Number of Moles of Reactant Fed to Constant Volume Batch Reactor Solution

STEP 0: Pre-Calculation Summary
Formula Used
Number of Moles of Reactant-A Fed = Volume of Solution*(Concentration of Reactant A+(Stoichiometric Coefficient of Reactant/Net Stoichiometric Coefficient)*((Total Number of Moles-Total Number of Moles Initially)/Volume of Solution))
NAo = Vsolution*(CA+(A/Δn)*((NT-N0)/Vsolution))
This formula uses 7 Variables
Variables Used
Number of Moles of Reactant-A Fed - (Measured in Mole) - The Number of Moles of Reactant-A Fed refers to the amount of reactant supplied.
Volume of Solution - (Measured in Cubic Meter) - The volume of solution gives the volume of the solution in cubic meter.
Concentration of Reactant A - (Measured in Mole per Cubic Meter) - Concentration of Reactant A refers to the amount of reactant A present in the solvent at any given point of time during the process.
Stoichiometric Coefficient of Reactant - Stoichiometric Coefficient of Reactant is the unit less number present before the reactant in a chemical equation.
Net Stoichiometric Coefficient - Net Stoichiometric Coefficient is the difference of sum of all product stoichiometric coefficients and sum of all reactant stoichiometric coefficients.
Total Number of Moles - (Measured in Mole) - Total Number of Moles is the total number of moles present in the system.
Total Number of Moles Initially - (Measured in Mole) - Total Number of Moles Initially is the number of moles present in the system before the required process.
STEP 1: Convert Input(s) to Base Unit
Volume of Solution: 10.2 Cubic Meter --> 10.2 Cubic Meter No Conversion Required
Concentration of Reactant A: 1.1 Mole per Cubic Meter --> 1.1 Mole per Cubic Meter No Conversion Required
Stoichiometric Coefficient of Reactant: 3 --> No Conversion Required
Net Stoichiometric Coefficient: 4 --> No Conversion Required
Total Number of Moles: 16 Mole --> 16 Mole No Conversion Required
Total Number of Moles Initially: 15.98 Mole --> 15.98 Mole No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
NAo = Vsolution*(CA+(A/Δn)*((NT-N0)/Vsolution)) --> 10.2*(1.1+(3/4)*((16-15.98)/10.2))
Evaluating ... ...
NAo = 11.235
STEP 3: Convert Result to Output's Unit
11.235 Mole --> No Conversion Required
FINAL ANSWER
11.235 Mole <-- Number of Moles of Reactant-A Fed
(Calculation completed in 00.004 seconds)

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Constant Volume Batch Reactor Calculators

Initial Partial Pressure of Product in Constant Volume Batch Reactor
​ LaTeX ​ Go Initial Partial Pressure of Product R = Partial Pressure of Product R-(Stoichiometric Coefficient of Product/Net Stoichiometric Coefficient)*(Total Pressure-Initial Total Pressure)
Reaction Rate in Constant Volume Batch Reactor
​ LaTeX ​ Go Reaction Rate = Net Partial Pressure/([R]*Temperature*Time Interval)
Temperature in Constant Volume Batch Reactor
​ LaTeX ​ Go Temperature = Net Partial Pressure/([R]*Reaction Rate*Time Interval)
Net Partial Pressure in Constant Volume Batch Reactor
​ LaTeX ​ Go Net Partial Pressure = Reaction Rate*[R]*Temperature*Time Interval

Important Formulas in Constant and Variable Volume Batch Reactor Calculators

Number of Moles of Reactant Fed to Constant Volume Batch Reactor
​ LaTeX ​ Go Number of Moles of Reactant-A Fed = Volume of Solution*(Concentration of Reactant A+(Stoichiometric Coefficient of Reactant/Net Stoichiometric Coefficient)*((Total Number of Moles-Total Number of Moles Initially)/Volume of Solution))
Initial Partial Pressure of Reactant in Constant Volume Batch Reactor
​ LaTeX ​ Go Initial Partial Pressure of Reactant A = Partial Pressure of Reactant A+(Stoichiometric Coefficient of Reactant/Net Stoichiometric Coefficient)*(Total Pressure-Initial Total Pressure)
Initial Partial Pressure of Product in Constant Volume Batch Reactor
​ LaTeX ​ Go Initial Partial Pressure of Product R = Partial Pressure of Product R-(Stoichiometric Coefficient of Product/Net Stoichiometric Coefficient)*(Total Pressure-Initial Total Pressure)
Net Partial Pressure in Constant Volume Batch Reactor
​ LaTeX ​ Go Net Partial Pressure = Reaction Rate*[R]*Temperature*Time Interval

Number of Moles of Reactant Fed to Constant Volume Batch Reactor Formula

​LaTeX ​Go
Number of Moles of Reactant-A Fed = Volume of Solution*(Concentration of Reactant A+(Stoichiometric Coefficient of Reactant/Net Stoichiometric Coefficient)*((Total Number of Moles-Total Number of Moles Initially)/Volume of Solution))
NAo = Vsolution*(CA+(A/Δn)*((NT-N0)/Vsolution))

What is constant volume batch reactor?

