A
5-l. round-bottomed flask, fitted with an
efficient mechanical stirrer (Note
1), a
reflux condenser, the upper end of which is protected by a
calcium chloride tube, and a
separatory funnel, is arranged for heating on a
steam bath.
In the flask is placed
2.5 l. of absolute alcohol (Note
2), and then there is added gradually
115 g. (5 atoms) of metallic sodium cut into pieces. This requires three to four hours. After all the
sodium has dissolved,
650 g. (5 moles) of ethyl acetoacetate (Note
3) is added. The stirrer is started and the solution heated to gentle boiling. To the boiling solution
750 g. (5.47 moles) of n-butyl bromide (Note
4) is added over a period of about two hours. The refluxing and stirring are continued until a sample of the solution is neutral to moist litmus paper. The time varies from six to ten hours.
When the reaction is complete, the mixture is cooled, and the solution is decanted from the
sodium bromide. The salt is washed with
100 cc. of absolute alcohol, and the washings are added to the main solution. The alcohol (Note
5) is separated from the substituted
acetoacetic ester by distilling through a
short column from a
steam bath. The crude residue after removal of the alcohol weighs about
925 g. It is satisfactory for hydrolysis to give the corresponding ketone
(p. 351). If the pure ester is desired, the crude product is distilled under reduced pressure. The yield of product boiling at
112–117°/16 mm. is
642–672 g. (
69–72 per cent of the theoretical amount) (Note
6).