微波回流提取黑、白胡椒中胡椒碱的优化及抗氧化活性研究

Olalere Olusegun Abayomi, A. Nour, Alara Oluwaseun Ruth, O. Habeeb
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引用次数: 4

摘要

本研究采用微波回流技术从黑胡椒和白胡椒中提取胡椒碱。这是由于它能够将微波和传统的溶剂萃取结合在一起,具有高度的选择性和高质量的萃取物。采用theL 9 -Taguchi实验设计优化提取工艺。研究了四个独立因素(辐照时间(x 1)、微波功率(x 2)、进料粒度(x 3)和摩尔比(x 4))对胡椒碱产量的影响。随后用DPPH(1,1 -二苯基-1-苦味酰肼)自由基清除试验评估了油树脂提取物的抗氧化活性。黑胡椒refluxation的最佳提取条件是达到90分钟照射时间(* 1),350 W功率(x 2), 0.105毫米饲料颗粒大小(x 3)和10 mL / g摩尔比率(x 4)的极值降序排名x3 > x 4 > 2 > x 1,从白胡椒refluxation在120分钟时达到一个最优条件辐照时间(* 1),350 W功率(x 2),0.300 mm进料粒度(× 3)和6 mL/g摩尔比(× 4)的极值递减顺序为:× 1 > × 4 > × 2 > × 3。从浓度依赖性自由基清除活性的结果可知,白色油树脂提取物的抑制活性明显高于黑色油树脂提取物。化工研究通报19(2017)139-144
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Optimized Microwave Reflux Extraction and Antioxidant Activities of Piperine from Black and White Piper Nigrum
In this study, the microwave reflux technique was employed to extract piperine from black and white pepper. This is due to its ability to combine the microwave and the conventional solvent extraction together with a high degree of selectivity and quality extract. The extraction process was optimized using theL 9 -Taguchi experimental design. This investigated the effects of four independent factors (irradiation time (x 1 ), microwave power level (x 2 ), feed particle size (x 3 ) and molar ratio (x 4 )) on piperine yield. Antioxidant activity of the oleoresin extracts were later evaluated using DPPH (1, 1-diphenyl-1-picrylhydrazyl) radical scavenging assay. The optimum extraction condition in black pepper refluxation was attained at 90 min irradiation time (x 1 ), 350 W power level (x 2 ), 0.105 mm feed particle size (x 3 ) and 10 mL/g molar ratio (x 4 ) with an extremum ranking in decreasing order of x3> x 4 > x 2 > x 1 .However,from the white pepper refluxation an optimum condition was achieved at 120 min irradiation time (x 1 ), 350 W power level (x 2 ), 0.300 mm feed particle size (x 3 ) and 6 mL/g molar ratio (x 4 ) with a corresponding decreasing extremum order of x 1 > x 4 > x 2 > x 3 .From the results obtained from concentration-dependent radicals scavenging activity it was concluded that white oleoresins extract were much higher in inhibitory activity than that of black oleoresin extract. Chemical Engineering Research Bulletin 19(2017) 139-144
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