食品科学 ›› 2023, Vol. 44 ›› Issue (3): 41-47.doi: 10.7506/spkx1002-6630-20220325-307

• 基础研究 • 上一篇    下一篇

基于玻璃化转变理论的蓝莓粉吸湿机制

楚文靖,孙悦,肖柳柳,陈安弟,陶雅妮   

  1. (黄山学院生命与环境科学学院,安徽?黄山 245041)
  • 出版日期:2023-02-15 发布日期:2023-02-28
  • 基金资助:
    国家自然科学基金青年科学基金项目(32001760);安徽省高校优秀青年人才支持计划项目(gxyq2020051); 国家级大学生创新创业训练计划项目(202110375015;202110375027)

Hygroscopic Mechanism of Blueberry Powder Based on Glass Transition Theory

CHU Wenjing, Sun yue, xiao liuliu, CHEN Andi, TAO Yani   

  1. (College of Life and Environment Sciences, HuangShan University, Huangshan 245041, China)
  • Online:2023-02-15 Published:2023-02-28

摘要: 以‘珠宝’和‘海岸’这两个品种蓝莓为原料制作蓝莓粉,研究吸湿前后蓝莓粉的品质差异;采用静态称量法测定两种蓝莓粉在不同温度(5、15、25、35、45 ℃)下的吸湿等温线,并构建状态图;探讨了水分吸附过程净等量吸附热、微分熵、熵焓互补等热力学特性。结果表明,两种蓝莓粉吸湿后品质下降,粉体颗粒黏聚,流动性降低;水分吸湿等温线均呈典型的“J”型曲线,GAB模型为描述蓝莓粉水分吸附特性的最适模型。从状态图可知,‘珠宝’和‘海岸’分别在水分含量小于等于0.104 5、0.107 7 g/g(干基),贮藏温度小于等于-30.30、-32.66 ℃时,有较好的稳定性。熵焓互补理论表明,两品种蓝莓粉水分吸附过程均为熵驱动的非自发过程。研究结果可为蓝莓粉加工和贮藏条件的选择提供理论依据。

关键词: 蓝莓粉;玻璃化转变温度;热力学性质;熵焓互补

Abstract: Blueberry powder was made from two varieties of blueberries, ‘Jewelry’ and ‘Coast’, and the quality changes of blueberry powder before and after moisture sorption were studied. The hygroscopic isotherms of blueberry powder at different temperatures (5, 15, 25, 35 and 45 ℃) were measured by static weighing method, and the state diagram was constructed. The thermodynamic characteristics of net isosteric heat of sorption, differential entropy, and enthalpy-entropy compensation in water sorption were discussed. The results showed that the quality of the two blueberry powders decreased after water sorption, and the powder particles became cohesive and the fluidity decreased. The water sorption isotherms of blueberry powder showed typical J-shaped curves, and the GAB model was the best model to describe the water sorption characteristics of blueberry powder. The state diagram showed that ‘Jewelry’ and ‘Coast’ blueberry powders had good stability when the moisture content based on dry basis was less than or equal to 0.104 5 and 0.107 7 g/g, respectively, and the storage temperature was less than or equal to –30.30 and –32.66 ℃, respectively. The enthalpy-entropy compensation theory showed that the water sorption process of blueberry powder was entropy-driven and non-spontaneous. These results provide a theoretical basis for the selection of processing and storage conditions for blueberry powder.

Key words: blueberry powder; glass transition temperature; thermodynamic properties; enthalpy-entropy compensation

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