Shivam Sinha
National Institute Of Technology (NIT), Surathkal
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Pragati Jaju
College Of Engineering (COEP), Pune
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11 Other formulas that you can solve using the same Inputs

Vapour phase mole fraction using Gamma/ phi formulation of VLE
Mole fraction of component in vapour phase=(Mole fraction of component in liquid phase*Activity coefficient*Saturated pressure)/(Fugacity coefficient*Total pressure) GO
Relation between equilibrium constant and with respect to mole fraction constant
Equilibrium constant=(Equilibrium constant for mole fraction*(Total pressure^Change in number of moles))/(([R]*Absolute temperature)^Change in number of moles) GO
Equilibrium mole fraction constant when equilibrium constant is given
Equilibrium constant for mole fraction=(Equilibrium constant*(([R]*Absolute temperature)^Change in number of moles))/(Total pressure^Change in number of moles) GO
Relation between equilibrium constant with respect to partial pressure and mole fraction
Equilibrium constant for partial pressure =Equilibrium constant for mole fraction*(Total pressure^Change in number of moles) GO
Equilibrium mole fraction constant when equilibrium partial pressure constant is given
Equilibrium constant for mole fraction=Equilibrium constant for partial pressure /(Total pressure^Change in number of moles) GO
Vapour phase mole fraction using Raoult's Law in VLE
Mole fraction of component in vapour phase=(Mole fraction of component in liquid phase*Saturated pressure)/Total pressure GO
exact normal shock-wave maximum coefficient of pressure
The maximum pressure coefficient=(2/(Specific Heat Ratio*(Mach Number^2)))*((Total pressure/Pressure)-1) GO
Maximum Pressure coefficient
The maximum pressure coefficient=(Total pressure-Pressure)/(0.5*Density*(Freestream Velocity)^2) GO
Mole fraction of a dissolved gas using Henry Law
Mole fraction of component in liquid phase=partial pressure/Henry law constant GO
Partial pressure using Henry Law
partial pressure=Henry law constant*Mole fraction of component in liquid phase GO
Molar humidity when partial pressure is given
Molar humidity=partial pressure/(Total pressure-partial pressure) GO

4 Other formulas that calculate the same Output

Liquid phase mole fraction using Gamma/ phi formulation of VLE
Mole fraction of component in liquid phase=(Mole fraction of component in vapour phase*Fugacity coefficient*Total pressure)/(Activity coefficient*Saturated pressure) GO
Liquid phase mole fraction using Modified Raoult's Law in VLE
Mole fraction of component in liquid phase=(Mole fraction of component in vapour phase*Total pressure)/(Activity coefficient*Saturated pressure) GO
Liquid phase mole fraction using Raoult's Law in VLE
Mole fraction of component in liquid phase=(Mole fraction of component in vapour phase*Total pressure)/Saturated pressure GO
Mole fraction of a dissolved gas using Henry Law
Mole fraction of component in liquid phase=partial pressure/Henry law constant GO

Liquid phase mole fraction using Henry Law in VLE Formula

Mole fraction of component in liquid phase=(Mole fraction of component in vapour phase*Total pressure)/Henry law constant
x=(y*P)/H
More formulas
Vapour phase mole fraction using Raoult's Law in VLE GO
Liquid phase mole fraction using Raoult's Law in VLE GO
Saturated pressure using Raoult's Law in VLE GO
Vapour phase mole fraction using Modified Raoult's Law in VLE GO
Total pressure using Raoult's Law in VLE GO
Vapour phase mole fraction using Henry Law in VLE GO
Total pressure using Modified Raoult's Law in VLE GO
Liquid phase mole fraction using Modified Raoult's Law in VLE GO
Activity coefficient using Modified Raoult's Law in VLE GO
Saturated pressure using Modified Raoult's Law in VLE GO
Total pressure using Henry Law in VLE GO
Henry law constant using Henry Law in VLE GO

Explain vapour liquid equilibrium (VLE).

