Flow - Molar Converter
Comprehensive Flow – Molar Converter
Molar flow rate measures the number of moles of a substance passing through a given area per unit time. Our Flow – Molar Converter provides a wide range of units—from examol/second down to attomol/second and time-scaled units like mol/min, mol/h, and mol/d—ensuring you can accurately perform conversions for chemical process calculations, reaction engineering, and other scientific applications.
What Units Are Covered?
Our converter supports a complete range of molar flow units, with conversion factors defined relative to mol/second [mol/s]:
Direct Units:
Mol/second [mol/s] (base unit)
Examol/second [Emol/s] (1 Emol/s = 1.0E+18 mol/s)
Petamol/second [Pmol/s] (1 Pmol/s = 1.0E+15 mol/s)
Teramol/second [Tmol/s] (1 Tmol/s = 1.0E+12 mol/s)
Gigamol/second [Gmol/s] (1 Gmol/s = 1.0E+9 mol/s)
Megamol/second [Mmol/s] (1 Mmol/s = 1.0E+6 mol/s)
Kilomol/second [kmol/s] (1 kmol/s = 1000 mol/s)
Hectomol/second [hmol/s] (1 hmol/s = 100 mol/s)
Dekamol/second [damol/s] (1 damol/s = 10 mol/s)
Decimol/second [dmol/s] (1 dmol/s = 0.1 mol/s)
Centimol/second [cmol/s] (1 cmol/s = 0.01 mol/s)
Millimol/second [mmol/s] (1 mmol/s = 0.001 mol/s)
Micromol/second [µmol/s] (1 µmol/s = 1.0E-6 mol/s)
Nanomol/second [nmol/s] (1 nmol/s = 1.0E-9 mol/s)
Picomol/second [pmol/s] (1 pmol/s = 1.0E-12 mol/s)
Femtomol/second [fmol/s] (1 fmol/s = 1.0E-15 mol/s)
Attomol/second [amol/s] (1 amol/s = 1.0E-18 mol/s)
Time-Scaled Units:
Mol/minute [mol/min] (1 mol/min = 0.0166666667 mol/s)
Mol/hour [mol/h] (1 mol/h = 0.0002777778 mol/s)
Mol/day [mol/d] (1 mol/d = 1.15741E-5 mol/s)
Millimol/minute [mmol/min], Millimol/hour [mmol/h], Millimol/day [mmol/d]
Kilomol/minute [kmol/min], Kilomol/hour [kmol/h], Kilomol/day [kmol/d]
How Does It Work?
Our converter uses a two-step process:
Convert to Base Unit:
The input value is first converted to mol/second using the conversion factor of the selected “From” unit.Convert to Target Unit:
The mol/second value is then converted to the desired “To” unit using its corresponding conversion factor.
This approach ensures precise and consistent conversions for all your molar flow calculations.