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Recovery of Solute in Liquid-Liquid Extraction Formula

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The Recovery of Solute in Liquid-Liquid Extraction is the fraction of solute recovered in the liquid-liquid extraction process. Check FAQs

R solute = 1 - (\frac{x C \cdot R}{z C \cdot F})

R_solute - Recovery of Solute in Liquid-Liquid Extraction?x_C - Mass Fraction of Solute in the Raffinate?R - Raffinate Phase Flowrate in LLE?z_C - Mass Fraction of Solute in the Feed?F - Feed Flowrate in Liquid-Liquid Extraction?

Recovery of Solute in Liquid-Liquid Extraction Example

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Here is how the Recovery of Solute in Liquid-Liquid Extraction equation looks like with Values.

Here is how the Recovery of Solute in Liquid-Liquid Extraction equation looks like with Units.

Here is how the Recovery of Solute in Liquid-Liquid Extraction equation looks like.

0.8885 = 1 - (\frac{0.1394 \cdot 40}{0.5 \cdot 100})

0.8885 = 1 - (\frac{0.1394 \cdot 40mol/s}{0.5 \cdot 100mol/s})

0.8885 = 1 - (\frac{0.1394 \cdot 40}{0.5 \cdot 100})

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Recovery of Solute in Liquid-Liquid Extraction Solution

Follow our step by step solution on how to calculate Recovery of Solute in Liquid-Liquid Extraction?

FIRST Step Consider the formula

R solute = 1 - (\frac{x C \cdot R}{z C \cdot F})

Next Step Substitute values of Variables

∴

R solute = 1 - (\frac{0.1394 \cdot 40mol/s}{0.5 \cdot 100mol/s})

Next Step Prepare to Evaluate

∴

R solute = 1 - (\frac{0.1394 \cdot 40}{0.5 \cdot 100})

Next Step Evaluate

∴

R solute = 0.88848

LAST Step Rounding Answer

∴

R solute = 0.8885

Recovery of Solute in Liquid-Liquid Extraction Formula Elements

Variables

Recovery of Solute in Liquid-Liquid Extraction

The Recovery of Solute in Liquid-Liquid Extraction is the fraction of solute recovered in the liquid-liquid extraction process.

Symbol: R_solute

Measurement: NAUnit: Unitless

Note: Value should be less than 1.

Formulas to find Recovery of Solute in Liquid-Liquid Extraction

Mass Fraction of Solute in the Raffinate

The Mass Fraction of Solute in the Raffinate Phase is the mass fraction of the solute in the raffinate phase after separation of the ternary mixture.

Symbol: x_C

Measurement: NAUnit: Unitless

Note: Value should be less than 1.

Formulas to find Mass Fraction of Solute in the Raffinate

Raffinate Phase Flowrate in LLE

The Raffinate Phase Flowrate in LLE is the flowrate of the raffinate phase after separation in liquid liquid extraction operation.

Symbol: R

Measurement: Molar Flow RateUnit: mol/s

Note: Value should be greater than 0.

Formulas to find Raffinate Phase Flowrate in LLE

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.

Symbol: z_C

Measurement: NAUnit: Unitless

Note: Value should be less than 1.

Formulas to find Mass Fraction of Solute in the Feed

Feed Flowrate in Liquid-Liquid Extraction

The Feed Flowrate in Liquid-Liquid Extraction is the flowrate of the feed to the liquid liquid extraction operation for separation.

Symbol: F

Measurement: Molar Flow RateUnit: mol/s

Note: Value should be greater than 0.

Formulas to find Feed Flowrate in Liquid-Liquid Extraction

Other formulas in Distribution Coefficient, Selectivity and Mass Ratio category

Go Distribution Coefficient of Carrier Liquid from Activity Coefficients

K CarrierLiq = \frac{Υa R}{Υa E}

Go Distribution Coefficient of Carrier Liquid from Mass Fraction

K CarrierLiq = \frac{y A}{x A}

Go Distribution Coefficient of Solute from Activity Coefficient

K Solute = \frac{Υc R}{Υc E}

Go Distribution Coefficient of Solute from Mass Fractions

K Solute = \frac{y C}{x C}

How to Evaluate Recovery of Solute in Liquid-Liquid Extraction?

Recovery of Solute in Liquid-Liquid Extraction evaluator uses Recovery of Solute in Liquid-Liquid Extraction = 1-((Mass Fraction of Solute in the Raffinate*Raffinate Phase Flowrate in LLE)/(Mass Fraction of Solute in the Feed*Feed Flowrate in Liquid-Liquid Extraction)) to evaluate the Recovery of Solute in Liquid-Liquid Extraction, The Recovery of Solute in Liquid-Liquid Extraction formula is defined as ratio of solute in the extract phase to that in the feed. Recovery of Solute in Liquid-Liquid Extraction is denoted by R_solute symbol.

How to evaluate Recovery of Solute in Liquid-Liquid Extraction using this online evaluator? To use this online evaluator for Recovery of Solute in Liquid-Liquid Extraction, enter Mass Fraction of Solute in the Raffinate (x_C), Raffinate Phase Flowrate in LLE (R), Mass Fraction of Solute in the Feed (z_C) & Feed Flowrate in Liquid-Liquid Extraction (F) and hit the calculate button.

FAQs on Recovery of Solute in Liquid-Liquid Extraction

What is the formula to find Recovery of Solute in Liquid-Liquid Extraction?

The formula of Recovery of Solute in Liquid-Liquid Extraction is expressed as Recovery of Solute in Liquid-Liquid Extraction = 1-((Mass Fraction of Solute in the Raffinate*Raffinate Phase Flowrate in LLE)/(Mass Fraction of Solute in the Feed*Feed Flowrate in Liquid-Liquid Extraction)). Here is an example- 0.88848 = 1-((0.1394*40)/(0.5*100)).

How to calculate Recovery of Solute in Liquid-Liquid Extraction?

With Mass Fraction of Solute in the Raffinate (x_C), Raffinate Phase Flowrate in LLE (R), Mass Fraction of Solute in the Feed (z_C) & Feed Flowrate in Liquid-Liquid Extraction (F) we can find Recovery of Solute in Liquid-Liquid Extraction using the formula - Recovery of Solute in Liquid-Liquid Extraction = 1-((Mass Fraction of Solute in the Raffinate*Raffinate Phase Flowrate in LLE)/(Mass Fraction of Solute in the Feed*Feed Flowrate in Liquid-Liquid Extraction)).

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Recovery of Solute in Liquid-Liquid Extraction Formula

Recovery of Solute in Liquid-Liquid Extraction Example

Recovery of Solute in Liquid-Liquid Extraction Solution

Recovery of Solute in Liquid-Liquid Extraction Formula Elements

Other formulas in Distribution Coefficient, Selectivity and Mass Ratio category

How to Evaluate Recovery of Solute in Liquid-Liquid Extraction?

FAQs on Recovery of Solute in Liquid-Liquid Extraction

Variable Name