1. The
zinc is purified by stirring
1.2 kg. of commercial zinc dust with
3 l. of 2% hydrochloric acid for 1 minute. The acid is removed by filtration, and the
zinc is washed in a
4-l. beaker with one
3-l. portion of 2% hydrochloric acid, three 3-l. portions of distilled water, two
2-l. portions of 95% ethanol, and finally with one
2-l. portion of absolute ether, the wash solutions being removed each time by filtration. Then the material is thoroughly dried and any lumps are broken up in a mortar.
3. The state of reduction can be determined by placing 3 drops of the reaction mixture in a test tube containing
5 ml. of a 10% solution of sodium hydroxide and then adding
5 ml. of a freshly prepared saturated solution of ferrous ammonium sulfate. A red coloration indicates incomplete reduction; when the reduction is complete, only a greenish precipitate is observed. The mixture should not be heated after this test shows that reduction is complete.
6. W. W. Hartman and Ross Philips have submitted a procedure suitable for the preparation of
aminoguanidine bicarbonate on a larger scale. The sulfates of
methylisothiourea and of
hydrazine are allowed to react with the evolution of
methyl mercaptan. In a
30-gal. crock are placed 10 l. of water and
5760 g. (20 moles) of methylisothiourea sulfate.
2 In a
22-l. flask,
5.2 kg. (40 moles) of hydrazine sulfate3 is stirred with 12 l. of water, and
40% sodium hydroxide is added until all the
hydrazine sulfate has dissolved and the solution is just neutral to Congo paper. The exact amount of alkali is noted and a duplicate amount added. The
hydrazine solution is then added to the 30-gal. crock with stirring, as fast as possible, without allowing the foam to overflow the crock. The mixing is done out-of-doors, or in an
efficient hood, since large volumes of
methyl mercaptan are evolved. If the reaction is carried out on a smaller scale in
12- or 22-l. flasks, using appropriate amounts of material, the
methyl mercaptan evolved may be absorbed in cold
sodium hydroxide solution and isolated if desired. The solution is stirred until evolution of mercaptan stops, and then a few liters of water are distilled off under reduced pressure to free the solution entirely from mercaptan. The residual liquor is chilled in a crock, and a crop of hydrated
sodium sulfate is filtered off, washed with ice water, and discarded. The filtrate is warmed to 20–25°,
25 ml. of glacial acetic acid is added, then
4 kg. of sodium bicarbonate, and the solution is stirred vigorously for 5 minutes and thereafter occasionally during an hour, or until the precipitate no longer increases. The precipitate is filtered with suction and washed with ice water and then with
methanol, and is dried at a temperature not above 60–70°. The yield is
3760 g. (
69% of the theoretical amount).
Hydrazine sulfate may be recovered from the final filtrate, if the filtrate is strongly acidified with
sulfuric acid and allowed to cool.