RU2650487C2 - Method of determining transportability of radioactive aerosols - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: invention is intended for the operative determination of the transportability of radioactive aerosols (TRA) in industrial conditions, in particular for enterprises of the nuclear fuel cycle. The method of determining the transportability of radioactive aerosols, including selection of the solid phases of radioactive nuclides aerosols in air of working space of hazardous industries, measuring active median aerodynamic diameter (AMAD) and calculation of transportability S by the formula S=2.78 (AMAD)^-0.71.

EFFECT: invention allows to increase the efficiency of determining the transportability of radioactive aerosols in production conditions.

1 dwg

Description

The known method [1] for determining transportability, including a long (at least 10 days) dialysis procedure through a semipermeable membrane of a radioactive substance contained in the aerosol solid phase, measuring the activity of the resulting substrates (dialysates, semipermeable membranes, filter with a sample of aerosol particles) and calculation transportability values based on statistical processing of measurement results.

The known method [2] for determining TPA, including preliminary separation of samples of solid phases of radioactive nuclides from aerosols contained in the air of working rooms of hazardous industries, according to fractions depending on their size and nuclide compositions. After that, the dialysis process of each fraction in Ringer's solution is carried out for 10 to 12 days with periodic measurement of the radioactivity of each fraction. At the final stage, fractional TPA values are calculated, after which the value of the total TPA value for the sample as a whole is determined.

The disadvantage of these methods is the complexity, the need for multi-day radiochemical analyzes in laboratory rooms, involving a large number of qualified personnel. These disadvantages make it unsuitable for use in an industrial environment.

The aim of the invention is to increase the efficiency of determining the transportability of radioactive aerosols in a production environment.

The essence of the invention lies in the fact that the dependence of the transportability of the solid phase of a radioactive aerosol on its activity median aerodynamic diameter (AMAD) in the form of an approximating function is preliminarily determined, then the AMAD measurements of the radioactive aerosol of the air of the working room are carried out, and the transportability value is calculated using the obtained approximating function.

An example of the method

The currently existing method for determining transportability is to carry out the procedure of dialysis of a radioactive substance through a semipermeable membrane, measure the activity of the resulting substrates, and calculate the value of the desired indicator based on the statistical processing of the obtained measurement results. The experience of researching the transportability of industrial alpha-emitting aerosols in the air of workrooms at Mayak showed the following. The duration of the dialysis procedure is 10 days. The measurement of the activity of the obtained substrates, including dialysates, a filter with a breakdown of radioactive aerosols, as well as semipermeable membranes, lasts 5 days [2, 3, 4]. Thus, the total time spent on determining the portability is approximately 15 days, given that the statistical processing of the obtained measurement results does not take significant time.

In the course of studies of the physicochemical properties of industrial alpha-emitting aerosols of air at the Mayak production premises, an approximating function was obtained (Fig. 1), which expresses the inverse dependence of transportability on the particle size of the aerosol solid phase, expressed in terms of AMAD [2, 3, 4 ].

The mathematically approximating function is expressed by the following formula:

where S is the transportability of the aerosol solid phase,%;

AMAD - activity median aerodynamic diameter of radioactive aerosols, microns.

Thus, based on the measurement results of AMAD using the above formula, it is possible to calculate the transportability. For example, if as a result of the measurement it was found that the aerosol amad was equal to 4 μm, then the transportability would be

The duration of aerosol sampling required to determine transportability is the same by standard and proposed methods. The duration of AMAD determination of industrial alpha-emitting aerosols is 2-3 hours. Thus, the application of the proposed method for determining transportability reduces the time by approximately 50 times, significantly reduces the cost of chemical reagents, does not require sophisticated laboratory equipment and highly qualified personnel.

Information sources

1. V.F. Khokhryakov, K.G. Suslova, I.A. Tseveleva, E.E. Aladova. An objective way to classify alpha-active aerosols for dosimetry of internal exposure. // Medical radiology and radiation safety, No. 4, 1998, p. 41-45.

2. V.V. Khokhryakov, S.A. Loose. Study of the physicochemical properties of aerosols of plutonium and americium at an SNF reprocessing plant. // Abstracts of the conference "Nuclear Industrial Complex of the Urals: Problems and Prospects", Ozersk 2005, from 180-182.

3. V.V. Khokhryakov, S.A. Sypko Influence of AMAD of industrial alpha-emitting aerosols on Pu dialysis kinetics. Cite abstract as Author (2007), Title, European Aerosol Conference 2007, Salzburg, Abstract T10A009.

4. Khokhryakov B.B., Lagunova N.Yu., Sypko C.A., Rumyantseva E.Yu. Investigation of the effect of the dispersed composition of industrial aerosols of plutonium on the kinetics of its dialysis. // Bulletin of Siberian medicine, Volume 4, No. 2, 2005, p. 99-104.

Claims (2)

 A method for determining the transportability of radioactive aerosols, including the selection of the solid phases of the radioactive nuclides of aerosols contained in the air of working rooms of hazardous industries, measurements of the activity median aerodynamic diameter (AMAD) and calculation of the transportability S by the formula S = 2.78 (AMAD) ^-0.71

Images