OPTIMIZATION OF BETA-SITOSTEROL EXTRACTION FROM LEUCAENALEUCOCHEPALA BY MICROWAVE ASSISTED HYDRODISTILLATION

Journal of Chemical Engineering and Industrial Biotechnology Pub Date : 2018-09-01 DOI:10.15282/jceib.v4i1.3879

Hashim Norlaili, Ahmad Noormazlinah, A. Sakinah, A. Maria-Pilar

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Abstract

Microwave-assisted hydrodistillatlion (MAH) extraction process can extract phytosterol (beta-sitosterol) from Leucaena leucochepala. The suitable parameter of the extraction process to extract the highest yield of phytosterol srom a plant can be optimized by using central composit design (CCCD). Two parameters extraction process were studied which are duration of time (4 to 8 minutes) and solvent ethanol concentration (55%-95%) to gain the highest yield of extracted beta-sitosterol from Leucaena leucochepala. The Liebermann-Burchard analysis was used to analyse phytosterol content in the extracted from the samples. The CCD model parameter was significant because of the values for Prob>F is less tahn 0.0500 which are 0.006 and value lack of fit F-value which is 5.44 represent only 6.77% chances to occur failure. This indicated the CCD with duration of extraction and the ethanol solvent concentration is the optimum parameter for the extraction of beta-sitosterol (phytosterol) from Leucaena leucochepala legume pod with the highest yield of phytosterol of 0.2717 mg/mL at 75% ethanol and 6 minutes.

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微波辅助加氢蒸馏法提取白蜡烯-谷甾醇的工艺优化

微波辅助加氢蒸馏(MAH)提取工艺可以从银杏中提取植物甾醇(β -谷甾醇)。采用中心组合设计(CCCD)对提取工艺参数进行优化，以获得植物甾醇的最高收率。研究了提取时间(4 ~ 8 min)和溶剂乙醇浓度(55% ~ 95%)为提取条件，以获得最佳的白桉中-谷甾醇提取率。利伯曼-伯查德分析用于分析样品中提取的植物甾醇含量。CCD模型参数具有显著性，因为Prob>F的值小于0.0500，为0.006，而缺乏拟合的F值为5.44，仅代表发生故障的可能性为6.77%。结果表明，采用CCD提取时间和乙醇溶剂浓度为最佳提取工艺，在75%乙醇条件下，提取时间为6 min，提取率可达0.2717 mg/mL。

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Journal of Chemical Engineering and Industrial Biotechnology

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