To a hot nucleus solution containing the correct proportions of Ammonium Perchlorate, Sodium Chloride and from one to six percent of either Ammonium Chloride or Sodium Perchlorate, is added Sodium Perchlorate and Ammonium Chloride in such amounts that the excess of either Sodium Perchlorate of Ammonium Chloride originally present in the nucleus solution is not disturbed. The existance if either one of these above mentioned salts in the hot solution depressed the solubility of Sodium Chloride and caused more to separate out than ordinarily would. After filtering off the separated Sodium Chloride and adding a sufficient amount of dilution water to prevent any further deperation of the salt, the solution is cooled. At the cooler temperature, the presence of Sodium Perchlorate or Ammonium Chloride in the solution depresses the solubility of the Ammonium Perchlorate, resulting in a larger yield of product at these temperatures. In both cased this effect is due to the existance of the common ions. In the first case it is due to the presence of the common ions, Sodium and Perchlorate. In the second case it is due to the presence of the common ions, Ammonium and Chloride.
As an example, I may state that the process may be carried out by employing a nucleus solution containing approximately 9% to 12% Ammonium Perchlorate, 1% to 7% Sodium Perchlorate, and 17% to 22% Sodium Chloride, removing the Sodium Chloride that seperates out, diluting the remaining liquid and then removing the Ammonium Perchlorate at a temperature below 30C.
In the case Sodium Perchlorate is to be used in excess, a nueleus solution is prepared at 100C to contain 11.8% Ammonium Perchlorate, 3.6% Sodium Perchlorate and 20% Sodium Chloride. To this solution is added the proper amounts of Sodium Perchlorate and Ammonium Chloride to produce a solution containing 25% Ammonium Perchlorate, 3.8% Sodium Perchlorate and 17.5% Sodium Chloride and the NaCl that separates out at this temperature is removed. The filtrate is diluted with 6% water and cooled to 20C when a crop of Ammonium Perchlorate is removed. The mother liquor is then concentrated until it contains approximately the same amount of dissovled salts as the original nucleus solution.
In case Ammonium Chloride is used in excess, a nucleus solution is prepared at 100C to contain 12.5% Ammonium Perchlorate, 1.6% Ammonium Chloride, and 22% Sodium Chloride. To this solution is added the proper amounts of Sodium Perchlorate and Ammonium Chloride to produce a solution containing 26% Ammonium Perchlorate, 1.6% Ammonium Chloride and 18.9% Sodium Chloride. The Sodium Chloride that separates out at this temperature is removed and the filtrate treated in the same manner as above. The mother liquor is then concentrated until it contains the same amount of dissolved salts as the original nucleus solution.
While I have given examples it should be understood that I do not limit myself to these proportions or temperatures, but find that good results can be obtained when using a solution in which the percentage of Ammonium Perchlorate varies from 18% to 30% and that of Sodium Chlorate or Ammonium Chloride varies from 1% to 7%. At the same time the nueleus solution may be prepared at temperatures abetween 75C and 100C and the Ammonium Perchlorate is removed at any temperature below 30C.
Having described by invention, what I claim is:
A process for the manufacture of Ammonium Perchlorate which consists of employing a mucleus solution containing approx. 9% to 12% Ammonium Perchlorate, 1% to 7% Sodium Perchlorate, and 17% to 22% Sodium Chloride, adding to this the proper amount of Sodium Perchlorate and Ammonium Chloride to produce a solution containing 18% to 30% Ammonium Perchlorate, 1% to 7% Sodium Perchlorate, and 17% to 22% Sodium Chloride, removing the Sodium Chloride that separates out, diluting the remaining liquid and then removing the Ammonium Perchlorate at a temperature below 30C.
RALPH AUSTIN LONG
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