Ishan Gupta
Birla Institute of Technology & Science (BITS), Pilani
Ishan Gupta has created this Calculator and 50+ more calculators!

6 Other formulas that you can solve using the same Inputs

Molar Feed Rate of Reactants
Molar feed rate of key reactant A=Volumetric flow rate of feed to the reactor*Concentration of key reactant A in the feed GO
Volumetric flow rate of feed
Volumetric flow rate of feed to the reactor=Molar feed rate of key reactant A/Concentration of key reactant A in the feed GO
Molar flow rate at which reactant A leaves the system
Molar flow rate at which reactant A leaves the system=Molar feed rate of key reactant A*(1-Conversion) GO
Conversion of Reactant A (flow)
Conversion=1-Molar flow rate at which reactant A leaves the system/Molar feed rate of key reactant A GO
Space velocity of a reactor
Space Velocity=Volumetric flow rate of feed to the reactor/Volume of the reactor GO
Space time of the reactor
Space time=Volume of the reactor/Volumetric flow rate of feed to the reactor GO

Initial concentration of reactants in the feed Formula

Concentration of key reactant A in the feed=Molar feed rate of key reactant A/Volumetric flow rate of feed to the reactor
More formulas
Concentration of the reactant in zero-order reaction GO
Concentration of the reactant in first-order reaction GO
Concentration of the reactant in second-order reaction (only one reactant) GO
Molar Feed Rate of Reactants GO
Volumetric flow rate of feed GO
Space time of the reactor GO
Space velocity of a reactor GO
Conversion of Reactant A (batch) GO
Molar flow rate at which reactant A leaves the system GO
Conversion of Reactant A (flow) GO
Batch Reactor: Number of Moles Remaining (of reactant A) GO

What is feed concentration?

The concentration of the reactant in the feed gives the concentration of it being fed to the reactor.

How to Calculate Initial concentration of reactants in the feed?

Initial concentration of reactants in the feed calculator uses Concentration of key reactant A in the feed=Molar feed rate of key reactant A/Volumetric flow rate of feed to the reactor to calculate the Concentration of key reactant A in the feed, The initial concentration of reactants in the feed gives the concentration of it being fed to the reactor. Concentration of key reactant A in the feed and is denoted by CAo symbol.

How to calculate Initial concentration of reactants in the feed using this online calculator? To use this online calculator for Initial concentration of reactants in the feed, enter Molar feed rate of key reactant A (FAo) and Volumetric flow rate of feed to the reactor (vo) and hit the calculate button. Here is how the Initial concentration of reactants in the feed calculation can be explained with given input values -> 1 = 1/1.

FAQ

What is Initial concentration of reactants in the feed?
The initial concentration of reactants in the feed gives the concentration of it being fed to the reactor and is represented as CAo=FAo/vo or Concentration of key reactant A in the feed=Molar feed rate of key reactant A/Volumetric flow rate of feed to the reactor. The molar feed rate of key reactant A gives the number of moles of A being fed to the reactor per unit time and The volumetric flow rate of feed to the reactor gives the volume of the reactants stream being fed to the reactor per unit time.
How to calculate Initial concentration of reactants in the feed?
The initial concentration of reactants in the feed gives the concentration of it being fed to the reactor is calculated using Concentration of key reactant A in the feed=Molar feed rate of key reactant A/Volumetric flow rate of feed to the reactor. To calculate Initial concentration of reactants in the feed, you need Molar feed rate of key reactant A (FAo) and Volumetric flow rate of feed to the reactor (vo). With our tool, you need to enter the respective value for Molar feed rate of key reactant A and Volumetric flow rate of feed to the reactor and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
Share Image
Let Others Know
Facebook
Twitter
Reddit
LinkedIn
Email
WhatsApp
Copied!