CS233126B1 - The way of getting uranium - Google Patents

Abstract

The invention relates to a method for obtaining uranium, based on the processing of acidic leachates carried out by sorption on an anion exchange and nitrate elution, whereby the acidic eluate is neutralized to pH 3.2 to 3.8. After separation of the precipitate, a part of the acidic eluate containing nitrate ions is fed to the second stage of sorption, during which the anion exchange is enriched with uranium and simultaneously with nitrate ions. The method according to the invention can be used in the processing of uranium ores, especially ores with a low metal content, where nitrate elution is carried out.

Description

BACKGROUND OF THE INVENTION The present invention relates to a process for recovering uranium by treating acid leaches by anion exchange and nitrate elution.

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Underground leaching of uranium ores with sulfuric acid with the addition of nitrates gives a leach with a relatively high acidity and low uranium concentration, which is absorbed on a strongly basic anion exchange resin. The elution of the anion exchanger is carried out with a nitric acid solution, whereby other undesirable ions which contaminate the eluate are eluted from the anion exchanger in addition to uranium. Ammonia gas is used to neutralize the eluate and precipitate.

The precipitation of uranium from said eluates is associated with a number of adverse effects and disadvantages, such as large volumes of solutions and suspensions, sedimentation is imperfect, and precipitate filterability is poor. The relatively high water content of the cake reduces the efficiency of the drying apparatus, and a relatively low level of uranium in the concentrate is also a significant drawback. Due to the high consumption of ammonia to neutralize the eluate, ammonium ions are introduced into the solutions, which, on the one hand, cause technological difficulties in leaching and, on the other hand, increase the risk of environmental pollution.

The aforementioned drawbacks are largely eliminated by the process of recovering uranium by treating acid leaches by anion exchange sorption and nitrate elution, in which the acid eluate is neutralized to a pH of 3.2 to 3.8, according to the invention. It is based on the fact that, after separation of the precipitate, part of the acidic eluate containing nitrate ions is fed to the second stage of sorption, whereby the anion exchange resin is enriched with uranium and nitrate ions.

The process for the preparation of the uranium concentrate according to the invention is advantageous in that it impregnates the adsorbed anion exchange resin with uranium

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- 2 of the eluate displaces impurities, increasing the ratio of uranium to unwanted ions. Since the ratio of elution solution to ion exchanger does not increase, a higher concentration of uranium in the eluate is achieved than in the method used hitherto. The method also makes it possible to regenerate a portion of the nitrate ions which are adsorbed on the anion exchanger when the anion exchanger treatment is effected, thereby reducing the nitric acid dose in the preparation of the elution solution. This provides uranium precipitates which exhibit better sedimentation and filtration properties, which leads to a reduction in the water content of the cake and thus an increase in the efficiency of the drying apparatus. Significantly reduces or completely removes ammonium ions from process solutions *

The process according to the invention can be used in the treatment of uranium ores, especially low-metal ores, wherever nitrate elution is carried out.

Exemplary embodiment

In carrying out the uranium recovery process of the present invention, the acidic nitrate eluate containing sulfate ions is introduced to adjust the pH, where it is neutralized with lime or limestone with the addition of alkali to a pH of 3.2 to 3.8, preferably to a pH of 3.5. At this stage, sulphates, iron and other impurities are precipitated. In order for the liquid phase to be free of calcium ions, the sulphate concentration must not fall below 0.2 H. Sulphates are added to the elution solution or to the eluate prior to neutralization as necessary. After separation of the precipitate, uranium is precipitated in a portion of the eluate by some of the conventional methods, for example by the addition of ammonia, sodium hydroxide or magnesium oxide. The second portion of the eluate returns to the second sorption stage prior to elution. Part of the passed solution from the second sorption step can be used to prepare the elution solution. The concentration of uranium in the eluate increased by two to four times compared to the present state, with complete removal of iron and partial removal of aluminum and some other impurities.

Claims (1)

OBJECT OF THE INVENTION _{233 1M} Process for recovering uranium by treating acidic extracts by anion exchange and nitrate elution, wherein the acidic eluate is neutralized to a pH of 3.2 to 3.8, characterized in that a portion of the acidic eluate containing nitrate ions is fed to the second stage after separation of the precipitate. sorption, wherein the anion exchanger is enriched with uranium and simultaneous nitrate ions.