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Column length, chromatographic

The diameter of the column is selected from the volume of sample that is to be processed. As a rule of thumb the maximum productivity is obtained at a sample volume of 2-6% of the bed volume in preparative gel filtration on a 50-/rm chromatographic medium (Hagel et al., 1989). Thus, the required column diameter is calculated from the bed volume needed to cope with the sample volume and the column length needed to give the resolution desired. [Pg.62]

The time taken for an analyte to elute from a chromatographic column with a particular mobile phase is termed its retention time, fan- Since this will vary with column length and mobile phase flow rate, it is more useful to use the capacity factor, k. This relates the retention time of an analyte to the time taken by an unretained compound, i.e. one which passes through the column without interacting with the stationary phase, to elute from the column under identical conditions (to). This is represented mathematically by the following equation ... [Pg.35]

In 2001, Valko et al. reduced the column length to only 50 mm and increased the flow rate to 2mLmin [42]. The gradient time was diminished to 2.5 min with a gradient cycle time of 5 min. Measurement of CHI and evaluation of log P were excellent with a 3-fold improved productivity. In these conditions, the system dwell volume (Vd) becomes essential and only dedicated chromatographic devices with Vjy lower than 0.8 mL can be used [42]. Special attention should be paid to the injected volume, which must remain lower than 3 pL to avoid any overloading or extra-column volume contributions. [Pg.344]

Column, gas chromatograph FlP-5, 5% phenyl-methyl capillary column, 0.25-mm i.d. X 12-m length, 0.33-qm film thickness (Agilent Technologies) or equivalent Evaporator, rotary vacuum, water-bath set at 60 and 40 °C Processors ... [Pg.1283]

By definition, the e]q>erlmentally determined average mobile phase velocity Is equal to the ratio of the column length to the retention time of an unretalned solute. The value obtained will depend on the ability of the unretalned solute to probe the pore volume. In liquid chromatography, a value for the Interstitial velocity can be obtained by using an unretalned solute that Is excluded from the pore volume for the measurement (section 4.4.4). The Interstitial velocity Is probably more fundamentally significant than the chromatographic velocity in liquid chromatography (39). [Pg.10]

Theoretically, chromatographic resolution depends on the square root of the column length. Separation of small molecules may be improved 40% by doubling column length. Retention time may also... [Pg.356]

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Chromatographic column

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Zero-length column chromatographic

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