In a
5-l. flask is placed
3 kg. (2860 cc., 50.0 moles) of glacial acetic acid and to this is added a weight of
ammonium carbonate corresponding to 400 g. (23.5 moles) of ammonia (Note
1). The flask is fitted with a
one-hole stopper holding an
efficient fractionating column 90 cm. long with
condenser and
receiver. An
air condenser 150–200 cm. long may be employed. The mixture in the flask is heated to gentle boiling and the flame so regulated that the rate of distillation does not exceed 180 cc. per hour. The distillation is continued in this way for eight to ten hours, until the temperature at the head of the column reaches 110°. The distillate, which is a mixture of
water and acetic acid, amounts to 1400–1500 cc. The receiver is changed, the flame under the flask is gradually increased, and the distillation is continued at about the same rate until the temperature at the head of the column rises to 140°. The distillate, which amounts to 500–700 cc., is largely
acetic acid and may be used in the next run.
The contents of the flask are transferred to a
2-l. flask for fractional distillation
(p. 130), having a
column 40–50 cm. long, and distilled under atmospheric pressure, using an air condenser. The fraction boiling below 210°, amounting to 250–300 cc., is collected separately. The material remaining in the flask is nearly pure
acetamide and may all be distilled,
1150–1200 g. passing over at 210–216°. By redistilling the fraction boiling below 210°, the yield may be increased to
1200–1250 g. (
87–90 per cent of the theoretical amount). The
acetamide thus obtained is pure enough for most purposes, but if a purer product is desired it may be recrystallized from a mixture of
benzene and
ethyl acetate;
1 l. of benzene and
300 cc. of ethyl acetate are used for
1 kg. of acetamide (Note
2). Colorless needles melting at
81° are thus obtained (Note
3). The solvent and the
acetamide it contains may be recovered by distillation.