Table of Contents
What is mass transfer in chromatography?
Mass transfer in gas chromatography takes place through diffusion across the gas stream, to the porous particles of support or adsorbent, then through diffusion in the stagnant gas which impregnates these particles and finally through diffusion in the liquid phase or adsorption-desorption on the gas-solid interface.
What is mass transfer in mobile phase?
Mobile phase mass transfer – a process of peak broadening caused by the presence of different flow profile within channels or between particles of the support in the column.
How does Column particle size affect chromatographic separation?
Smaller particle size improves efficiency of a separation without increasing run time, column length, or flow rate. The arrows illustrate regions of the chromatograms where the increase in efficiency and resolution is significant.
What is resistance to mass transfer?
Mass Transfer Resistance. Mass Transfer Resistance. The resistance to mass transfer is defined as the reciprocal of the mass transfer coefficient: represents the resistance to mass transfer in the liquid phase. represents the resistance to mass transfer in the gas phase.
Why do bands spread in chromatography?
A band of solute invariably spreads as it travels through the column and emerges at the detector with a standard deviation, σ. Plate height (H) is proportional to the variance ( 2) of the chromatographic band: the smaller the plate height, the narrower the band.
What are plates in chromatography?
Plates are generated during the elution of solutes through a chromatographic column and contain a wealth of information about the separation process, mainly peak dispersion. It is an easily measured quantity used to probe column properties.
When in column chromatography smaller particle size are used is known as?
Smaller particles (higher mesh values) are used for flash chromatography, larger particles (lower mesh values) are used for gravity chromatography. For example, 70-230 silica gel is used for gravity columns and 230-400 mesh for flash columns. Alumina is used more frequently in column chromatography than it is in TLC.
What is particle size in chromatography?
The standard particle size for HPLC columns was 5 µm for a long time, until the mid-1990s, when 3.5 µm became popular for method development. More recently, as higher speed and/or higher resolution is required, chromatographers have turned to packings with sub-2-3 µm, including 1.8 µm.
What causes mass transfer?
Mass transfer is mass in transit due to a species concentration gradient in a mixture. By concentration gradient, we mean a spatial difference in the abundance of the chemical species.
What affects mass transfer?
Actually, in addition to concentration gradient, temperature and pressure gradients which affect mass transfer via thermal and pressure diffusion may come into play. These effects are most significant in gas mixtures with a widely varying molecule size, e.g., He—Cs.
How does mass transfer affect band broadening?
C – Resistance to mass transfer The band of analyte is broadened. The higher the velocity of mobile phase, the worse the broadening becomes.
What is band in chromatography?
Introduction. 1. Band-broadening is a general term used to describe the overall dispersion or widening of a sample peak as it passes through a separation system.
What is peak tailing in chromatography?
One of the common shifts away from a Gaussian peak is when the back half of the peak falls away. If the peak were split into two, vertically, the later half would be wider than the first half of the peak. This effect is most clearly seen close to the baseline and is known as peak tailing.
What is theoretical plates in HPLC column?
Theoretical plate number (N) is an index that indicates column efficiency. It describes the number of plates as defined according to plate theory, and can be used to determine column efficiency based on calculation in which the larger the theoretical plate number the sharper the peaks.
How does particle size affect resolution?
In relation to particle size, efficiency is inversely proportional (Figure 2). As particle size decreases, efficiency increases, and more resolution is achieved.
What is particle size of a column?
What is pore size in column?
There are a number of pore diameters used by manufacturers to control retention. Columns with pore diameters in the range 8 – 12 nm are typically used for the analysis of ‘small molecules’ (< 3,000 Da) which can easily penetrate into the pores and access a great majority of the silica surface.
What is mass transfer method?
Mass transfer is the net movement of mass from one location, usually meaning stream, phase, fraction or component, to another. Mass transfer occurs in many processes, such as absorption, evaporation, drying, precipitation, membrane filtration, and distillation.