KR101260486B1 - Apparatus for calculating radioactive amount in radioactive waste drum - Google Patents

Abstract

A device for calculating the total radioactivity of a radioactive waste drum is provided. The radiation dose calculation device of the radioactive waste drum includes a dose distribution plate and the dose distribution in which surface doses per different unit radioactivity correspond to the first to fifth zones of the radioactive waste separated by the distance between the meter and the radioactive waste in the form of a look-up table. A first memory for storing correction factors of the corresponding region of the plate; A second memory for storing a surface dose conversion table per unit radiation; A first measuring unit for measuring a surface dose at 12 points of the radioactive waste drum; An estimator for estimating a nuclide position in the drum; A derivation unit for determining which of the first to fifth zones of the dose distribution plate belongs to the dose distribution plate and deriving a surface dose per unit radioactivity for the zone of the dose distribution plate with reference to the dose distribution plate; A second measuring unit measuring a density of radioactive waste; A first calculation unit calculating a surface dose per unit radioactivity using the density-dose conversion table based on the measured density; A correction unit for calculating the surface dose per unit of radiation corrected by the density effect on the basis of the density of the radioactive waste measured using the surface dose per unit of radiation; And a second calculation unit for calculating the total radiation amount based on the derived surface dose per unit radiation, the surface dose per unit radiation corrected by the density effect, and the correction factor of the corresponding area of the dose distribution plate. .

Description

Apparatus for calculating radioactive amount in radioactive waste drum

The present invention relates to a radioactive waste drum, and more particularly to a method and apparatus for calculating the amount of radioactivity contained in a radioactive waste drum.

The radioactivity of the radioactive waste drum is classified into low and high level radioactive waste according to its content, and the permanent disposal center for low and low level waste currently under construction in Gyeongju is limited to low and low level waste. To enter the disposal facility, the radioactivity of the radioactive waste present in the drum must be assessed and analyzed using a drum nuclide analyzer.

The drum nuclide analysis device is a non-destructive method for analyzing the radioactivity of the radioactive waste present in the drum in order to permanently dispose of the radioactive waste from the nuclear power plant. The results of the measurement of the drum nuclide analysis device are the basic data to confirm that the total radioactivity of the drum to be permanently disposed does not exceed the storage limit of the disposal facility, so a high degree of accuracy is required. The analysis range of the domestic drum nuclide analyzer can be measured with a single detector for drums with a wide range of radiation doses from 0 to 100 mSv / hr based on surface doses, taking into account the radioactivity levels of wastes generated from nuclear power plants. It is designed to be. However, very low doses of medium and low level waste drums make the measurement difficult with the drum nuclide and the accuracy of the measurements is compromised. In addition, as measurement takes considerable time, it is difficult to apply to all low and medium level radioactive waste drums generated from nuclear power plants. Therefore, in the case of low and low level radioactive waste drums, the total radioactivity of radioactive waste drums could be evaluated by using a dose-to-radioactivity conversion method that converts total radioactivity using surface doses, but the characteristics of each waste drum were not well reflected. .

The present invention has been created to improve the above-mentioned conventional problems, by utilizing the measured surface dose of the waste drum, to identify the position of the radionuclide in the drum by a statistical method and to use the dose distribution plate to locate the nuclide. The surface dose per unit radioactivity is calculated, and the surface dose per unit radioactivity is calculated by correcting the measured surface dose using the density characteristic coefficient of the density-dose conversion table according to the density value of the waste drum. It is an object of the present invention to provide a device for calculating the total amount of radioactivity of the low and low level radioactive waste drum.

