Raffinate Phase Solute Concentration for Single Ideal Stage Extraction Solution

STEP 0: Pre-Calculation Summary
Formula Used
Single Stage Mass Fraction of Solute in Raffinate = (Solute Free Feed Flowrate in Extraction/(Solute Free Feed Flowrate in Extraction+(Solute Free Extract Phase Flowrate in LLE*Distribution Coefficient of Solute)))*Mass Fraction of Solute in the Feed
X1 = (F'/(F'+(E'*KSolute)))*zC
This formula uses 5 Variables
Variables Used
Single Stage Mass Fraction of Solute in Raffinate - The Single Stage Mass Fraction of Solute in Raffinate Phase is the mass fraction of the solute in the raffinate phase on solute free basis after Single Stage LLE.
Solute Free Feed Flowrate in Extraction - (Measured in Kilogram per Second) - The Solute Free Feed Flowrate in Extraction is the flowrate of the carrier liquid to the liquid-liquid extraction operation for separation.
Solute Free Extract Phase Flowrate in LLE - (Measured in Kilogram per Second) - The Solute Free Extract Phase Flowrate in LLE is the flowrate of the extracting solvent after separation in liquid-liquid extraction operation.
Distribution Coefficient of Solute - The distribution coefficient of solute is defined as the concentration of solute in the extract phase divided by the concentration of solute in the raffinate phase.
Mass Fraction of Solute in the Feed - The Mass Fraction of Solute in the Feed is the mass fraction of the solute in the Feed to the Liquid-Liquid Extraction operation.
STEP 1: Convert Input(s) to Base Unit
Solute Free Feed Flowrate in Extraction: 110 Kilogram per Second --> 110 Kilogram per Second No Conversion Required
Solute Free Extract Phase Flowrate in LLE: 62 Kilogram per Second --> 62 Kilogram per Second No Conversion Required
Distribution Coefficient of Solute: 2.6 --> No Conversion Required
Mass Fraction of Solute in the Feed: 0.5 --> No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
X1 = (F'/(F'+(E'*KSolute)))*zC --> (110/(110+(62*2.6)))*0.5
Evaluating ... ...
X1 = 0.202802359882006
STEP 3: Convert Result to Output's Unit
0.202802359882006 --> No Conversion Required
FINAL ANSWER
0.202802359882006 0.202802 <-- Single Stage Mass Fraction of Solute in Raffinate
(Calculation completed in 00.004 seconds)

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Equilibrium Stage Calculations for Immiscible (Pure) Solvent and Carrier Liquid Calculators

Raffinate Phase Solute Concentration for N Number of Ideal Stage Extraction
​ LaTeX ​ Go N Stages Mass Fraction of Solute in Raffinate = ((Solute Free Feed Flowrate in Extraction/(Solute Free Feed Flowrate in Extraction+(Solute Free Extract Phase Flowrate in LLE*Distribution Coefficient of Solute)))^Number of Equilibrium Extraction Stages)*Mass Fraction of Solute in the Feed
Feed Solute Concentration for N-number of Ideal Stage Extraction
​ LaTeX ​ Go Mass Fraction of Solute in the Feed = N Stages Mass Fraction of Solute in Raffinate/((Solute Free Feed Flowrate in Extraction/(Solute Free Feed Flowrate in Extraction+(Solute Free Extract Phase Flowrate in LLE*Distribution Coefficient of Solute)))^Number of Equilibrium Extraction Stages)
Raffinate Phase Solute Concentration for Single Ideal Stage Extraction
​ LaTeX ​ Go Single Stage Mass Fraction of Solute in Raffinate = (Solute Free Feed Flowrate in Extraction/(Solute Free Feed Flowrate in Extraction+(Solute Free Extract Phase Flowrate in LLE*Distribution Coefficient of Solute)))*Mass Fraction of Solute in the Feed
Feed Solute Concentration for Single Ideal Stage Extraction
​ LaTeX ​ Go Mass Fraction of Solute in the Feed = Single Stage Mass Fraction of Solute in Raffinate/(Solute Free Feed Flowrate in Extraction/(Solute Free Feed Flowrate in Extraction+(Solute Free Extract Phase Flowrate in LLE*Distribution Coefficient of Solute)))

Important Formulas in Liquid Liquid Extraction Calculators

Distribution Coefficient of Carrier Liquid from Activity Coefficients
​ LaTeX ​ Go Distribution Coefficient of Carrier Liquid = Activity Coefficient of Carrier Liq in Raffinate/Activity Coefficient of Carrier Liquid in Extract
Distribution Coefficient of Carrier Liquid from Mass Fraction
​ LaTeX ​ Go Distribution Coefficient of Carrier Liquid = Mass Fraction of Carrier Liquid in the Extract/Mass Fraction of Carrier Liquid in the Raffinate
Distribution Coefficient of Solute from Activity Coefficient
​ LaTeX ​ Go Distribution Coefficient of Solute = Activity Coefficient of Solute in Raffinate/Activity Coefficient of Solute in Extract
Distribution Coefficient of Solute from Mass Fractions
​ LaTeX ​ Go Distribution Coefficient of Solute = Mass Fraction of Solute in the Extract/Mass Fraction of Solute in the Raffinate

Raffinate Phase Solute Concentration for Single Ideal Stage Extraction Formula

​LaTeX ​Go
Single Stage Mass Fraction of Solute in Raffinate = (Solute Free Feed Flowrate in Extraction/(Solute Free Feed Flowrate in Extraction+(Solute Free Extract Phase Flowrate in LLE*Distribution Coefficient of Solute)))*Mass Fraction of Solute in the Feed
X1 = (F'/(F'+(E'*KSolute)))*zC

What are the Assumptions for Ideal Extraction?

