RU2074018C1 - Method of photochemical separation of mercury isotopes - Google Patents

Abstract

FIELD: isotope separation. SUBSTANCE: mixture of mercury isotopes is irradiated in presence of oxygen and butadiene with mercury lamp light having wavelength corresponding to Hg-199 and 204 isotope emission to produce mixture containing Hg-199, 201, and 204 isotopes. The latter if further irradiated with wavelength corresponding to emission of isotope Hg-198 and isotope Hg-201 is isolated. Nonseparated mixture of isotopes 199 and 204 is irradiated with wavelength corresponding to emission of isotope Hg- 196 and isotope 199 is isolated. Enrichment degree is 96.3-96.4% and output 1.52-1.56 mg/h. EFFECT: improved procedure. 4 dwg, 2 tbl

Description

 The invention relates to optical methods for the separation of isotopes and can be used in the separation industry.

 A known method for the photochemical separation of mercury isotopes [1] consisting in the fact that a pair of mercury is irradiated with the light of a mercury lamp and a photochemical oxidation reaction of mercury is carried out.

 This method does not allow to separate all isotopes of mercury, cannot provide high productivity and degree of enrichment of isotopes.

Closest to the invention is a method for the photochemical separation of mercury isotopes, including irradiation and excitation of mercury atoms with light in the presence of oxygen and butadiene, the implementation of a photochemical reaction with excited mercury atoms and the extraction of enriched isotopes [2]
The implementation of this method does not ensure the separation of all isotopes of mercury, high productivity and degree of enrichment of isotopes.

 The objective of the invention is the ability to separate all isotopes while maintaining high productivity and degree of enrichment of isotopes.

 The technical result achieved by the implementation of the invention is the separation of the isotopes Hg-198, Hg-201, Hg-199 and Hg-204, whose components in the ultrathin structure of the resonance line 253.7 nm overlap.

 To solve this problem, mercury atoms are irradiated with light in the presence of oxygen and butadiene and the target isotopes are extracted, and irradiation is carried out with the light of a mercury lamp corresponding to the radiation of the Hg-199 and / or Hg-204 isotope and a mixture of Hg-199, Hg-201 and Hg isotopes is extracted -204, which is irradiated with the light of a mercury lamp corresponding to the radiation of the Hg-198 isotope, the Hg-201 isotope is extracted, and the Hg-199 and Hg-204 isotopes are separated by irradiation of this mixture with the light of a mercury lamp corresponding to the radiation of the Hg-196 isotope, removing the Hg isotope -199.

The literature describes the photochemical reactions of excited mercury atoms with HCl, CH ₃ Cl, HBr, HJ, etc. In its practice, the applicant uses the reaction of excited mercury atoms with oxygen in the presence of butadiene-1,3.

 In FIG. Figure 1 shows the hyperfine structure of the resonance mercury line of 253.7 nm taking into account real broadening factors under separation conditions.

In FIG. 2 are shown:
a) the emission line of a lamp filled with the isotope Hg-199 and / or Hg-204;
b) the absorption line of the resulting mixture of isotopes after their excitation by a lamp filled with the isotope Hg-199 and / or Hg-204;
In FIG. 3 are shown:
a) emission line of a lamp filled with the Hg-198 isotope;
b) the absorption line of the selected isotope Hg-201;
c) the absorption line of the remaining isotopes Hg-199 and Hg-204.

 In FIG. Figure 4 shows the emission lines of a lamp filled with the Hg-196 isotope and the absorption lines of the Hg-199 and Hg-204 isotopes.

 In FIG. Figure 1 shows that irradiating mercury atoms even with a sufficiently narrow emission line, only Hg-196, Hg-200, and Hg-202 isotopes can be selectively excited. The isotopes Hg-198, Hg-199, Hg-201 and Hg-204 can only be excited by the groups: (Hg-199, Hg-201 and Hg-204), (Hg-198 and Hg-201), (Hg-199 and Hg-201).

 At the first stage, mercury vapor is irradiated with a lamp filled with the Hg-199 or Hg-204 isotope, or a mixture thereof, and a mixture of the Hg-199, Hg-201 and Hg-204 isotopes is recovered.

 In the second stage, the resulting mixture is irradiated with the light of a lamp filled with the Hg-198 isotope and the Hg-201 isotope is recovered. Obviously, obtaining highly enriched Hg-199 and Hg-204 isotopes is possible under the condition of deep extraction of the Hg-201 isotope.

 At the third stage, the mixture of Hg-199 and Hg-204 isotopes is separated using a lamp filled with the Hg-196 isotope as a light source. In this case, it is necessary to select its operating modes such that the Hg-199 isotope is excited sufficiently efficiently.

 Example 1. The selection of the isotopes Hg-199, Hg-201 and Hg-204 is carried out in two enrichment cycles, using as a light source a lamp filled with isotopes Hg-199, and Hg-204. The enriched mercury obtained in the previous enrichment cycle is used in each subsequent cycle. The Hg-201 isotope is isolated from the obtained isotope mixture by irradiating the mixture with a lamp filled with the Hg-198 isotope.

 The results are summarized in table. one.

 Example 2. The isotopes Hg-199 and Hg-204 are separated, taking as a raw material the dump of the previous stage, exposing it to the light of a lamp filled with the isotope Hg-196.

 The data obtained are summarized in table. 2.

 The efficiency of the separation process can be improved by filtering the radiation of the light source at different stages through mercury vapor with a selected isotopic composition, and also by cycling the enrichment process.

 The implementation of the invention will allow to obtain all mercury isotopes of high enrichment.

Claims (1)

 A method for photochemical separation of mercury isotopes, comprising irradiating an initial mixture of isotopes of mercury, oxygen and butadiene with the light of a mercury lamp and extracting the target isotopes, characterized in that the irradiation of the initial mixture of isotopes is carried out with the light of a mercury lamp corresponding to the radiation of the Hg-199 and / or Hg-204 isotope, and the mixture of isotopes Hg-199, Hg-201 and Hg-204 is extracted, the resulting mixture of isotopes is irradiated with the light of a mercury lamp corresponding to the radiation of the isotope Hg-198, and the isotope Hg-201 is extracted, and the undivided mixture of the isotopes Hg-199 and Hg-204 is irradiated light mercury lamps Corresponding radiation Hg-196 isotope is recovered and Hg-199 isotope.

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