The radioactive amount calculating device of the radioactive waste drum according to the present invention comprises the first to fifth zones of the radioactive waste divided according to the distance between the instrument and the radioactive waste in which surface doses per different unit radioactivity are installed at a predetermined distance from the radioactive waste drum. A first memory for storing a dose distribution plate corresponding to each of the dose distribution plates in the form of a lookup table, and a correction factor of the corresponding area of the dose distribution plate; A second memory for storing a surface dose conversion table per unit radioactivity indicating a relationship between a nuclide density in a radioactive waste drum and a surface dose per unit radioactivity; For the radioactive waste drum, surface doses at 12 points of the front top, front middle, front bottom, rear top, rear middle, rear bottom, upper left, middle left, lower left, upper right, middle right, and lower right A first measuring unit to measure; An estimator for estimating a nuclide position in the radioactive waste drum by a nonlinear optimization method using the average surface dose at 12 points of the radioactive waste drum and the distance between the meter and the nuclide; Unit radioactivity for the zone of the determined distribution plate by determining which zone of the first to fifth zones of the dose distribution plate is estimated by the estimator and referring to the dose distribution plate stored in the first memory Derivation unit for deriving the sugar surface dose; A second measuring unit measuring a density of radioactive waste contained in the drum of the radioactive waste; A first calculator configured to calculate a surface dose per unit of radiation using a density-dose conversion table stored in a second memory based on the measured density; A correction unit for calculating the surface dose per unit radiation corrected by the air density effect on the basis of the density of the radioactive waste measured by the second measuring unit using the surface dose per unit radioactivity; And a second calculation for calculating the total radiation amount based on the surface dose per unit radioactivity derived by the derivation unit, the surface dose per unit radioactivity corrected by the density influence, and the correction factor of the corresponding area of the dose distribution plate. It is characterized by including a wealth.

According to one embodiment of the present invention as described above, it is possible to determine by reflecting the characteristics of each waste drum using the method of the present invention when determining the total amount of radioactivity of the low and medium level radioactive waste drum difficult to measure.

1 is a block diagram showing the configuration of the radioactive amount calculation device of the radioactive waste drum according to an embodiment of the present invention.
2 is a view showing an example of a dose distribution plate according to the embodiment of the present invention.
3 is a view for explaining a dose distribution plate creation process according to the embodiment of the present invention.
4 is a graph for explaining an example of the relationship between the density and surface dose of a waste drum according to an embodiment of the present invention.
5 is a graph for explaining another example of the relationship between the density of the waste drum and the surface dose according to the practice of the present invention.

The operation principle of the preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. The following terms are defined in consideration of the functions of the present invention, and may be changed according to the intentions or customs of the user, the operator, and the like. Therefore, the definition should be based on the contents throughout this specification.

1 is a block diagram showing the configuration of the radioactive amount calculation device of the radioactive waste drum according to an embodiment of the present invention.

An apparatus for calculating radioactivity of a radioactive waste drum according to an embodiment of the present invention may include a first memory 110, a second memory 120, a first measuring unit 130, an estimating unit 140, a deriving unit 150, The second measuring unit 160, the first calculating unit 170, the correcting unit 180, and the second calculating unit 190 are included.

The first memory 110 looks up the surface doses per different unit radioactivity to the first to fifth zones of the radioactive waste, which are divided according to the distance between the instrument 10 and the radioactive waste, which are installed at a predetermined distance from the radioactive waste drum. The dose distribution plate corresponding to the table form and the correction factors of the corresponding area of the dose distribution plate are stored.

The first zone is the central zone of the radioactive waste and corresponds to the zone furthest from the meter, and the second zone is the second zone away from the meter to the zone immediately above and below the first zone. The third zone is the top, bottom, right, and left zone of the second zone, the third zone from the meter. The fourth zone is the upper and lower zones of the radioactive waste. The fifth zone is the front end, rear end, right end, and left end points of the radioactive waste. The distance between the meter and the first to fifth zones is set in order of the distance between the meter and the fifth zone, the first zone, the second zone, the third zone, and the fourth zone. The magnitude of the surface dose per unit of radioactivity varies depending on the nuclide and may vary in the fifth zone 20, the first zone 8.0, the second zone 7.0, the third zone 6.0 and the fourth zone 4.0. Big in order. In this case, the correction factor according to the position of the ratio of surface doses per different unit radiation is based on the correction factor 1 criterion of the first zone 0.8, the second zone 7.00.875, the third zone 6.0.05, and the fourth zone. (4.0) 0.5, fifth zone 20 2.5.

