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中国精品科技期刊2020
姜宁宁,马继洋,张健,等. 切片厚度和热风温度对沙果切片干制特性、物化性质及抗氧化成分的影响[J]. 食品工业科技,2024,45(10):32−39. doi: 10.13386/j.issn1002-0306.2023060179.
引用本文: 姜宁宁,马继洋,张健,等. 切片厚度和热风温度对沙果切片干制特性、物化性质及抗氧化成分的影响[J]. 食品工业科技,2024,45(10):32−39. doi: 10.13386/j.issn1002-0306.2023060179.
JIANG Ningning, MA Jiyang, ZHANG Jian, et al. Effects of Slice Thickness and Hot-air Temperature on Drying Characteristics, Physico-chemical Properties and Antioxidants of Mulusasiatica Nakai Slices[J]. Science and Technology of Food Industry, 2024, 45(10): 32−39. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2023060179.
Citation: JIANG Ningning, MA Jiyang, ZHANG Jian, et al. Effects of Slice Thickness and Hot-air Temperature on Drying Characteristics, Physico-chemical Properties and Antioxidants of Mulusasiatica Nakai Slices[J]. Science and Technology of Food Industry, 2024, 45(10): 32−39. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2023060179.

切片厚度和热风温度对沙果切片干制特性、物化性质及抗氧化成分的影响

Effects of Slice Thickness and Hot-air Temperature on Drying Characteristics, Physico-chemical Properties and Antioxidants of Mulusasiatica Nakai Slices

  • 摘要: 为探究热风温度和切片厚度对沙果切片干燥特性、物化性质以及抗氧化成分的影响,将厚度为3和5 mm的沙果切片在不同热风温度(60、70、80、90 ℃)进行干燥,采用5种常见食品薄层干燥模型(Newton, Henderson and Pabis, Page, Logarithmic, Two-tern)对实验数据进行非线性拟合,计算扩散系数和活化能,并对干燥后切片的色泽、硬度、复水性能以及抗氧化成分进行分析。结果表明,随着热风温度的升高和切片厚度的减少,干燥时间缩短。在实验的干燥温度范围内,有效扩散系数随着温度的升高而增加。沙果切片厚度分别为3和5 mm时,活化能值分别为17.46和23.82 kJ/mol。应用Fick扩散模型来描述沙果切片的水分蒸发过程,相比于其他模型,Page模型能更好地拟合沙果切片的干燥过程。沙果切片厚度为3 mm,热风干制温度为90 ℃时,干燥后的产品为淡黄色,复水性能较高,硬度较低。从抗氧化成分的保留情况来看,加热损失了约50%的抗坏血酸,但是酚类物质仅仅下降了约35%。综上所述,可选择切片厚度3 mm,热风温度90 ℃进行干制,干制时间为90 min,干燥后的产品色泽为淡黄色,复水性能较高,硬度较低,并且能够更好地保留沙果中的抗氧化成分。

     

    Abstract: To study the effects of hot air temperature and slice thickness on the drying characteristics, physicochemical properties and antioxidant components of Mulusasiatica Nakai slices. The Mulusasiatica Nakai slices with thickness of 3 mm and 5 mm were dried in the hot air temperature range of 60, 70, 80, 90 ℃. Five classical food thin layer drying models were used to nonlinear fit the experimental data, and the diffusion coefficient and activation energy were calculated. The color, hardness, rehydration properties and antioxidant components of the dried slices were analyzed. Results showed that, the drying time was obviously shortened with the increase of hot-air temperature and the decrease of slice thickness. In the experimental drying temperature range, the effective diffusion coefficient increased with the increase of temperature. The activation energies were 17.46 kJ/mol and 23.82 kJ/mol when the slice thickness was 3 and 5 mm, respectively. Fick diffusion model was used to describe the evaporation process of Mulusasiatica Nakai slices. Compared with other models, Page model could better fit the drying process of Mulusasiatica Nakai slices. When the slice thickness was 3 mm and the hot-air temperature was 90 ℃, the dried product was light yellow, with high rehydration performance and low hardness. In terms of antioxidant retention, heat lost about 50% of ascorbic acid, but only about 35% of total phenolics. In conclusion, the slice thickness could be selected to be 3mm, the hot air temperature 90 ℃ for drying, drying time 90 min, dried product color was light yellow, higher rehydration performance, lower hardness, and could better retain the antioxidant components in Mulusasiatica Nakai.

     

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