A solution of
200 g. (3.6 moles) of potassium hydroxide (Note
1) in 200 cc. of water is placed in a
2-l. round-bottomed flask fitted with a
reflux condenser, a
mechanical stirrer, and a
separatory funnel. The stirrer is started, and to the hot solution
200 g. (0.92 mole) of ethyl sec.-butylmalonate (Note
2) is added slowly. The solution refluxes quietly owing to the heat of saponification. After all the
sec.-butylmalonic ester has been added, the solution is boiled gently for two hours. It is then diluted with 200 cc. of water, and 200 cc. of liquid is distilled from the solution in order to remove all the alcohol formed during the saponification (Note
3).
The residual liquid in the flask is allowed to cool, and a cold solution of
320 g. (3.3 moles) of concentrated sulfuric acid (Note
4) in 450 cc. of water is added through the separatory funnel. This should be done slowly and with stirring in order to prevent foaming. The solution becomes hot and may reflux spontaneously. After all the
sulfuric acid has been added the solution is refluxed for about three hours. A layer of organic acid appears and the reflux condenser is replaced by an
automatic separator (Note
5). The solution is distilled with the separator attached, and the aqueous portion is returned to the distilling flask. This operation is continued until practically all the organic acid has been driven over; from ten to fifteen hours is required. At the end, about 100 cc. of water is collected in the separator and extracted with
ether in order to remove the dissolved acid (Note
6). The
ether is distilled; the crude acid is mixed with an equal volume of dry
benzene (Note
7) and distilled from a
modified Claisen flask with a fractionating side arm.
Benzene and water distil first and then
3-methylpentanoic acid distils at
193–196°/743 mm. The yield is
66–69 g. (
62–65 per cent of the theoretical amount) (Note
8).