Neohesperidin

Conclusion High-purity neohesperidin could be prepared feasibly and economically by proposed method .

结论该方法简单易行，为制备高纯度的新橙皮苷提供了一种经济的、可行的方法。

Then , taken the yield as the objective function , the built ED model was used to determine the optimum separation conditions of Naringin and Neohesperidin .

将ED模型应用到柚皮苷和新橙皮苷色谱分离操作条件的优化。

First , an equilibrium-dispersive ( ED ) model was used to describe the chromatographic separation of Naringin and Neohesperidin .

主要工作有：（1）以制备液相分离柚皮苷和新橙皮苷为研究对象，建立了色谱分离的平衡驱动模型（ED模型）。对于其中吸附等温线的测定，本文采用了由G。

Fructus Aurantii Immaturus is only used synephrine as quality control indicator and Fructus Aurantii is used naringin and neohesperidin for quality control indicators in current pharmacopoeia standard .

现行药典标准对枳实以辛弗林为质控指标，对枳壳以柚皮苷和新橙皮苷为质控指标，并未体现二者在功效上的共性与特性。

AIM : To develop a rapid HPLC method for quality control of traditional Chinese medicinal ingredients consisted of citrus flavonoids , naringin , hesperidin , neohesperidin , sinensetin and nobiletin .

目的：建立检测柑橘类黄酮（柚皮苷、橙皮苷、新橙皮苷、橙黄酮、川陈皮素）的中药材质量控制用快速HPLC方法。

Its peel contains a variety of active ingredients , including bioflavonoid ( naringin , neohesperidin , etc ), essential oils , pectin , vitamins , polysaccharides and minerals .

其果皮含有多种活性成分，包括生物类黄酮（柚皮苷、新橙皮苷等）、精油、果胶、维生素、多糖及矿物质等。

Effects of Phosphorus-Aluminum and Boron-Aluminum Interactions on Organic Acid Metabolism in the Leaves and Roots of Pummelo HPLC determination of neohesperidin and naringin in Fructus Aurantii Immaturus of different specifications

磷铝与硼铝互作对柚叶片和根系有机酸代谢的影响HPLC法测定不同规格酸橙枳实中新橙皮苷和柚皮苷的含量

Determination of total flavone of the fructus aurantii immaturus . hesperidin and neohesperidin through UV spectrophotometry and HPLC chromatogram . And the establishment of the quality standard of total flavone extracted from fructus aurantii immaturus .

通过紫外分光光度法和高效液相色谱法分别对枳实总黄酮、枳实总黄酮中的柚皮苷和新橙皮苷进行含量测定，确立了枳实总黄酮提取物的质量标准。

Differential equations of the GR model were numerically solved by the Orthogonal Collocation on Finite Elements ( OCFE ) . The number of finite elements , collocation points in bulk and particle phase were optimized for the GR model of Naringin and Neohesperidin in this part .

模型的数值求解方法为有限元正交配置法，同时针对本文的二元体系优化了GR模型的三个数值参数：有限元数、主体相配置点数以及颗粒相配置点数。