Volume overload, preparative columns

The effective use of column volume overload for preparative separations was experimentally demonstrated by Scott and Kucera [1]. These authors used a column 25 cm long, 4.6 mm I.D. packed with Partisil silica gel 10 mm particle diameter and employed n-heptane as the mobile phase. The total mass of sample injected was kept constant at 176 mg, 8 mg and 0.3 mg of benzene, naphthalene and anthracene, respectively, but the sample volumes used which contained the same mixture of solutes were 1 pi, 1 ml, 2 ml and 3 ml. The chromatograms of each separation are... 

Preparative chromatography involves the collection of individual solutes as they are eluted from the column for further use, but does not necessarily entail the separation of large samples. Special columns can be designed and fabricated for preparative use, but for small samples the analytical column can often be overloaded for preparative purposes. Columns can be either volume overloaded or mass overloaded. Volume overload causes the peak to broaden, but the retention time of the front of the peak... 

Volume overload employing a solution of the material in the mobile phase at a level of about 5% w/v is a recommended method of sampling for preparative columns if the system is not optimized. However, a combination of volume overload and mass overload has also been suggested as an alternative procedure by Knox (13). 

The major cause of peak asymmetry in LC is sample overload and this occurs mostly in preparative and semi preparative LC. There are two forms of sample overload, volume overload and mass overload. Volume overload results from too large a volume of sample being placed on the column and this effect will be discussed later. It will be seen that volume over load does not, in itself, produce asymmetric peaks unless accompanied by mass overload. Mass overload which, as discussed above, is accompanied by a distortion of the normally linear isotherm, can cause very significant peak asymmetry and, in fact, seriously impair the resolution obtained from the column. 

Preparative Chiral Chromatography The Loading Capacity of a Column The Maximum Sample Volume Sample Volume Overload Sample Mass Overload Preparative Chromatography Apparatus Solvent Reservoirs Pumps... 

Errors in the molecular weight data from HPSEC are usually due to improperly prepared samples, column dispersity, or flow rate variations. The sample to be analyzed should be completely dissolved in the mobile phase and filtered prior to injection onto the column. A plugged column inlet frit will invalidate results. In addition, do not load the column with excess sample. Column overloading affects the accuracy of data by broadening peaks, reducing resolution, and increasing elution volume. For best results, the concentration of the injected sample should be as low as possible while still providing adequate... 

In analytical applications of liquid chromatography the most common causes of peak asymmetry are mixed mechanisms of retention, incompatibility of the sample with the chromatographic mobile phase, or development of excessive void volume at the head of the column. In preparative applications of liquid chromatography and related techniques, column overload can also contribute to peak asymmetry. The causes of severe peak asymmetry in analytical applications should be identified and corrected because they are frequently accompanied by concentration-dependent retention, non-linear calibration curves and poor precision. In addition, peak asymmetry can significantly compromise column efficiency leading, in turn, to reduced resolution and lower peak capacity (see sections 2.5 and 2.6). 

The way you do the sample preparation will result in a strongly diluted sample solution, otherwise you will have to contend with the limit of detection. In any case you would like to directly inject a relatively large sample volume. How large an injection volume can you use without being penalized by noticeable band broadening We assume that the column is not overloaded only a possible peak broadening caused by the injection will be discussed here. 

---