Advertisement
Chromatography Forum

Scaling Up

Discussions about HPLC, CE, TLC, SFC, and other "liquid phase" separation techniques.

5 posts Page 1 of 1
Topic locked

Scaling Up

avatar
ChemicalBond007
I am currently using this column.

My peaks are resolving very well, separated by 20 seconds. What I want to do is separate more material.

I want to use this column for the scale up. Note the same stationary material.


If I properly scale up the flow rate, sample concentration, and inject volume, do you think it will work?

Any suggestions will be appreciated.

avatar
tom jupille
Site Admin
It should.

The general approach is to do your loading study on the small column (keep increasing the mass on column until the separation gets as bad as you can live with). Then go to the bigger column.

Scale the flow rate to the cross-sectional areas of the columns.
Scale the injection volume and mass load to the volume of the columns.
-- Tom Jupille
LC Resources / Separation Science Associates
tjupille@lcresources.com
+ 1 (925) 297-5374

avatar
Mark Tracy
Sure. Since the particle sizes are the same, it makes the math simpler. Scale the flow rate by (d2/d1)^2. Find the largest injection volume and sample concentration that you can stand on the smaller column, then scale the injection volume by (d2/d1)^2 * sqrt(L2/L1). You may be able to push the longer column a bit more on injection volume. The retention times will scale up by L2/L1. You may want to use a less sensitive wavelength for the UV detector. 0.010" capillaries should be OK. If the method is isocratic, you are finished. If it is a gradient, you have some more calculations to do.
Mark Tracy
Senior Chemist
Dionex Corp.

avatar
Uwe Neue
I think that prep scaling is much simpler than most people think.

Rule #1: scale everything by the column volume: injection volume, flow rate, gradient volume (if you are running a gradient).

Rule #2: if you can’t do that due to limitations with your pump (either pressure or flow rate), work at the highest flow rate that your pump allows, but keep the scaling of the injection volume and the gradient volume. Since you will be working at a higher plate count, you may actually be able to inject a bit more, depending on how much you are overloading the analytical column.

avatar
ChemicalBond007
Thanks for all the help.

I have the data on the maximum load per injection. I will let you all know soon.
Topic locked
5 posts Page 1 of 1
Return to “Liquid Chromatography”

Who is online

In total there is 1 user online :: 0 registered, 0 hidden and 1 guest (based on users active over the past 5 minutes)
Most users ever online was 4374 on Fri Oct 03, 2025 12:41 am
Users browsing this forum: No registered users and 1 guest

Latest Blog Posts from Separation Science

Separation Science offers free learning from the experts covering methods, applications, webinars, eSeminars, videos, tutorials for users of liquid chromatography, gas chromatography, mass spectrometry, sample preparation and related analytical techniques.

Subscribe to our eNewsletter with daily, weekly or monthly updates: Food & Beverage, Environmental, (Bio)Pharmaceutical, Bioclinical, Liquid Chromatography, Gas Chromatography and Mass Spectrometry.

Liquid Chromatography

    Gas Chromatography

      Mass Spectrometry