1. The Solvent and the carrier liquid are immiscible (mutually non-dissolving), this leads to complete recovery of carrier liquid in raffinate phase and complete recovery of extracting solvent in extract phase. 2. The Extraction Solvent Feed to the system is Pure (i.e. has no initial solute). 3. The Extract and Raffinate streams leaving the extraction stage are in equilibrium.

What is Liquid-Liquid Extraction?

Liquid–liquid extraction (LLE), also known as solvent extraction, is a method to separate compounds or metal complexes, based on their relative solubilities in two different immiscible liquids, usually water (polar) and an organic solvent (non-polar). There is a net transfer of one or more species from one liquid into another liquid phase, generally from aqueous to organic. The transfer is driven by chemical potential, i.e. once the transfer is complete, the overall system of chemical components that make up the solutes and the solvents are in a more stable configuration (lower free energy). The solvent that is enriched in solute(s) is called extract. The feed solution that is depleted in solute(s) is called the raffinate.

How to Calculate Raffinate Phase Solute Concentration for Single Ideal Stage Extraction?

Raffinate Phase Solute Concentration for Single Ideal Stage Extraction calculator uses Single Stage Mass Fraction of Solute in Raffinate = (Solute Free Feed Flowrate in Extraction/(Solute Free Feed Flowrate in Extraction+(Solute Free Extract Phase Flowrate in LLE*Distribution Coefficient of Solute)))*Mass Fraction of Solute in the Feed to calculate the Single Stage Mass Fraction of Solute in Raffinate, The Raffinate Phase Solute Concentration for Single Ideal Stage Extraction formula is defined as the mass fraction of solute in raffinate phase coming out of the single stage equilibrium extraction process as a function of the solute feed mass fraction. Single Stage Mass Fraction of Solute in Raffinate is denoted by X1 symbol.

How to calculate Raffinate Phase Solute Concentration for Single Ideal Stage Extraction using this online calculator? To use this online calculator for Raffinate Phase Solute Concentration for Single Ideal Stage Extraction, enter Solute Free Feed Flowrate in Extraction (F'), Solute Free Extract Phase Flowrate in LLE (E'), Distribution Coefficient of Solute (KSolute) & Mass Fraction of Solute in the Feed (zC) and hit the calculate button. Here is how the Raffinate Phase Solute Concentration for Single Ideal Stage Extraction calculation can be explained with given input values -> 0.202802 = (110/(110+(62*2.6)))*0.5.

FAQ

What is Raffinate Phase Solute Concentration for Single Ideal Stage Extraction?
The Raffinate Phase Solute Concentration for Single Ideal Stage Extraction formula is defined as the mass fraction of solute in raffinate phase coming out of the single stage equilibrium extraction process as a function of the solute feed mass fraction and is represented as X1 = (F'/(F'+(E'*KSolute)))*zC or Single Stage Mass Fraction of Solute in Raffinate = (Solute Free Feed Flowrate in Extraction/(Solute Free Feed Flowrate in Extraction+(Solute Free Extract Phase Flowrate in LLE*Distribution Coefficient of Solute)))*Mass Fraction of Solute in the Feed. The Solute Free Feed Flowrate in Extraction is the flowrate of the carrier liquid to the liquid-liquid extraction operation for separation, The Solute Free Extract Phase Flowrate in LLE is the flowrate of the extracting solvent after separation in liquid-liquid extraction operation, The distribution coefficient of solute is defined as the concentration of solute in the extract phase divided by the concentration of solute in the raffinate phase & The Mass Fraction of Solute in the Feed is the mass fraction of the solute in the Feed to the Liquid-Liquid Extraction operation.
How to calculate Raffinate Phase Solute Concentration for Single Ideal Stage Extraction?
The Raffinate Phase Solute Concentration for Single Ideal Stage Extraction formula is defined as the mass fraction of solute in raffinate phase coming out of the single stage equilibrium extraction process as a function of the solute feed mass fraction is calculated using Single Stage Mass Fraction of Solute in Raffinate = (Solute Free Feed Flowrate in Extraction/(Solute Free Feed Flowrate in Extraction+(Solute Free Extract Phase Flowrate in LLE*Distribution Coefficient of Solute)))*Mass Fraction of Solute in the Feed. To calculate Raffinate Phase Solute Concentration for Single Ideal Stage Extraction, you need Solute Free Feed Flowrate in Extraction (F'), Solute Free Extract Phase Flowrate in LLE (E'), Distribution Coefficient of Solute (KSolute) & Mass Fraction of Solute in the Feed (zC). With our tool, you need to enter the respective value for Solute Free Feed Flowrate in Extraction, Solute Free Extract Phase Flowrate in LLE, Distribution Coefficient of Solute & Mass Fraction of Solute in the Feed 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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