In a
1-l. round-bottomed flask equipped with a
reflux condenser (Note
1) are placed
210 g. (1 mole) of powdered citric acid monohydrate and a solution of
210 g. (115 cc., 2 moles) of concentrated sulfuric acid in 105 cc. of water. The mixture is heated in an
oil bath kept at a temperature of 140–145° for seven hours. The light brown solution is poured into a shallow dish, and the flask is rinsed with
10 cc. of hot glacial acetic acid. The liquid is allowed to cool slowly to 41–42° (Note
2), with occasional stirring to break up the solid mass of
aconitic acid which separates, and the solid is collected on a
suction funnel (Note
3). The material is pressed and drained thoroughly until practically dry, when it is removed and stirred to a homogeneous paste with
70 cc. of concentrated hydrochloric acid, cooled in an
ice bath. The solid is collected on a suction funnel (Note
3), washed with two
10-cc. portions of cold glacial acetic acid, sucked thoroughly, and spread out in a thin layer on
porous plate or paper for final drying (Note
4). This product contains practically no sulfate and is pure enough for most purposes. It is colorless, and when dry weighs
71–77 g. (
41–44 per cent of the theoretical amount) (Note
5). The point of decomposition determined under controlled conditions (Note
6) varies from 180° to 200°.
For purification the acid is crystallized from about
150 cc. of glacial acetic acid, using an
acid-resistant filter for the hot solution (Note
7).
Aconitic acid separates as small, colorless needles weighing
50–60 g., and about
10 g. more can be secured by concentrating the mother liquor under reduced pressure to one-third of its volume. The material is dried in the air and then in a
desiccator containing
sodium hydroxide in order to remove all traces of
acetic acid. One crystallization usually is sufficient to bring the point of decomposition to 198–199° (Note
6).