The van Deemter equation in

chromatography In chemical analysis, chromatography is a laboratory technique for the separation of a mixture into its components. The mixture is dissolved in a fluid solvent (gas or liquid) called the ''mobile phase'', which carries it through a system ( ...

, named for Jan van Deemter, relates the variance per unit length of a separation column to the linear

mobile phase In analytical and organic chemistry, elution is the process of extracting one material from another by washing with a solvent; as in washing of loaded ion-exchange resins to remove captured ions. In a liquid chromatography experiment, for exa ...

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by considering physical, kinetic, and thermodynamic properties of a separation. These properties include pathways within the column,

diffusion Diffusion is the net movement of anything (for example, atoms, ions, molecules, energy) generally from a region of higher concentration to a region of lower concentration. Diffusion is driven by a gradient in Gibbs free energy or chemical p ...

(

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and longitudinal), and

mass transfer 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 filtra ...

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between stationary and mobile phases. In liquid chromatography, the mobile phase velocity is taken as the exit velocity, that is, the ratio of the flow rate in ml/second to the cross-sectional area of the ‘column-exit flow path.’ For a packed column, the cross-sectional area of the column exit flow path is usually taken as 0.6 times the cross-sectional area of the column. Alternatively, the linear velocity can be taken as the ratio of the column length to the dead time. If the mobile phase is a gas, then the

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correction must be applied. The variance per unit length of the column is taken as the ratio of the column length to the column efficiency in theoretical plates. The van Deemter equation is a

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that predicts that there is an optimum velocity at which there will be the minimum variance per unit column length and, thence, a maximum efficiency. The van Deemter equation was the result of the first application of rate theory to the chromatography elution process.

Van Deemter equation

The van Deemter equation relates height equivalent to a theoretical plate (HETP) of a chromatographic column to the various flow and kinetic parameters which cause peak broadening, as follows: :

HETP = A + \frac + (C_s +C_m)\cdot u

Where * HETP = a measure of the resolving power of the column * A = Eddy-diffusion parameter, related to channeling through a non-ideal packing * B = diffusion coefficient of the eluting particles in the longitudinal direction, resulting in dispersion ² s⁻¹* C = Resistance to mass transfer coefficient of the analyte between mobile and stationary phase * ''u'' =

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s⁻¹ In open

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, the A term will be zero as the lack of packing means channeling does not occur. In packed columns, however, multiple distinct routes ("channels") exist through the column packing, which results in band spreading. In the latter case, A will not be zero. The form of the Van Deemter equation is such that HETP achieves a minimum value at a particular flow velocity. At this flow rate, the resolving power of the column is maximized, although in practice, the elution time is likely to be impractical. Differentiating the van Deemter equation with respect to velocity, setting the resulting expression equal to zero, and solving for the optimum velocity yields the following: :

u = \sqrt

Plate count

The plate height given as: :

H = \frac \,

with

L \,

the column length and

N\,

the number of theoretical plates can be estimated from a

chromatogram In chemical analysis, chromatography is a laboratory technique for the Separation process, separation of a mixture into its components. The mixture is dissolved in a fluid solvent (gas or liquid) called the ''mobile phase'', which carries it ...

by analysis of the retention time

t_R \,

for each component and its standard deviation

\sigma \,

as a measure for peak width, provided that the elution curve represents a Gaussian curve. In this case the plate count is given by: :

N = \left(\frac\right)^2 \,

By using the more practical peak width at half height

W_ \,

the equation is: :

N = 8 \ln(2) \cdot \left(\frac\right)^2 \,

or with the width at the base of the peak: :

N = 16 \cdot \left(\frac\right)^2 \,

Expanded van Deemter

The Van Deemter equation can be further expanded to: :

H = 2\lambda d_p +  + +

Where: * H is plate height * λ is particle shape (with regard to the packing) * d_p is particle diameter * γ, ω, and R are constants * D_m is the diffusion coefficient of the mobile phase * d_c is the capillary diameter * d_f is the film thickness * D_s is the diffusion coefficient of the stationary phase. * u is the linear velocity

Rodrigues equation

The Rodrigues equation, named for Alírio Rodrigues, is an extension of the Van Deemter equation used to describe the efficiency of a bed of permeable (large-pore) particles. The equation is:

HETP = A + \frac + C \cdot f( \lambda ) \cdot u

where :

f( \lambda ) = \frac \left \frac - \frac \right

and

\lambda

is the intraparticular Péclet number.

References

{{chromatography Chromatography Equations

Van Deemter equation

Plate count

Expanded van Deemter

Rodrigues equation

See also

References