Organic Syntheses, CV 3, 30
[I. PYROLYSIS METHOD]
Submitted by W. P. Ratchford
Checked by Arthur C. Cope, William R. Armstrong, and James J. Ryan.
1. Procedure
A
90-cm. length of 28-mm. (outside diameter) Pyrex tubing packed with pieces of Pyrex tubing (Note
1) is mounted vertically in an
electric furnace (Note
2) capable of maintaining a temperature of 585–595°. A
250-ml. long-stemmed separatory funnel is connected to the upper end of the tubing with a stopper (Note
3), and the lower end is connected to a
500-ml. three-necked flask immersed in ice water. The flask, which serves as a receiver, is attached to a
50-cm. water-cooled reflux condenser, which in turn is connected by short lengths of rubber tubing to two traps in series which are immersed in a Dry Icetrichloroethylene mixture. The exit tube of the second trap is vented to a
hood. From
0.2 to 0.3 g. of hydroquinone is placed in the receiver, together with a few pieces of Dry Ice which serve to displace air from the entire apparatus. The third neck of the receiver is stoppered.
The furnace is heated to 590° (Note
4), and after the air has been displaced
200 g. (216 ml., 2 moles) of ethyl acrylate (Note
5) is placed in the separatory funnel and admitted to the reaction tube at a rate of about 90 drops a minute (Note
3), so that the addition requires about 2 hours. At the end of the addition the contents of the receiver and the small amount of liquid in the traps are combined. The total weight of crude
acrylic acid containing some
ethyl acrylate is
126–136 g.
The crude product is placed in a
250-ml. flask containing a
capillary inlet tube through which
carbon dioxide is admitted.
Ten grams of hydroquinone and
15 g. of diphenyl ether are added, and the flask is attached to a suitable
fractionating column (Note
6). The product is fractionated carefully (Note
7) at 135 mm. pressure. The pressure is lowered gradually when most of the
ethyl acrylate has distilled, and at about 70°/90 mm. the receiver is changed. The first fraction (mostly
ethyl acrylate) amounts to 9–10 g. The pressure is lowered further to 50 mm., and the
acrylic acid is distilled fairly rapidly, without reflux, at
69–71°/50 mm. The
acrylic acid fraction weighs
108–116 g. and is
95–97% pure according to acidimetric titration. The yield is
68–75% based upon
100% acrylic acid content (Note
8) and (Note
9).
If the
acrylic acid is not to be used at once, it is stabilized by the addition of
hydroquinone and is stored in a refrigerator.
2. Notes
1. The middle third of the Pyrex tube should be packed with
20-mm. lengths of fire-polished 7-mm. Pyrex tubing. The lower end of the tube is drawn out to a size that permits attachment to the receiver with a rubber stopper.
2. A type FD303 combustion furnace (made and sold by the Hoskins Manufacturing Company, Detroit, Michigan) or any similar furnace is satisfactory.
3. A groove filed in the stopcock of the separatory funnel aids in controlling the rate of addition. If available, a small constant-feed pump may be used to introduce the ester into the pyrolysis tube. The rate of addition of the ester is not critical, but at high rates cracking is incomplete and at low rates the yield is reduced. A stream of
nitrogen (100 bubbles per minute) flowing through the tube reduces refluxing and makes the feed rate easier to observe. The
nitrogen may be introduced through a tube in the stopper holding the separatory funnel or through a side arm sealed near the upper end of the pyrolysis tube.
4. The temperature is measured by a movable
Chromel-Alumel thermocouple located in the furnace by the side of the tube and connected to a
potentiometer or millivoltmeter. The thermocouple junction is adjusted so that during the run it is at the hottest point in the furnace. For the
Hoskins Company furnace this point is about 9 in. from the top of the furnace. The temperature is controlled manually to 590 ± 5° by means of an
autotransformer (Variac) rated at 5 amperes, 110 volts.
6. The submitter used an
insulated column with a 38 by 1.1 cm. section packed with 1/8-in. copper helices made of No. 26 B & S gauge copper wire. He states that a column packed with glass helices is unsatisfactory. The checkers used a
100 by 1.7 cm. Vigreux column. Either type of column should be equipped with a total-condensation partial take-off head.
7.
Ethyl acrylate and
acrylic acid polymerize easily, and overheating must be avoided in the distillation. The flask is heated in an
oil bath which is not permitted to rise above 115°. The
diphenyl ether that is added serves to expel the
acrylic acid at the end of the distillation.
8. The submitter states that the product may be purified by freezing and decanting the supernatant liquid several times. The
acrylic acid may be obtained in
97% purity by this method, but it has a faint yellow color. The yield is
50–60%.
9. The submitter states that
methacrylic acid may be prepared in a similar manner by pyrolyzing
ethyl methacrylate. Under the same conditions of temperature and feed rate, the conversion is slightly higher and the yield is about the same.
[II. ACIDOLYSIS METHOD]
Submitted by C. E. Rehberg
Checked by Arthur C. Cope and Elbert C. Herrick.
1. Procedure
One hundred and eighty-four grams (151 ml., 4 moles) of formic acid (Note
1),
1032 g. (1060 ml., 12 moles) of methyl acrylate (Note
2),
30 g. of hydroquinone, and
2 ml. of sulfuric acid are mixed in a
2-l. two-necked round-bottomed flask fitted with a capillary inlet tube. The flask is attached to a 100 by 1.7 cm. Vigreux column (Note
3) and is heated in an oil bath at 85–95°. The mixture is heated under total reflux until the temperature of the vapor at the still head falls to 32° (after 1–3 hours).
Methyl formate then is distilled slowly at 32–35° as long as it is formed (8–10 hours). A reflux ratio of about 5 to 1 is maintained during the first part of the distillation, which is decreased to total take-off at the end. When no more
methyl formate is produced, the excess
methyl acrylate is distilled at 32–35°/140 mm. with the bath temperature at 60–65°. During the distillation, a slow stream of
carbon dioxide is admitted through the capillary inlet. When all the
methyl acrylate has been removed, the
acrylic acid is distilled at
53–56°/25 mm. Upon redistillation through the same column (Note
4)
acrylic acid of
97% purity (by acidimetric titration) is obtained in a yield of
220–230 g. (
74–78% based upon
100% acrylic acid content), b.p.
54–56°/25 mm.
2. Notes
1.
Acetic acid may be used, but it reacts much less rapidly and less completely, and fractionation of the reaction mixture is more difficult. Pure
formic acid (
98–100%) is preferred.
2. Commercial
methyl acrylate may be used without purification if it is of good quality.
3. Either a Vigreux column or a column containing an open spiral of copper or Nichrome wire is satisfactory. The column should be jacketed and fitted with a total-condensation variable take-off head.
3. Discussion
This preparation is referenced from:
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