Averaging the pressure and flow rate of the carrier gas in a gas chromatographic column

Prediction of gas chromatographic peak width in capillary columns at different temperatures, carrier gas flows, column lengths, inside diameters and carbon numbers Width factor (w f ), relative band broadening (b r ) and retention factor are linearly correlated as ln w f = lnb r + lnk [Chromatograp

## Abstract A second‐order non‐linear partial different equation was derived to describe the dependence of carrier gas pressure in the column on the column distance and the time under temperature programmed conditions. This equation was solved numerically by the modified finite difference method fo

DSKelectrodes are--as in the case of other gas-diffusion electrodes-penetrated by two distinct pore systems, one of which at a given gas pressure is completely filled with gas, whilst the other is filled with electrolyte. In both of these pore systems the respective phases (gas, liquid) are able to

## Abstract The promising technique of controlling chromatographic selectivity by the adjustment of individual 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. Expressions

When the column pressure drop is high, the average velocity of a carrier gas is proportional to the square root of the outlet velocity and the flow rate. Characteristic velocity, flow rate and pressure -the boundary conditions between low and high pressure drop regionsare introduced. Previously deri