风味
食品科学
水分
化学
类黄酮
抗氧化能力
热扩散率
食品质量
含水量
熵(时间箭头)
抗氧化剂
电子鼻
柑橘类水果
数学
食品
响应面法
植物油
作者
Yutong Zhu,Xiaoyu Tian,Chen Wang,Jian-Rong Cai,Zhenwei Feng,Jingke Zhu,Junwen Bai,Yutong Zhu,Xiaoyu Tian,Chen Wang,Jian-Rong Cai,Zhenwei Feng,Jingke Zhu,Junwen Bai
出处
期刊:Agriculture
[Multidisciplinary Digital Publishing Institute]
日期:2025-11-25
卷期号:15 (23): 2433-2433
标识
DOI:10.3390/agriculture15232433
摘要
This study examined the effects of hot-air drying (HAD), infrared drying (IRD), and microwave-infrared combined drying (MICD) on the drying characteristics and quality of citrus peels. Increasing temperature and microwave power significantly shortened drying time, with MICD showing the highest efficiency due to its volumetric heating mechanism. MICD also exhibited the highest effective moisture diffusivity and lowest activation energy, indicating enhanced moisture migration, but caused structural collapse and color deterioration. In contrast, HAD and IRD better preserved color and oil gland integrity. Under optimal conditions, MICD and IRD retained higher total phenolic and flavonoid contents, accompanied by superior antioxidant activity. Electronic nose and PCA analyses revealed better volatile flavor retention in HAD and IRD, while microstructural observations showed that IRD produced more uniform and intact tissues. Correlation analysis indicated strong associations among color, flavor retention, and antioxidant activity. The entropy-weight comprehensive evaluation identified IRD at 70 °C as the optimal drying method, balancing efficiency, bioactive compound preservation, and flavor quality. These findings provide practical guidance for selecting energy-efficient drying technologies to enhance the quality of dried citrus peels.
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