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Ratio of concentration = Ratio of solubility  The added solvent must be more volatile than the desired component.  It must also specifically dissolve.

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Presentation on theme: "Ratio of concentration = Ratio of solubility  The added solvent must be more volatile than the desired component.  It must also specifically dissolve."— Presentation transcript:

1 Ratio of concentration = Ratio of solubility  The added solvent must be more volatile than the desired component.  It must also specifically dissolve the desired component.  The component must have a greater tendency to dissolve in the added solvent than in the solution. K D = C O = S O = C H20 S H20

2 A substance X can be isolated from its plant source by solvent extraction. However, a minor component Y has an appreciable solubility in the solvents that may be used. Given below are the solubilities of X and Y in different solvents: SolventT, ˚CSolubility in 100g solvent at 28˚C XY Ethyl methyl ketone8065 Cyclohexane8182 Benzene8051.8 CCl 4 788.751.25 Water10021

3 a. Which is the best extracting solvent? CCl 4 is the best extracting solvent it dissolves only a little amount of Y relative to the X component needed. It also dissolves the greatest amount of X among the choices. It is immiscible with water, which happens to be the solvent in the solution.

4 ◦ Mathematically speaking, the choice relies on the K D and the best result is the one with the highest K D. The K D values with respect to water as calculated are the following: ◦ From this table, it is evident that CCl 4 is the yields the highest ratio, ergo the best possible choice as the extracting solvent. SolventKDKD Ethyl methyl ketone3 Cyclohexane4 Benzene2.5 CCl 4 4.375

5 b. Given a saturated aqueous solution of X and Y and using 100mL of solvent in (1), determine the percent recovery of X in a single extraction. K D = S CCl4 = 8.75g/100g = 4.375 S H20 2.00g/100g K D = C CCl4 = Xg/100ml = 4.375 C H20 (2.00g-Xg)/100ml X = 1.63g % rec = X pure x 100% = 1.63g x 100% = 81.4% X impure 2.00g

6 c. Repeat (b) using 50mL of solvent in each of the two successive extractions. Determine the percent recovery and compare this with (b). K D = S CCl4 = 8.75g/100g = 4.375 S H20 2.00g/100g First extraction: K D = C CCl4 = Xg/50ml = 4.375 C H20 (2.00g-Xg)/100ml X = 1.37g

7 Second extraction: K D = C CCl4 = Xg/50ml = 4.375 C H20 (0.63g-Xg)/100ml X = 0.43g % rec = X pure x 100%= (1.37+0.43)g x 100%= 90.0% X impure 2.00g In the double extraction, the percent recovery is comparably higher, considering the same amount of the solvent added.

8 d. What is the percent recovery of the minor component in a single extraction using 100mL of the solvent in (a)? K D = S CCl4 = 1.25g/100g = 1.25 S H20 1.00g/100g K D = C CCl4 = Yg/100g = 1.25 C H20 (1.00g-Yg)/100g Y = 0.56 % rec = Y pure x 100% = 0.56g x 100% = 56% Y impure 1.00g

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