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中国精品科技期刊2020
胡付侠,马超,王雪,等. 不同干燥方式对脐橙果渣品质的影响J. 食品工业科技,2026,47(17):1−9. doi: 10.13386/j.issn1002-0306.2025110206.
引用本文: 胡付侠,马超,王雪,等. 不同干燥方式对脐橙果渣品质的影响J. 食品工业科技,2026,47(17):1−9. doi: 10.13386/j.issn1002-0306.2025110206.
HU Fuxia, MA Chao, WANG Xue, et al. Effects of Different Drying Methods on the Quality of Citrus sinensis Osbeck PomaceJ. Science and Technology of Food Industry, 2026, 47(17): 1−9. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2025110206.
Citation: HU Fuxia, MA Chao, WANG Xue, et al. Effects of Different Drying Methods on the Quality of Citrus sinensis Osbeck PomaceJ. Science and Technology of Food Industry, 2026, 47(17): 1−9. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2025110206.

不同干燥方式对脐橙果渣品质的影响

Effects of Different Drying Methods on the Quality of Citrus sinensis Osbeck Pomace

  • 摘要: 采用热风干燥、热泵干燥及微波热泵联合干燥技术制备脐橙果渣粉,探究不同干燥方式对脐橙果渣粉物理性质、营养品质及抗氧化和抗炎活性的影响,为脐橙果渣的精深加工与高值化利用提供理论依据。结果表明:微波热泵联合干燥的干燥效率高于干燥效率热风干燥和热泵干燥,其中微波7 min+热泵60 ℃干燥效率最高,较热风干燥缩短300 min,且在粉体色泽和粉体流动性方面相对较好;60 ℃热泵干燥粉体的粒径最小且分布均匀,持水力和持油力分别为3.79 g/g和1.86 mL/g;60 ℃热风干燥组的堆积密度最高,为0.84 g/mL;60 ℃热泵干燥组的比表面积较大,可作为功能性原料吸附在食品表面。营养成分方面,微波7 min+60 ℃热泵干燥样品的多酚得率最高为9.07 mg/g,较热风干燥提高53.73%,而60 ℃热泵干燥样品的可溶性膳食纤维含量最高为10.98%。抗氧化活性方面,60 ℃热泵干燥样品表现出较强的还原力与DPPH自由基清除能力,其还原力值和DPPH自由基清除率分别为1.55和73.77%;在抗炎活性方面,60 ℃热泵干燥粉体能显著降低LPS诱导RAW 264.7细胞中NO的产生,较模型组下降37.4%(P<0.05),表现出良好的抗炎活性。综上,微波7 min+60 ℃热泵干燥粉体,在干燥效率、粉体色泽及粉体流动性等方面表现较优,且具有较好的营养品质,适宜作为功能配料添加到固体饮料等食品中;60 ℃热泵干燥样品因其较高的比表面积、抗氧化和抗炎活性,可用于功能食品开发或吸附在食品表面。

     

    Abstract: To promote the high-value utilization of Citrus sinensis Osbeck pomace, hot air drying (HAD), heat pump drying (HPD) and microwave-heat pump (MW-HPD) combined drying were used to prepare pomace powders. The effects of different drying methods on the physical properties, nutritional quality, and functional activity of the powders were systematically evaluated. Among the tested conditions, microwave pretreatment for 7 min followed by heat pump drying at 60 ℃ markedly shortened the drying time by approximately 300 min compared with conventional hot air drying, while simultaneously yielding powders with improved color characteristics and flowability. In terms of powder properties, the HPD (60 ℃) sample exhibited the smallest and most uniform particle size distribution, along with higher water-holding capacity (3.79 g/g) and oil-holding capacity (1.86 mL/g). The HAD (60 ℃) sample showed the highest bulk density (0.84 g/mL), suggesting better suitability for compression-based applications, whereas the HPD (60 ℃) sample possessed a relatively larger specific surface area, indicating its potential for use as a functional food ingredient. Regarding bioactive compounds, the MW–HPD (7 min, 60 ℃) sample showed the highest total phenolic content (9.07 mg/g), which was 53.73% higher than that of the HAD (60 ℃) sample, whereas the HPD (60 ℃) sample exhibited the highest soluble dietary fiber content (10.98%). In terms of functional activity, the HPD (60 ℃) sample exhibited strong reducing power and 2,2-diphenyl-1-picrylhydrazyl (DPPH) radical-scavenging capacity, and significantly reduced lipopolysaccharide (LPS)-induced nitric oxide (NO) production in RAW 264.7 cells (P<0.05), indicating notable anti-inflammatory activity. Overall, MW-HPD (7 min, 60 ℃) powder exhibited suitable characteristics for incorporation as a functional ingredient into solid beverages and various food systems, whereas HPD (60 ℃) powder, with its high specific surface area, antioxidant and anti-inflammatory capacities, is more suitable for surface adsorption in functional foods and for the formulation of functional products.

     

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