In a
3-l. three-necked, round-bottomed flask, fitted with a
mechanical stirrer (Note
1), a
separatory funnel extending to the bottom of the flask, and a
thermometer, are placed
380 g. (5.5 moles) of c.p. sodium nitrite and 1.5 l. of water. The flask is surrounded by an ice-salt mixture, and the solution is stirred until the temperature falls to 0°. A mixture of 100 cc. of water,
136 cc. (250 g., 2.5 moles) of concentrated sulfuric acid (sp. gr. 1.84) (Note
2), and
457 cc. (370 g., 5 moles) of commercial n-butyl alcohol is cooled to 0° and by means of the separatory funnel is introduced slowly beneath the surface of the nitrite solution, with stirring. The alcohol solution is added slowly enough so that practically no gas is evolved, and the temperature is kept at ±1°. This usually requires from one and one-half to two hours.
The resulting mixture is allowed to stand in the
ice-salt bath until it separates into layers, and the liquid layers are decanted from the
sodium sulfate into a separatory funnel (Note
3). The lower aqueous layer is removed and the
butyl nitrite layer washed twice with 50-cc. portions of a solution containing
2 g. of sodium bicarbonate and
25 g. of sodium chloride in 100 cc. of water. After drying over
20 g. of anhydrous sodium sulfate, the yield of practically pure
butyl nitrite amounts to
420–440 g. (
81–85 per cent of the theoretical amount) (Note
4) and (Note
5). If desired, the product may be distilled under reduced pressure when
98 per cent distils at 24–27°/43 mm. (Note
6).
Butyl nitrite boils at
75° under atmospheric pressure, with some decomposition.