Metrohm 792 Basic IC User Manual

4.4 Methods

792 Basic IC

115

resolution

Resolution R for two neighboring peaks is cal-

culated as:

R = (t

i+1

- t

i

) / (w

0.607i

+ w

0.607(i+1)

)

where i and i+1 indexes refer to the neighboring

peaks, and w

0.607

stands for the peak width at

60.7 % of the peak height.

effectivity, TP

Effectivity for the peak in number of theoretical

plates. The number of theoretical plates N

i

per

column for a chosen peak is calculated for a

chromatographic peak by one of two formulas:

N

i

= 2 PI (t

i

•

H

i

/ A

i

)

2

,

where PI = 3.1415926..., t

i

= retention time,

H

i

= height, A

i

= area of the peak. The more

commonly used formula is:

N

i

= 5.54 (t

i

/ w

i

)

2

,

where w

i

is the width on the half-height of the

peak. The first formula offers better estimates

for fused or unresolved peaks, because the

half-width errors for those peaks are much

greater than height or area errors.
Total for this column includes average value for

the peaks listed.

effectivity, TP/m

Effectivity for the peak in number of theoretical

plates per meter. The number of theoretical

plates per meter N' for the given component is

calculated as:

N' = N

i

•

1000 / L,

where L is length of the column in mm and N

i

is

effectivity of the column for i-th component.
Total for this column includes average value for

the peaks listed.

reduced TP height, HETP/dp

The height of theoretical plate divided by parti-

cle size, called also reduced height, is calcu-

lated by formula:

H

i

= 1000

•

L / (N

i

dp).

where L is length of the column in mm, dp is

particle diameter in Pm.

asymmetry

Peak asymmetry A

s

is calculated at

1

/

10

of the

peak height as a ratio of width after the top of

the peak w

2

to the width before the top w

1

.

A

s

= w

2

/ w

1

response factor

Coefficient k

1

of the calibration curve.