Patent Number: 
Section: claims

1. A process for recovering uranium and molybdenum-99 (Mo-99) from an irradiated solid target, comprising:irradiating a solid target comprising uranium to produce the irradiated solid target having fission products comprising Mo-99;dissolving the irradiated solid target to form a first solution and conditioning the first solution to comprise a first nitric acid concentration and a first uranium concentration;oxidizing the Mo-99 by adding an inorganic oxidant to the first solution to provide a second solution in which the Mo-99 is in a +VI oxidation state;contacting the second solution with a solid sorbent, whereby uranium remains in the second solution while the Mo-99 is bound to the solid sorbent;adjusting the first nitric acid concentration and the first uranium concentration in the second solution to provide a second nitric acid concentration and a second uranium concentration suitable for formation of uranyl nitrate hydrate crystals;inducing formation of uranyl nitrate hydrate crystals; andseparating the uranyl nitrate hydrate crystals from the second solution. 2. The process of claim 1, wherein the inducing formation of uranyl nitrate hydrate crystals comprises cooling the second solution to a temperature effective for the formation of the uranyl nitrate hydrate crystals. 3. The process of claim 1, wherein the inducing formation of uranyl nitrate hydrate crystals comprises evaporating the second solution under reduced pressure. 4. The process of claim 1, further comprising purifying the uranyl nitrate hydrate crystals after separating the uranyl nitrate hydrate crystals. 5. The process of claim 1, wherein the uranium comprises low-enriched uranium (LEU). 6. A process for recovering uranium and Mo-99 from an irradiated solid target, comprising:irradiating a solid target comprising uranium to produce the irradiated solid target having fission products comprising Mo-99;dissolving the irradiated solid target to form a first solution and conditioning the first solution to comprise a nitric acid concentration of about 0.01 M to about 2 M, and a uranium concentration of about 50 gU/L to about 350 gU/L;oxidizing the Mo-99 by adding an inorganic oxidant to the first solution to provide a second solution in which the Mo-99 is in a +VI oxidation state;contacting the second solution with a solid sorbent, whereby uranium remains in the second solution while the Mo-99 is bound to the solid sorbent;adjusting the nitric acid concentration in the second solution to about 4 M to about 8 M, and the uranium concentration in the second solution to about 350 gU/L to about 650 gU/L;inducing formation of uranyl nitrate hydrate crystals; andseparating the uranyl nitrate hydrate crystals from the second solution. 7. The process of claim 6, wherein the inducing formation of uranyl nitrate hydrate crystals comprises cooling the second solution to a temperature effective for the formation of the uranyl nitrate hydrate crystals. 8. The process of claim 6, wherein the inducing formation of uranyl nitrate hydrate crystals comprises evaporating the second solution under reduced pressure. 9. The process of claim 6, further comprising purifying the uranyl nitrate hydrate crystals after separating the uranyl nitrate hydrate crystals. 10. The process of claim 6, wherein the uranium comprises LEU. 11. The process of claim 1, further comprising recycling the nitric acid. 12. The process of claim 6, further comprising recycling the nitric acid.