Applied Pressure Driving Force Based on Permeability of Membrane Calculator

✖Flux through membrane is defined as the rate of movement or transfer of a substance per unit area across a porous barrier known as a membrane.ⓘ Flux through Membrane [J_wM]			+10% -10%
✖Water permeability through membrane is the ability of a material to allow water to pass through it. It is a measure of how easily water can flow through a material's pores.ⓘ Water Permeability Through Membrane [L_p]			+10% -10%

✖Applied Pressure Driving Force is defined as the force or pressure that is intentionally exerted or applied to induce or facilitate process.ⓘ Applied Pressure Driving Force Based on Permeability of Membrane [ΔP_m]

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Applied Pressure Driving Force Based on Permeability of Membrane Solution

STEP 0: Pre-Calculation Summary

Formula Used

Applied Pressure Driving Force = Flux through Membrane/Water Permeability Through Membrane
ΔP_m = J_wM/L_p
This formula uses 3 Variables

Variables Used

Applied Pressure Driving Force - (Measured in Pascal) - Applied Pressure Driving Force is defined as the force or pressure that is intentionally exerted or applied to induce or facilitate process.
Flux through Membrane - (Measured in Cubic Meter per Square Meter per Second) - Flux through membrane is defined as the rate of movement or transfer of a substance per unit area across a porous barrier known as a membrane.
Water Permeability Through Membrane - (Measured in Cubic Meter per Square Meter per Second per Pascal) - Water permeability through membrane is the ability of a material to allow water to pass through it. It is a measure of how easily water can flow through a material's pores.

STEP 1: Convert Input(s) to Base Unit

Flux through Membrane: 0.0069444 Cubic Meter per Square Meter per Second --> 0.0069444 Cubic Meter per Square Meter per Second No Conversion Required
Water Permeability Through Membrane: 2.337E-08 Cubic Meter per Square Meter per Second per Pascal --> 2.337E-08 Cubic Meter per Square Meter per Second per Pascal No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

ΔP_m = J_wM/L_p --> 0.0069444/2.337E-08

Evaluating ... ...

ΔP_m = 297150.192554557

STEP 3: Convert Result to Output's Unit

297150.192554557 Pascal --> No Conversion Required

FINAL ANSWER

297150.192554557 ≈ 297150.2 Pascal <-- Applied Pressure Driving Force

(Calculation completed in 00.020 seconds)

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< Basics of Membrane Separation Processes Calculators

Hagen Poiseuille Based Flux for Membrane Separation

LaTeX Go Flux through Membrane = (Membrane Porosity*Pore Diameter^2*Applied Pressure Driving Force)/(32*Liquid Viscosity*Tortuosity*Membrane Thickness)

Liquid Viscosity based on Membrane Resistance

LaTeX Go Liquid Viscosity = Applied Pressure Driving Force/(Membrane Flow Resistance of Unit Area*Flux through Membrane)

Membrane Flux Based on Resistance

LaTeX Go Flux through Membrane = Applied Pressure Driving Force/(Membrane Flow Resistance of Unit Area*Liquid Viscosity)

Resistance to flow in Membranes

LaTeX Go Membrane Flow Resistance of Unit Area = Applied Pressure Driving Force/(Liquid Viscosity*Flux through Membrane)

Applied Pressure Driving Force Based on Permeability of Membrane Formula

LaTeX Go

Applied Pressure Driving Force = Flux through Membrane/Water Permeability Through Membrane
ΔP_m = J_wM/L_p

What is Permeability?

Permeability is a fundamental property of materials and substances that describes their ability to allow the passage or flow of another substance, typically a fluid or gas, through them.

How to Calculate Applied Pressure Driving Force Based on Permeability of Membrane?

Applied Pressure Driving Force Based on Permeability of Membrane calculator uses Applied Pressure Driving Force = Flux through Membrane/Water Permeability Through Membrane to calculate the Applied Pressure Driving Force, Applied Pressure Driving Force Based on Permeability of Membrane refers to the force that drives the movement of a substance across a semipermeable membrane due to a difference in pressure applied on either side of the membrane. Applied Pressure Driving Force is denoted by ΔP_m symbol.

How to calculate Applied Pressure Driving Force Based on Permeability of Membrane using this online calculator? To use this online calculator for Applied Pressure Driving Force Based on Permeability of Membrane, enter Flux through Membrane (J_wM) & Water Permeability Through Membrane (L_p) and hit the calculate button. Here is how the Applied Pressure Driving Force Based on Permeability of Membrane calculation can be explained with given input values -> 297150.2 = 0.0069444/2.337E-08.

FAQ

What is Applied Pressure Driving Force Based on Permeability of Membrane?

Applied Pressure Driving Force Based on Permeability of Membrane refers to the force that drives the movement of a substance across a semipermeable membrane due to a difference in pressure applied on either side of the membrane and is represented as ΔP_m = J_wM/L_p or Applied Pressure Driving Force = Flux through Membrane/Water Permeability Through Membrane. Flux through membrane is defined as the rate of movement or transfer of a substance per unit area across a porous barrier known as a membrane & Water permeability through membrane is the ability of a material to allow water to pass through it. It is a measure of how easily water can flow through a material's pores.

How to calculate Applied Pressure Driving Force Based on Permeability of Membrane?

Applied Pressure Driving Force Based on Permeability of Membrane refers to the force that drives the movement of a substance across a semipermeable membrane due to a difference in pressure applied on either side of the membrane is calculated using Applied Pressure Driving Force = Flux through Membrane/Water Permeability Through Membrane. To calculate Applied Pressure Driving Force Based on Permeability of Membrane, you need Flux through Membrane (J_wM) & Water Permeability Through Membrane (L_p). With our tool, you need to enter the respective value for Flux through Membrane & Water Permeability Through Membrane 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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