous process.

机译：采用静态重量法在水活度范围为0.05-0.81范围内的饱和盐溶液，在50、55、60和70°C下测定了发酵茶渣的解吸等温线。结果表明，平衡水分含量随温度的升高而降低。修改后的Oswin模型与实验数据完全吻合。获得的解吸等温线曲线为II型曲线。发现热力学性质，如净等距吸附热和微分熵随水分含量的增加呈指数下降。单层水分含量也随着温度的升高而线性降低。焓-熵补偿理论可以成功地应用于发酵茶渣样品的水分解吸行为，是一个焓驱动的自发过程。

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《Drying technology: An International Journal》 |2008年第12期|共6页
作者
W. S. Botheju; K. S. P. Amarathunge; M. T. Ziyad Mohamed;
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正文语种 eng
中图分类一般性问题;
关键词
Desorption isotherm; Enthalpy-entropy compensation theory; Fermented tea dhool; Isosteric heat;

机译：解吸等温线;焓熵补偿理论;发酵茶树;等温热;

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1. Modeling Moisture Desorption Isotherms and Thermodynamic Properties of Fermented Tea Dhool (Camellia sinensis var. assamica) [J] . W. S. Botheju, K. S. P. Amarathunge, M. T. Ziyad Mohamed Drying technology: An International Journal . 2008,第10a12期

机译：发酵茶酚水分解吸等温线和热力学性质的建模
2. Physicochemical properties and antioxidant activity of oil extracted from Assam tea seeds (Camellia sinensis var. assamica) by supercritical CO_2 extraction [J] . Rattana Muangrat, Wachira Jirarattanarangsri Journal of Food Processing and Preservation . 2020,第3期

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4. Organogenesis Responses of Tea (Camellia sinensis (L.) O. Kuntze) var. assamica and sinensis [C] . Hani Widhianata, Taryono International Conference on Bioinformatics, Biotechnology, and Biomedical Engineering . 2019

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Modeling Moisture Desorption Isotherms and Thermodynamic Properties of Fermented Tea Dhool (Camellia sinensis var. assamica)

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