Laboratory of High Pressure in Food Engineering (LAPEA), School of Food Engineering, University of Campinas, R. Monteiro Lobato 80, 13083-862 Campinas, SP, Brazil.
Laboratory of High Pressure in Food Engineering (LAPEA), School of Food Engineering, University of Campinas, R. Monteiro Lobato 80, 13083-862 Campinas, SP, Brazil; Multidisciplinary Laboratory of Food and Health (LabMAS), School of Applied Sciences, University of Campinas, Rua Pedro Zaccaria 1300, 13484-350 Limeira, SP, Brazil.
Food Res Int. 2022 Jul;157:111381. doi: 10.1016/j.foodres.2022.111381. Epub 2022 May 17.
This work evaluated two emerging techniques in extracting phenolic compounds from Tahiti lime pomace - pressurized liquid extraction (PLE) and ultrasound-assisted extraction (UAE). PLE was performed at different temperatures (60 - 110 °C) and times (5 - 40 min), and UAE was carried out varying ultrasound power (160 - 792 W), time (2 - 10 min), and solvent to feed mass ratio (20 - 40 kg solvent/kg dried pomace). Both used ethanol and water (3:1, wt.) as the solvent. The effects of these variables were evaluated on global extraction yield, polyphenols, hesperidin, narirutin yields, and antioxidant capacity. PLE was strongly affected by temperature and extraction time, and the highest temperature (110 °C) provided the best results for global yield, total phenolic, and ORAC, except for hesperidin and narirutin, which were not significative affected by temperature. UAE revealed a weak dependency on power, S/F, and time; however, the lowest power level significantly increased the yields compared to no power application. Thus, P = 480 W, t = 6 min, and S/F = 30 was chosen as the best condition in the UAE in terms of overall extraction yield, total phenolics, specific phenolics, antioxidant capacities, and solvent and energy expenditures. UAE mechanisms were investigated by comparing with heated and stirred maceration, and scanning electron microscopy suggested that total phenolic yield was influenced by mechanisms that only ultrasound can provide. Micrographics confirmed the cavitation effect on Tahiti lime pomace particles' surface. To sum up, PLE resulted in the highest yields and antioxidant capacity, followed by UAE.
本工作评估了从塔希提莱檬果皮中提取酚类化合物的两种新兴技术——加压液体萃取(PLE)和超声辅助提取(UAE)。PLE 在不同温度(60-110°C)和时间(5-40 分钟)下进行,UAE 则在不同超声功率(160-792 W)、时间(2-10 分钟)和溶剂与进料质量比(20-40 公斤溶剂/公斤干燥果皮)下进行。两种方法均使用乙醇和水(3:1,wt.)作为溶剂。这些变量对总萃取率、多酚、柚皮苷、橙皮苷产量和抗氧化能力的影响进行了评估。PLE 受温度和提取时间的强烈影响,最高温度(110°C)对总产率、总酚和 ORAC 提供了最佳结果,除了柚皮苷和橙皮苷,它们不受温度的显著影响。UAE 对功率、S/F 和时间的依赖性较弱;然而,与不施加功率相比,最低功率水平显著提高了产率。因此,在 UAE 中,选择 P=480 W、t=6 分钟和 S/F=30 作为最佳条件,以获得总萃取率、总酚类、特定酚类、抗氧化能力以及溶剂和能源消耗的最佳结果。通过与加热搅拌浸提进行比较,研究了 UAE 的机制,扫描电子显微镜表明,总酚类产量受仅超声能提供的机制影响。显微照片证实了空化效应对塔希提莱檬果皮颗粒表面的影响。综上所述,PLE 产生了最高的产率和抗氧化能力,其次是 UAE。
