SU364033A1 - A METHOD FOR REMOVAL OF RADIOACTIC IODINE FROM ALKYL IODIDES - Google Patents

Description

I

The invention can be used for the purification of gases discharged into the atmosphere from radioactivity.

Gas discharges containing radioactive iodine, in addition to molecular iodine, as a rule, also contain alkyl iodides. The gases contain iodinated hydrocarbons, of which 85% is methyl iodide. The content of radioactive alkyl iodides in gases depends on many factors and ranges from 1 to 10% of the total content of radioactive iodine in the air.

Radioactive alkyl iodides (first of all, methyl iodide) belong to difficultly adsorbed iodine compounds, and therefore their content determines the coefficients of purification from radioactive iodine during adsorption purification methods.

In order to increase the purification coefficients while keeping the adsorption equipment not too large, specific methods for the removal of iodine in the form of alkyl iodides are needed.

To solve this problem, it has been proposed to use coals, which are ignored with potassium iodide or molecular iodine. In the absence of moisture, coals soaked in potassium iodide capture radioactive iodine from methyl iodide with great efficiency. However, with an increase in the moisture efficiency of the columns

inducts sharply; this is apparently due to the fact that potassium jute is an easily soluble compound n can be removed from coal under conditions of high moisture content in gases.

Impregnation of coals with molecular Gudom gives good results, but (Yod has a high vapor pressure and should evaporate from the coals during prolonged air blowing.

The purpose of the invention is to remove radioactive iodine from methyl iodide when operating in conditions of high and variable relative humidity.

The goal is achieved by the fact that according to the proposed method, the radioactive iodine contained in methyl iodide is removed and by passing the gas through a layer of active carbon impregnated with lead iodide, copper iodide or silver iodide.

FIG. 1 n 2 shows absorption versus layer thickness curves for a different scavenger, illustrating the proposed method.

With the implementation of the method, the exchange between lead, copper, or silver iodons is on one side of the methyl methane contained in the gas phase, on the other. In this case, the radioactively activated iodine contained in methyl iodide is replaced by stable iodine, and the resulting inactive i) methyl iodide. may be discharged into the atmosphere. The radioactive iioA from methyl iodnd goes into iodides and gradually disintegrates in the solid phase.

To ensure a high rate of isotopic metabolism, iodide dispersion is used by introducing them into the pores of the active carbon or other sorbent. The active carbon is also useful in that at the same time it effectively captures molecular iodine in the air. Other adsorbents capture molecular iodine worse.

The method for preparing impregnated coals is as follows. Active carbon is poured at a temperature of 30 ° C with 5-10% solution of nitrate svititsa, copper nitrate, or silver nitrate. Then the sample is impregnated with a 5-10% solution of potassium iodide for 1-2 hours, after which the excess potassium iodide is drained and the packing is washed two or three times with water. After washing, the nozzle is dried at 110 ° C for 5-6 hours. Iodine from radioactive methyl iodide can be removed by passing a gas mixture through a column packed with adsorbents impregnated with iodides of lead, copper or silver, or finely divided adsorbents containing metal iodides can be suspended in filter materials while trapping aerosols. In the latter case, aerosols, which may also contain radioactive iodine, molecular iodine and radioactive iodine contained in the methyl iodide, are simultaneously trapped.

Impregnating coal with salts of lead iodide, copper iodide or silver iodide allows these nozzles to be used when working in conditions of high or no humidity, since these salts are extremely poorly soluble in water and therefore are not washed off from the nozzle; thus, the service life of columns filled with active carbon impregnated with these substances is significantly increased.

Exerymeite for the implementation of the proposed method by passing methyl iodide containing radioactive iodine-131 through a layer of impregnated coal (Fig. 1) gave good results.

The graphs show the dependence lg / 4 - the logarithm of the concentration of radioactive iodine, conventional units of the thickness L, cm, layer of the absorber for coal without impregnation - curve /; coal impregnated with a solution of Cul - curve 2; coal iropitany with a solution of PX - curve 3 and coal built with a solution of .gl - curve 4. The gas to be passed in was cleared of radioactive gas.

Comparison with adsorption of active carbon

sio shows that the observed effect

reducing the activity of the gas mixture cannot

to be explained by the adsorption of methyl iodide

active carbon.

Pa figs. 2 and the results of a long-term experiment lasting 52 days. Here curve 5 corresponds to coal impregnated with 107 ° Agl solution, curve 6 to coal impregnated with 1% solution of L, curve 7 to coal impregnated with 10% solution of Pb.

Under these conditions, coal impregnated with lead iodide was slightly better than others.

The results of experimentation suggest that all three substances can be used for isotope exchange. The impregnation of coal with these substances provides simultaneous capture of molecular iodine and radioactive iodine from methyl iodide.

The proposed method has advantages over the known ones, since it allows working in conditions of increased humidity; even after dropping of moisture, the coloi s lose their working capacity.

In all these cases, it is very important that the substances applied to the sorbent are not washed off and kept in a state suitable for further work. Silver, copper, silver iodides have these advantages, since their solubility in water is very low. The experiments performed at a relative humidity of 90-95% show that under these conditions they will retain their performance. At the same time, the indicated iodides provide stable high coefficient of purification from radioactive iodine contained in methyl iodide.

Subject invention

Claims (5)

1. A method for removing radioactive iodine from alkyl iodides, which consists in carrying out isotope exchange reactions between alkyl iodide and a solid material containing a stable iodine isotope, characterized in that, in order to effectively remove iodine at high humidity, heavy metal iodides are used as a solid material. 2. The method according to claim 1, wherein the lead iodide is used. 3. Method for and. 1, characterized in that copper iodide is used. 4. The method according to claim 1, characterized by the fact that silver iodide is used. 5. The method according to claim 1, characterized in that the mixture of said substances is used in any ratios. , 0 10 th 3D ttO 50 60 70 L Fig 1 1.0 w go for 4ff 50 so la L CD.