Chromatography · Lab Tools

Watch the math
work.

Four focused, browser‑based tools for chromatography scientists — a constraint solver for column & slurry maths, a curve‑fitting engine for open‑bed pressure‑flow prediction, and a purification‑protocol builder with an integrated chemical database. Drag the curve on the right: the fit re‑solves live.

No sign‑up·no install·runs offline

Pressure – Flow

Live fit

Drag the points. The Nelder–Mead solver re-fits as you move.

Critical
cm/h
Packing
cm/h
Running
cm/h

Four calculators. One workflow.

Each tool is a focused instrument — open one, enter your numbers, read the result.

Column & Slurry

A real‑time constraint‑solving engine for routine chromatography maths — column sizing, slurry preparation, residence time, and volumetric‑to‑linear flow conversion.

  • Volume, area & height
  • Slurry & packing factor
  • Residence time
  • Flow conversion
Model V = A·H  |  t = V/Q  |  QL = Qv·60/A
Open calculator

Open Bed

Enter your open‑bed pressure‑flow measurements and the Nelder‑Mead solver curve‑fits both the flow model and the bed‑compression model to predict critical, packing, and running parameters.

  • Exponential flow‑rise fit
  • Double‑exp compression
  • Nelder‑Mead optimiser
  • Critical / Packing / Running
Model y = fa·(1 − fbx) / (L·cp)
Open calculator

Buffer & Purification

A purification‑protocol builder with a bidirectional column‑parameter solver, step‑time calculation, and a chemical‑component database that auto‑fills molecular weight for buffer preparation.

  • Column ID, height & volume
  • Protocol steps with CV
  • Chemical database (90+)
  • Auto MW → weight
Model V = CV·Vcol  |  W = C·MW·V
Open calculator

Buffer Recipe

Design a buffer to a target pH with the Henderson–Hasselbalch equation. Pick a buffer system and a preparation method — weigh both forms, titrate with NaOH/HCl, or mix stock solutions — and get a step‑by‑step recipe.

  • 27 preset systems + custom
  • pH, concentration & volume
  • 4 preparation methods
  • Temperature & ionic strength
Model pH = pKa + log([A]/[HA])
Open calculator

Disclaimer. This calculator is designed as a supportive tool for downstream processing (DSP) and preparative chromatography scientists. It is intended to assist with calculations and should not supersede or replace your facility's internal protocols, standard operating procedures (SOPs), or official guidelines.

While we have made every effort to verify the accuracy of the formulas and results, the potential for calculation errors exists. Please verify critical parameters and exercise professional judgment when interpreting the outputs.

We are committed to continuously improving this tool. If you notice any discrepancies, have suggestions, or would like to share feedback, please contact the development team.