Thomas J. Crossley
Electrician at Fremont Pl, Littleton, CO

License number
Colorado 3193
Issued Date
Nov 15, 1985
Renew Date
Oct 1, 2014
Expiration Date
Sep 30, 2017
Type
Master Electrician
Address
Address
8617 W Fremont Pl, Littleton, CO 80128

Professional information

Thomas Crossley Photo 1

Method Of Removing Uranium From A Slurry Containing Molybdenum

US Patent:
4393028, Jul 12, 1983
Filed:
Jun 12, 1981
Appl. No.:
6/273175
Inventors:
Thomas J. Crossley - Littleton CO
Assignee:
Wyoming Mineral Corporation - Lakewood CO
International Classification:
C01G 4300
US Classification:
423 15
Abstract:
Disclosed is a method of removing uranium from a slurry containing a water-insoluble molybdate and a Group II element, usually calcium. The pH of the slurry is raised with an alkali metal hydroxide and maintained at a level sufficiently high to solubilize insoluble molybdenum compounds. This will generally require a pH of at least 10 which can be achieved by adding sodium hydroxide. Carbonate ion is then added to the slurry in an amount at least sufficient to precipitate the cation of the insoluble molybdenum compound. And finally, the solid portion of a slurry, which now contains calcium carbonate and sodium uranate, is separated from the liquid portion, which contains a soluble molybdenum compound.


Thomas Crossley Photo 2

Method Of Separating Molybdenum From Uranium

US Patent:
4407781, Oct 4, 1983
Filed:
Mar 5, 1981
Appl. No.:
6/240655
Inventors:
Thomas J. Crossley - Littleton CO
Thomas P. Zinge - Lakewood CO
Assignee:
Westinghouse Electric Corp. - Pittsburgh PA
International Classification:
C01G 4300, C01G 3900
US Classification:
423 15
Abstract:
A method is disclosed for separating uranium from molybdenum in an aqueous solution. The pH of the solution is lowered to about 1 to about 4 using an inorganic acid such as hydrochloric acid. The carbon dioxide is then removed from the solution which can be done by aeration. The pH of the solution is raised to about 9 in the presence of ammonium ions which result in the precipitation of ammonium diuranate. The precipitated ammonium diuranate may then be filtered or otherwise separated from the molybdenum which remains in the solution.