Submitted by Julian W. Hill and W. L. McEwen.
Checked by Reynold C. Fuson and Charles F. Woodward.
1. Procedure
Five hundred grams of castor oil (Note
1) is added to a solution of
100 g. of potassium hydroxide in
1 l. of 95 per cent alcohol. The mixture is placed in a
3-l. flask equipped with a
reflux condenser and is boiled for three hours. The solution is then poured into 3 l. of water and acidified by the addition of a solution of
100 cc. of concentrated sulfuric acid in 300 cc. of water. The acid which separates is washed twice with warm water, shaken intermittently for one hour with
100 g. of anhydrous magnesium sulfate, and then filtered with suction. The yield of crude
ricinoleic acid thus obtained is
480 g. The acid should be oxidized at once (Note
2).
Two hundred and forty grams (0.8 mole) of the dried ricinoleic acid is dissolved in 1.6 l. of water containing
64 g. of potassium hydroxide. A
12-l. round-bottomed flask is equipped with a
powerful mechanical stirrer, and in it are placed
625 g. (3.5 moles) of potassium permanganate and 7.5 l. of water at 35°. The mixture is stirred to facilitate solution of the permanganate, and, if necessary, heat is applied to maintain the temperature at 35°. When the permanganate has completely dissolved, the alkaline solution of
ricinoleic acid is added in a single portion with vigorous stirring (Note
3). The temperature rises rapidly to about 75°. Stirring is continued for a half hour, or until a test portion added to water shows no permanganate color.
The oxidation mixture is now divided into two equal portions and each portion is treated as follows: To the mixture is added a solution of
200 g. of concentrated sulfuric acid in 600 cc. of water (Note
4). The mixture is heated on a
steam bath for 15 minutes to coagulate the
manganese dioxide which is filtered while still very hot (Note
5). After filtration the
manganese dioxide is placed in a
4-l. beaker and boiled with 2 l. of water to dissolve any
azelaic acid that may adhere to it. This mixture is filtered while hot, and the filtrate is added to the main portion.
The combined filtrates and washings for the two portions of the oxidation mixture are evaporated to a volume of about 4 l., and this solution is cooled in ice. The crystals which separate are filtered with suction, washed once with cold water, and dried. The yield is 70–80 g. of material having a melting point that may vary from 95 to 105°.
The crude substance is dissolved in 1.2 l. of boiling water, filtered with suction, and allowed to cool. The crystals are filtered, washed with water, and dried. There is obtained
48–55 g. of product (
32–36 per cent of the theoretical amount, based upon the amount of crude
ricinoleic acid taken for oxidation). The melting point of the purified
azelaic acid is
104–106°.
2. Notes
1. The castor oil used was a commercial grade designated as "Crystal." It was obtained from the Baker Castor Oil Company, New York City.
2. If
ricinoleic acid is allowed to stand, polymerization occurs; Baker and Ingold report
1 that the polymerized acid gives very poor yields in the oxidation by
nitric acid.
3. At this point the mixture tends to froth quite badly, and, if stirring is not vigorous, material may be lost. Addition of a small quantity of
ether or benzene may be resorted to but is unnecessary if stirring is efficient.
4. The acid must be added slowly and carefully to prevent too rapid evolution of
carbon dioxide with consequent foaming. If possible, each of the two portions should be placed in a
large container, such as a 12-l. flask.
5. For this purpose it is advisable to use
three 20-cm. Büchner funnels supported in
2-l. filter flasks.
3. Discussion
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