Study on the Nanofiltration Separation Mechanism of Catalpol of <i>Rehmannia Glutinosa<\i> in Ethanol-Water Solution

LICun-yu; WUQing-ping; ZHENGYu-jun; LIHong-yang; PENGGuo-ping

Volume 36 Issue 2

Mar. 2020

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Article Navigation > Journal of Nanjing University of traditional Chinese Medicine > 2020 > 36(2): 241-245

LICun-yu, WUQing-ping, ZHENGYu-jun, LIHong-yang, PENGGuo-ping. Study on the Nanofiltration Separation Mechanism of Catalpol of Rehmannia Glutinosa in Ethanol-Water Solution[J]. Journal of Nanjing University of traditional Chinese Medicine, 2020, 36(2): 241-245.

Citation:

LICun-yu, WUQing-ping, ZHENGYu-jun, LIHong-yang, PENGGuo-ping. Study on the Nanofiltration Separation Mechanism of Catalpol of Rehmannia Glutinosa<\i> in Ethanol-Water Solution[J]. Journal of Nanjing University of traditional Chinese Medicine, 2020, 36(2): 241-245.

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Study on the Nanofiltration Separation Mechanism of Catalpol of Rehmannia Glutinosa<\i> in Ethanol-Water Solution

LICun-yu^1,2,

WUQing-ping¹,

ZHENGYu-jun¹,

LIHong-yang¹,

PENGGuo-ping^1,2

1.
College of Pharmacy, Nanjing University of Chinese Medicine, Nanjing, 210023, China

2.
Jiangsu Collaborative Innovation Center of Chinese Medicinal Resources Industrialization, Nanjing, 210023, China

Publish Date: 2020-03-10

Abstract

Abstract

OBJECTIVE To Study on the nanofiltration separation mechanism of catalpol of Rehmannia glutinosa in ethanol-water solution. METHODS Based on solution-diffusion effect， charge effect and molecular sieving in nanofiltration separation， the influence of ethanol concentration on membrane flux， rejection and swelling coefficient， the mass transfer coefficient of catalpol was fitted with series of ethanol concentration to analyze the nanofiltration separation mechanism. RESULTS The experiment showed that there was a linear relationship between operation pressure and membrane flux. Meanwhile， the membrane flux gradually decayed and the absolute value of swelling coefficient increased with the increase of ethanol concentration. The rejection of catalpol increased from 50.14% to 91.16%， and the mass transfer coefficient decreased from 19.27×10^-6 m/s to 9.72×10^-6 m/s with the swelling of pore diameter in ethanol-water solution. CONCLUSION The molecular interaction force among catalpol， membrane material and solution are changed by ethanol. The charge rejection effect between nanofiltration membrane and catalpol is strengthened with the swelling of pore diameter. The nanofiltration separation mechanism of catalpol is preliminarily clarified in ethanol-water solution， which provides theoretical and technical support for concentrating heat-sensitive traditional Chinese medicine ingredients from the organic solvent-water solution at normal temperature.

Keywords:
nanofiltration,

ethanol,

catalpol,

separation mechanism,

charge

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References(16)

References

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[1]	彭国平，萧伟，倪健.中药制药化学[M].北京：中国中医药出版社，2016:108.
[2]	李存玉，刘莉成，金立阳，等.基于道南效应和溶解-扩散效应分析低浓度乙醇中绿原酸的纳滤分离规律[J].中国中药杂志，2017，42(14):2670-2675.
[3]	郭永学. 丹酚酸B的降解机理及纯化工艺研究[D]. 大连：大连理工大学，2007.
[4]	姜苏，陈亚军，郑云枫，等.双参平肺方中药味配伍对知母芒果苷提取率的影响与成分作用探讨[J].南京中医药大学学报，2016，32(6):581-584.
[5]	段金廒，张伯礼，宿树兰，等.基于循环经济理论的中药资源循环利用策略与模式探讨[J].中草药，2015，46(12):1715-1722.
[6]	李存玉，马赟，刘莉成，等. 紫苏叶中咖啡酸存在状态与其纳滤传质过程的相关性[J].中草药，2017， 48(19):3986-3991.
[7]	李存玉，马赟，龚柔佳，等.响应面分析法耦合调节Donnan效应优化苦参提取液的纳滤浓缩工艺[J].中草药，2016，47(19):3395-3400.
[8]	邱实，吴礼光，张林，等.纳滤分离机理[J].水处理技术，2009，35(1):15.
[9]	SANTAFE-MOROS A， GOZALVEZ-ZAFRILLA JM， LORA-GARCIA J. Applicability of the DSPM with dielectric exclusion to a high rejection nanofiltration membrane in the separation of nitrate solutions[J]. Desalination， 2008， 221(1/3):268-276.
[10]	赵彦彦，袁其朋. 有机相纳滤分离过程中浓度、电荷、溶剂对溶质截留行为的影响[J]. 膜科学与技术，2006， 26(5):31-36.
[11]	国家药典委员会.中国药典：一部[S].北京：中国医药科技出版社，2015:124.
[12]	MURTHY ZVP， GUPTA SK. Estimation of mass transfer coefficient using a combined nonlinear membrane transport and film theory model [J]. Desalination， 1997， 109(1):39-49.
[13]	吴芳，封莉，张立秋.纳滤去除水中中性药物的预测模型[J].膜科学与技术，2016，36(4):97-102.
[14]	AREND GD， ADORNO WT， REZZADORI K， et al. Concentration of phenolic compounds from strawberry (Fragaria X ananassa Duch<\i>) juice by nanofiltration membrane [J]. J Food Eng， 2017， 201:36-41.
[15]	王宏洁，边宝林，杨健，等. 地黄中梓醇变化条件的探讨[J]. 中国中药杂志，1997， 22(7):408-409.
[16]	李存玉. 超微孔过滤原理的研究与应用[D]. 南京：南京中医药大学，2013.

Study on the Nanofiltration Separation Mechanism of Catalpol of Rehmannia Glutinosa<\i> in Ethanol-Water Solution

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