详细信息
基于红芪芒柄花素保留率建立纤维性根茎药材超滤预测模型 被引量:3
Prediction Model of Ultrafiltration for Fibrillary Rhizome Herbs Based on Formononetin Retention Rate in Hedysari Radix
文献类型:期刊文献
中文题名:基于红芪芒柄花素保留率建立纤维性根茎药材超滤预测模型
英文题名:Prediction Model of Ultrafiltration for Fibrillary Rhizome Herbs Based on Formononetin Retention Rate in Hedysari Radix
作者:柳春[1];刘晓霞[1];魏舒畅[1];王继龙[1];宋晓春[1];金辉[1];李子荣[1]
第一作者:柳春
机构:[1]甘肃中医药大学,兰州730000
第一机构:甘肃中医药大学
年份:2015
卷号:27
期号:9
起止页码:1550
中文期刊名:天然产物研究与开发
外文期刊名:Natural Product Research and Development
收录:CSTPCD;;北大核心:【北大核心2014】;CSCD:【CSCD2015_2016】;
基金:国家自然科学基金(81060345)
语种:中文
中文关键词:红芪;黄芪;芒柄花素;酶解;超滤;BP神经网络;预测模型
外文关键词:Hedysarl Radix; Astragali Rad/x; formononetin; enzymolysis; ultrafiltration; BP neural network; predictionmodel
摘要:以膜孔径、操作压力、滤过温度为输入变量,以红芪酶解提取液在不同超滤条件下的芒柄花素保留率为输出变量,采用L-M算法优化网络参数,建立适用于纤维性根茎药材超滤的芒柄花素保留率BP神经网络预测模型,并对模型的预测性能和适用性及最优工艺条件和各条件对芒柄花素保留率的影响进行考察。该模型对红芪和黄芪酶解提取液超滤后的芒柄花素保留率预测的平均误差率分别为1.78%和1.92%。最优超滤工艺条件为:膜孔径100 nm,操作压力0.15 Mpa,滤过温度45℃。各条件对芒柄花素保留率的影响大小为:滤过温度>膜孔径>操作压力。结果表明,所建神经网络预测精度较高,适用性较好,具有很好的实用价值,可避免对成分相近纤维性根茎药材的超滤工艺重复优化的问题。
The objective of this study was to establish a BP neural network to predict formononetin retention rate in the process of ultraflltration for fibrillary rhizome herbs. Using the membrane pore size,operating pressure and temperature as input variables, formononetin retention rate as output variable, the BP neural network was established after network pa- rameters optimized using L-M method. Furthermore ,the performance and applicability of model were evaluated. The opti- mal process condition and the effects of different u]trafiltration conditions on formononetin retention rate was then investi- gated. The average error rate of Hedysari Radix and Astragali Radix was 1.78% and 1.92% ,respectively. The optimal ultrafiltration process was as follows:membrane pore size 100 nm,operating pressure 0.15 Mpa,temperature 45 ℃. The influence of formononetin retention rate was temperature 〉 membrane pore size 〉 operating pressure. The results showed that the BP neural network had good practical value because of higher accuracy and better applicability. The established prediction model can avoid optimizing ultrafiltration technology of similar fibrillary rhizome herbs repeatedly.
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