The effect of temperature and pressure on the retention time in series-coupled gas-chromatographic columns

## Abstract A previously established model of a system of series‐coupled columns, incorporating the effects of temperature and mobile phase compressibility, is generalized to take the temperature dependence of the mobile phase viscosity coefficient into account. Expressions are reported for the lin

## Abstract The technique of controlling chromatographic selectivity by the adjustment of column temperatures in systems of series‐coupled columns is investigated by means of a general model incorporating the effects of temperature and mobile phase compressibility. In a previous article the perform

## Gas chromatography Control of relative retention in series-coupled columns by Effect of temperature variation on OV 101 / Silar 5 column pair temperature variation

## Abstract A previously established model of a system of series‐coupled columns is implemented for the experimental investigation of non‐thermodynamic contributions to the retention time in systems of two series‐coupled columns. The results show excellent agreement between theory and experiment an

## Abstract In gas liquid chromatography, the column dead time and the constants of the __n__‐alkane retention time curve are calculated by the multiparametric least‐squares regression iterative method at high temperature between 180 and 270°C. The method was applied to two types of columns. The fi

## Abstract The effects of the pressure drop across the column on retention and efficiency in SFC have been studied. Numerical methods are described which enable the prediction of hold‐up time and pressure drop in both packed and open tubular columns. Predictions of both hold‐up time and pressure d