Two interpolation methods, which are linear interpolation method and the Lagrange interpolation method, are compared for calculating the rate model of multi-component nonlinear liquid chromatography.
本文讨论了非线性多组分液相色谱速率模型求解过程中两种不同的插值方式即线性插值和拉格朗日插值对模型计算结果收敛速度的影响。
Study was carried out on such indexes as chromatography condition, sample disposal, recovery rate test, extraction efficiency test, linear range, detection limit and accuracy of the method.
方法按照有关检测方法的研制规范的要求,研究了色谱条件的选择、样品的处理方法、回收率试验、萃取效率试验、方法的线性范围及检出限、方法的精密度等指标。
The ideal model of liquid chromatography in gradient elution was solved by using the characteristic approach on the assumption of a linear solvent strength model.
基于线性溶剂强度模型,应用特征线分析的方法求解梯度洗脱模式下的理想液相色谱模型。
This linear relation was used to set up an approach by witch volatile content in latex could be analyzed with static head-space gas chromatography. The approach was precise and rapid.
利用这种线形关系,建立了用顶空气相色谱技术分析乳胶中挥发成分含量的方法,可以准确、快速地测定各类乳胶中挥发性成分的含量。
This linear relation was used to set up an approach by witch volatile content in latex could be analyzed with static head-space gas chromatography. The approach was precise and rapid.
利用这种线形关系,建立了用顶空气相色谱技术分析乳胶中挥发成分含量的方法,可以准确、快速地测定各类乳胶中挥发性成分的含量。
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