When we mention the constant-volume batch reactor we are really referring to the volume of reaction mixture, and not the volume of reactor. Thus, this term actually means a constant-density reaction system. Most liquid-phase reactions as well as all gas-phase reactions occurring in a constant-volume bomb fall in this class.

How to Calculate Number of Moles of Reactant Fed to Constant Volume Batch Reactor?

Number of Moles of Reactant Fed to Constant Volume Batch Reactor calculator uses Number of Moles of Reactant-A Fed = Volume of Solution*(Concentration of Reactant A+(Stoichiometric Coefficient of Reactant/Net Stoichiometric Coefficient)*((Total Number of Moles-Total Number of Moles Initially)/Volume of Solution)) to calculate the Number of Moles of Reactant-A Fed, The Number of Moles of Reactant Fed to Constant Volume Batch Reactor formula is defined as the number of moles of reactant that were present before reaction in constant volume batch reactor. Number of Moles of Reactant-A Fed is denoted by NAo symbol.

How to calculate Number of Moles of Reactant Fed to Constant Volume Batch Reactor using this online calculator? To use this online calculator for Number of Moles of Reactant Fed to Constant Volume Batch Reactor, enter Volume of Solution (Vsolution), Concentration of Reactant A (CA), Stoichiometric Coefficient of Reactant (A), Net Stoichiometric Coefficient (Δn), Total Number of Moles (NT) & Total Number of Moles Initially (N0) and hit the calculate button. Here is how the Number of Moles of Reactant Fed to Constant Volume Batch Reactor calculation can be explained with given input values -> 11.949 = 10.2*(1.1+(3/4)*((16-15.98)/10.2)).

FAQ

What is Number of Moles of Reactant Fed to Constant Volume Batch Reactor?
The Number of Moles of Reactant Fed to Constant Volume Batch Reactor formula is defined as the number of moles of reactant that were present before reaction in constant volume batch reactor and is represented as NAo = Vsolution*(CA+(A/Δn)*((NT-N0)/Vsolution)) or Number of Moles of Reactant-A Fed = Volume of Solution*(Concentration of Reactant A+(Stoichiometric Coefficient of Reactant/Net Stoichiometric Coefficient)*((Total Number of Moles-Total Number of Moles Initially)/Volume of Solution)). The volume of solution gives the volume of the solution in cubic meter, Concentration of Reactant A refers to the amount of reactant A present in the solvent at any given point of time during the process, Stoichiometric Coefficient of Reactant is the unit less number present before the reactant in a chemical equation, Net Stoichiometric Coefficient is the difference of sum of all product stoichiometric coefficients and sum of all reactant stoichiometric coefficients, Total Number of Moles is the total number of moles present in the system & Total Number of Moles Initially is the number of moles present in the system before the required process.
How to calculate Number of Moles of Reactant Fed to Constant Volume Batch Reactor?
The Number of Moles of Reactant Fed to Constant Volume Batch Reactor formula is defined as the number of moles of reactant that were present before reaction in constant volume batch reactor is calculated using Number of Moles of Reactant-A Fed = Volume of Solution*(Concentration of Reactant A+(Stoichiometric Coefficient of Reactant/Net Stoichiometric Coefficient)*((Total Number of Moles-Total Number of Moles Initially)/Volume of Solution)). To calculate Number of Moles of Reactant Fed to Constant Volume Batch Reactor, you need Volume of Solution (Vsolution), Concentration of Reactant A (CA), Stoichiometric Coefficient of Reactant (A), Net Stoichiometric Coefficient (Δn), Total Number of Moles (NT) & Total Number of Moles Initially (N0). With our tool, you need to enter the respective value for Volume of Solution, Concentration of Reactant A, Stoichiometric Coefficient of Reactant, Net Stoichiometric Coefficient, Total Number of Moles & Total Number of Moles Initially and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
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