The vapor–liquid equilibrium (VLE) describes the distribution of a chemical species between the vapor phase and a liquid phase. The concentration of vapor in contact with its liquid, especially at equilibrium, is often expressed in terms of vapor pressure, which will be a partial pressure (a part of the total gas pressure) if any other gas(es) are present with the vapor. The equilibrium vapor pressure of a liquid is in general strongly dependent on temperature. At vapor–liquid equilibrium, a liquid with individual components in certain concentrations will have an equilibrium vapor in which the concentrations or partial pressures of the vapor components have certain values depending on all of the liquid component concentrations and the temperature.

What are the limitations of Henry Law?

Henry law is only applicable when the molecules of the system are in a state of equilibrium. The second limitation is that it does not hold true when gases are placed under extremely high pressure. The third limitation that it is not applicable when the gas and the solution participate in chemical reactions with each other.

How to Calculate Liquid phase mole fraction using Henry Law in VLE?

Liquid phase mole fraction using Henry Law in VLE calculator uses Mole fraction of component in liquid phase=(Mole fraction of component in vapour phase*Total pressure)/Henry law constant to calculate the Mole fraction of component in liquid phase, The Liquid phase mole fraction using Henry Law in VLE formula is defined as the ratio of the product of the vapour phase mole fraction and the total pressure to the henry law constant of mixture or solution. Mole fraction of component in liquid phase and is denoted by x symbol.

How to calculate Liquid phase mole fraction using Henry Law in VLE using this online calculator? To use this online calculator for Liquid phase mole fraction using Henry Law in VLE, enter Mole fraction of component in vapour phase (y), Total pressure (P) and Henry law constant (H) and hit the calculate button. Here is how the Liquid phase mole fraction using Henry Law in VLE calculation can be explained with given input values -> 0.00025 = (0.5*100)/200000.

FAQ

What is Liquid phase mole fraction using Henry Law in VLE?
The Liquid phase mole fraction using Henry Law in VLE formula is defined as the ratio of the product of the vapour phase mole fraction and the total pressure to the henry law constant of mixture or solution and is represented as x=(y*P)/H or Mole fraction of component in liquid phase=(Mole fraction of component in vapour phase*Total pressure)/Henry law constant. The mole fraction of component in vapour phase can be defined as the ratio of the number of moles a component to the total number of moles of components present in the vapour phase, Total pressure is the total force that the gas exerts on the walls of its container and Henry law constant is a measure of the concentration of a chemical in air over its concentration in water.
How to calculate Liquid phase mole fraction using Henry Law in VLE?
The Liquid phase mole fraction using Henry Law in VLE formula is defined as the ratio of the product of the vapour phase mole fraction and the total pressure to the henry law constant of mixture or solution is calculated using Mole fraction of component in liquid phase=(Mole fraction of component in vapour phase*Total pressure)/Henry law constant. To calculate Liquid phase mole fraction using Henry Law in VLE, you need Mole fraction of component in vapour phase (y), Total pressure (P) and Henry law constant (H). With our tool, you need to enter the respective value for Mole fraction of component in vapour phase, Total pressure and Henry law constant and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
How many ways are there to calculate Mole fraction of component in liquid phase?
In this formula, Mole fraction of component in liquid phase uses Mole fraction of component in vapour phase, Total pressure and Henry law constant. We can use 4 other way(s) to calculate the same, which is/are as follows -
  • Mole fraction of component in liquid phase=partial pressure/Henry law constant
  • Mole fraction of component in liquid phase=(Mole fraction of component in vapour phase*Total pressure)/Saturated pressure
  • Mole fraction of component in liquid phase=(Mole fraction of component in vapour phase*Total pressure)/(Activity coefficient*Saturated pressure)
  • Mole fraction of component in liquid phase=(Mole fraction of component in vapour phase*Fugacity coefficient*Total pressure)/(Activity coefficient*Saturated pressure)
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