Potential of convective drying in valorization of broccoli leaves: kinetic study, bioaccessibility of phenolic compounds and structural characteristics

IF 2.9 3区 农林科学 Q2 FOOD SCIENCE & TECHNOLOGY Journal of Food Measurement and Characterization Pub Date : 2024-10-28 DOI:10.1007/s11694-024-02941-9
Douglas Vinicius Pinheiro de Figueiredo, Thaís Jaciane Araújo Rodrigues, Newton Carlos Santos, Layanne Rodrigues da Silva, Henrique Valentim Moura, Lucas Emanuel Pereira Martins, Lumara Tatiely Santos Amadeu, Maria Eduarda Martins Duarte da Costa, Gilmar Trindade Araújo, Ana Paula Trindade Rocha
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Abstract

Agricultural residues have a high potential to be transformed and utilized into new products through convective drying. In this study, the effects of drying temperature (50, 60, and 70 °C) on kinetic monitoring and mathematical modeling, physical properties, total phenolic compounds, antioxidant activity (ABTS, DPPH, and FRAP), in vitro digestibility, and structural properties of broccoli residues (leaves) were investigated. The analyzed data revealed that the Midilli model adequately fitted the drying data with maximum R2 values (99.74%), minimum mean square error (MSE) (< 0.0020) and chi-square (\(\chi^{2}\)) (< 0.0001). Additionally, increasing the drying temperature (50–70 °C) reduced the drying time to 240 min and increased the effective diffusivity (7.25 × 10–10 m2 s−1). The activation energy was estimated at 27.06 kJ mol−1 and thermodynamic properties indicated that the process did not occur spontaneously. Temperature also had a significant effect (p < 0.05) on the physical properties of broccoli leaf powder (BLP), as well as on the total phenolic compound content (185.69–273.81 mg GAE/100 g), antioxidant activity (6.29–12.72 µM TE/g), and bioaccessibility (8.42–14.10%), with the highest contents observed at 50 °C. Finally, structural properties classified BLP as amorphous with preserved primary structures. These findings help to understand the drying behavior of broccoli leaves while promoting practices for recycling agro-food residues.

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对流干燥在西兰花叶增值方面的潜力:动力学研究、酚类化合物的生物利用率和结构特征
通过对流干燥,农业残留物具有转化和利用为新产品的巨大潜力。本研究调查了干燥温度(50、60 和 70 °C)对西兰花残留物(叶片)的动力学监测和数学建模、物理性质、总酚类化合物、抗氧化活性(ABTS、DPPH 和 FRAP)、体外消化率和结构特性的影响。分析数据显示,Midilli 模型以最大 R2 值(99.74%)、最小均方误差(MSE)(< 0.0020)和奇偶校验(\(\chi^{2}\))(< 0.0001)充分拟合了干燥数据。此外,提高干燥温度(50-70 °C)可将干燥时间缩短至 240 分钟,并提高有效扩散率(7.25 × 10-10 m2 s-1)。活化能估计为 27.06 kJ mol-1,热力学性质表明该过程不是自发发生的。温度对西兰花叶粉(BLP)的物理性质、总酚类化合物含量(185.69-273.81 mg GAE/100 g)、抗氧化活性(6.29-12.72 µM TE/g)和生物可利用性(8.42-14.10%)也有显著影响(p <0.05),其中 50 °C 时的含量最高。最后,结构特性将 BLP 归类为无定形,并保留了初级结构。这些发现有助于了解西兰花叶片的干燥行为,同时促进农业食品残留物的回收利用。
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来源期刊
Journal of Food Measurement and Characterization
Journal of Food Measurement and Characterization Agricultural and Biological Sciences-Food Science
CiteScore
6.00
自引率
11.80%
发文量
425
期刊介绍: This interdisciplinary journal publishes new measurement results, characteristic properties, differentiating patterns, measurement methods and procedures for such purposes as food process innovation, product development, quality control, and safety assurance. The journal encompasses all topics related to food property measurement and characterization, including all types of measured properties of food and food materials, features and patterns, measurement principles and techniques, development and evaluation of technologies, novel uses and applications, and industrial implementation of systems and procedures.
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