Organic Syntheses, CV 3, 164
Submitted by Jonathan W. Williams and John A. Krynitsky.
Checked by Nathan L. Drake and Joseph Lann.
1. Procedure
One hundred and sixteen grams (126 ml., 1 mole) of n-caproic acid is placed in a
250-ml. gas-washing bottle. The bottle is supported in an
ice bath, and
0.50 to 0.55 mole of ketene is passed into the acid at a rate of approximately 0.45 mole per hour (Note
1) and (Note
2).
The resulting mixture is transferred to an apparatus for fractional distillation, and carefully fractionated, an
oil bath being used for heating (Note
3). A low-boiling fraction, consisting of
acetone containing some
ketene,
acetic acid, and a small quantity of
acetic anhydride, is removed at atmospheric pressure. As the distillation progresses the temperature of the oil bath is raised to 220° over a period of about 1 hour and held there until 3 hours has elapsed from the time distillation started (Note
4).
The distillation at atmospheric pressure is then discontinued, the liquid is allowed to cool somewhat, and distillation is continued at a pressure of 3–10 mm. After a fore-run of less than
20 g.,
n-caproic anhydride is collected (b.p.
109–112°/3 mm.,
118–121°/6 mm.). The yield is
86–95 g. (
80–87%) (Note
5).
2. Notes
1.
Ketene may be generated conveniently, at the proper rate, in the apparatus described by Williams and Hurd.
1
2. Addition of
1 mole of ketene per mole of acid does not increase the yield. Under these conditions more
acetic anhydride is found in the low-boiling fraction.
3. Submitters and checkers used a
column of the Whitmore-Lux type,
2 12 mm. in diameter, 50 cm. long, packed with glass helices, and provided with the usual jackets for heating. A less efficient column will serve in the preparation of
caproic anhydride but not in the preparation of
propionic anhydride or
butyric anhydride by the same method.
4. It is imperative to continue the distillation at atmospheric pressure until conversion of any mixed anhydride to
caproic anhydride is complete. The
acetic acid formed by this conversion comes off very slowly, and approximately 3 hours is necessary to complete the distillation at atmospheric pressure.
3. Discussion
This preparation is referenced from:
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