The second memory 120 stores a table for converting the surface dose per unit radioactivity according to the density of each species in the radioactive waste drum.

The first measuring unit 130 has a front upper, front middle, front lower, rear upper, rear middle, rear lower, upper left, middle left, lower left, upper right, middle right with respect to the radioactive waste drum 20, and The surface dose at 12 points in the lower right is measured.

The estimator 140 uses the average surface dose at the 12 points of the radioactive waste drum 20 and the distance between the meter 10 and the nuclide as a non-linear optimization method (Trial-error method), which is a statistical method. Estimate the nuclide position (coordinate) in the waste drum. According to the non-linear optimization method (Trial-error method), the surface dose of 12 points in the relationship between the surface dose (D) and the distance (r) from the source using the equation (1) below, the surface dose calculation, respectively, Using the nonlinear optimization method, the minimum point is derived by using Equation 2 to estimate the position of the source (nuclide position).

[Equation 1]

상수이고 r은 계측기(10)와 핵종(source) 간의 거리(cm)이다. Where D is the surface dose (mR / hr), A is the radiation dose (mCi), and Γ is

Constant and r is the distance in centimeters between meter 10 and the nuclide.

&Quot; (2) "

Where D _N is the measured surface dose (mR / hr) and r _N is the distance (cm) between the meter 10 and the nuclide.

The derivation unit 150 determines which of the first to fifth zones of the dose distribution plate belongs to the nuclide position (x, y, z) estimated by the estimator 130 and stores the information in the memory 110. The surface dose per unit radiation for the determined area of the distribution plate is derived with reference to the stored dose distribution plate. Each zone of the dose distribution plate is a conversion factor for correction of the surface dose. The surface dose per unit radioactivity is calculated using the MCNP code. If the surface dose is 30 mR / hr when 1 Ci is present in the waste drum, if the measured surface dose is 60 mR / hr, the existing evaluation method determines that 2 Ci is present in the waste drum. However, since the surface dose is highly influenced by the location of the source, the surface dose measured in this method is used to estimate the position of the nuclide and correct the value using the surface dose conversion table developed through code calculation. do.

The second measuring unit 160 measures the density ρ ′ of the radioactive waste contained in the drum of the radioactive waste.

The second memory 120 stores a surface dose conversion table per unit radioactivity indicating a relationship between the nuclide density in the radioactive waste drum and the surface dose per unit radioactivity.

The first calculator 170 calculates the surface dose per unit radioactivity using Equation 3 using the density-dose conversion table stored in the second memory 120 based on the measured density.

&Quot; (3) "

D = f (ρ)

The correction unit 180 is based on the density ρ 'of the radioactive waste measured by the second measuring unit 160 using the surface dose per unit radioactivity, that is, the measured density of the radioactive waste ρ'. Is applied to Equation 3 by the first calculation unit 170 to calculate the surface dose per unit radiation corrected by the density effect.

&Quot; (3) "

D = f (ρ)

Where D is the surface dose

Depending on the density of the waste drum, the surface dose per unit of radiation varies a lot. The density-dose conversion table is a table in which the density of the drum is converted for each type of nuclide in the drum. The density characteristic coefficient is present for each nuclide, a model is generated by reflecting the characteristics of the radioactive waste drum, and the code is calculated, and the equation is derived from the relationship between the dose and the density.

Thereafter, the second calculation unit 190 calculates the surface dose per unit radioactivity derived by the derivation unit 150, the surface dose per unit radioactivity corrected by the density effect, and the correction factor of the corresponding area of the dose distribution plate. Calculate the total amount of radioactivity on the basis.

That is, the total radioactivity is calculated using the following equation by multiplying the derived inverse of the surface dose per unit radiation by the surface dose per unit radiation corrected by the density effect, and the correction factor of the corresponding area of the dose distribution plate (170). ).

