The present research aimed to study the water sorption behavior of quinoa seeds analyzing the hysteresis phenomenon and determining thermodynamic properties. Static gravimetric technique was used to obtain the equilibrium moisture content of quinoa seeds in different temperature conditions (15, 25, 35 e 50 degrees C) and relative humidity (between 11 and 96). Equilibrium moisture content data were adjusted by eight mathematical models and the Modified Halsey model was the best one to describe the water sorption phenomena of quinoa seeds. Hygroscopic equilibrium moisture content of quinoa seeds is directly proportional to the water activity and decreases with increasing temperature. The hysteresis phenomena were observed throughout the range of water activity, showing more evident at low temperatures. Integral isosteric heat and differential entropy decreased with the increase of equilibrium moisture content. Gibbs free energy decreased with the increase of temperature and equilibrium moisture content. Compensation enthalpy-entropy theory was confirmed and the sorption mechanism is controlled by enthalpy.
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机译:本研究旨在研究藜麦种子的吸水行为,分析滞后现象并确定热力学性质。采用静态重量法测定了藜麦种子在不同温度条件(15、25、35 e 50 °C)和相对湿度(11—96%)下的平衡含水率。通过8个数学模型对平衡含水率数据进行调整,修正Halsey模型是描述藜麦种子吸水现象的最佳模型。藜麦种子的吸湿平衡含水率与水分活度成正比,随温度升高而降低。在整个水活动范围内观察到滞后现象,在低温下更为明显。积分等构热和微分熵随平衡含水率的增加而减小。吉布斯自由能随温度和平衡含水率的升高而降低。修正了补偿焓熵理论,并控制了吸附机理。
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