The apparatus shown in
.htmFig. 16, consisting of a
2-l. three-necked round-bottomed flask fitted with an
efficient stirrer (Note
1), a
gas-inlet tube, a
thermometer, and a
reflux condenser, is assembled in a ventilated
hood. Bubbler tubes containing
benzene are attached to the gas inlet tube and the top of the reflux condenser, and
500 ml. of dry benzene and
196 g. (2 moles) of maleic anhydride (Note
2) are placed in the flask. Stirring is begun, the flask is heated with a pan of hot water, and
butadiene is introduced (from a commercial cylinder controlled by a needle valve) at a rapid rate (0.6–0.8 l. per minute). When the temperature of the solution has reached 50° (within 3–5 minutes) the pan of water is removed. The exothermic reaction causes the temperature to reach 70–75° in 15–25 minutes. The rapid stream of
butadiene is nearly completely absorbed for 30–40 minutes, after which the rate is decreased until the reaction is completed (equal rates of bubbling in the two bubbler tubes) after 2–2.5 hours. The solution is poured into a
1-l. beaker at once to avoid crystallization of the product in the reaction flask. The
beaker is covered and the mixture is kept at 0–5° overnight.
The product is collected on a
large Büchner funnel and washed with
250 ml. of 35–60° petroleum ether. A second crop (
5–15 g.) obtained by diluting the filtrate with an additional
250 ml. of petroleum ether is separated by filtration, combined with the first crop in a large
crystallizing dish, and dried to constant weight (1–2 hours) in an
oven at 70–80°. The yield of
cis-Δ4-tetrahydrophthalic anhydride is
281.5–294.5 g. (
93–97%), m.p.
99–102° (Note
3).