According to one embodiment of the present invention as described above, it is possible to determine by reflecting the characteristics of each waste drum using the method of the present invention when determining the total amount of radioactivity of the low and medium level radioactive waste drum difficult to measure.

In the method for calculating the radioactivity of a low to medium level radioactive waste drum according to an embodiment of the present invention, the radionuclide is identified by using a measured surface dose of the waste drum, and the radionuclide position is determined using a dose distribution plate. Deduce surface dose per unit of radiation according to. In addition, the corrected surface dose is calculated by using the density characteristic coefficient of the density-dose conversion table according to the density of the waste drum to calculate the corrected surface dose, and the surface dose per unit radioactivity and the total radioactivity of the low and low level radioactive waste drums. How to calculate the amount.

In the method for calculating the radioactivity of a low to medium level radioactive waste drum according to an embodiment of the present invention, the radionuclide is identified by using a measured surface dose of the waste drum, and the radionuclide position is determined using a dose distribution plate. Deduce surface dose per unit of radiation according to. In addition, the surface dose value is calculated by correcting the measured surface dose value using the density characteristic coefficient of the density-dose conversion table according to the density of the waste drum, and the surface dose per unit radioactivity and the low and low level radioactive waste drum As a method of calculating the total amount of radioactivity, the total amount of radioactivity of the radioactive waste drum, which is difficult to be measured by the drum nuclide analysis device, may be determined by reflecting the characteristics of each waste drum.

Although the present invention has been described as a specific preferred embodiment, the present invention is not limited to the above-described embodiments, and the present invention is not limited to the above-described embodiments without departing from the gist of the present invention as claimed in the claims. Anyone with a variety of variations will be possible.

10: instrument 20: drum
110: instrument 120: second memory
130: first measuring unit 140: estimating unit
150: derivation unit 160: second measurement unit
170: first calculation unit 180: correction unit
190: second calculation unit

Claims (3)

Dose distribution plates and dose distributions corresponding in the form of look-up tables to the first to fifth zones of radioactive waste divided according to the distance between the instrument and the radioactive waste installed at a certain distance from the surface dosed radioactive waste drum per different unit of radiation A first memory for storing correction factors of the corresponding region of the plate;
A second memory for storing a surface dose conversion table per unit radioactivity indicating a relationship between a nuclide density in a radioactive waste drum and a surface dose per unit radioactivity;
For the radioactive waste drum, surface doses at 12 points of the front top, front middle, front bottom, rear top, rear middle, rear bottom, upper left, middle left, lower left, upper right, middle right, and lower right A first measuring unit to measure;
An estimator for estimating a nuclide position in the radioactive waste drum by a nonlinear optimization method using the average surface dose at 12 points of the radioactive waste drum and the distance between the meter (10) and the nuclide;
Unit radioactivity for the zone of the determined distribution plate by determining which zone of the first to fifth zones of the dose distribution plate is estimated by the estimator and referring to the dose distribution plate stored in the first memory Derivation unit for deriving the sugar surface dose;
A second measuring unit measuring a density of radioactive waste contained in the drum of the radioactive waste;
A first calculator configured to calculate a surface dose per unit of radiation using a density-dose conversion table stored in a second memory based on the measured density;
A correction unit for calculating the surface dose per unit radiation corrected by the air density effect on the basis of the density of the radioactive waste measured by the second measuring unit using the surface dose per unit radioactivity; And
A second calculation unit for calculating the total radiation amount based on the surface dose per unit radioactivity derived by the derivation unit, the surface dose per unit radioactivity corrected by the density effect, and the correction factor of the corresponding area of the dose distribution plate Radioactive amount calculation device of a radioactive waste drum comprising. delete The method according to claim 1, wherein the second calculation unit multiplies the derived reciprocal of the surface dose per unit radiation by the surface dose per unit radiation corrected by the density effect, and the correction factor of the corresponding area of the dose distribution plate to calculate the total radiation dose. Device for calculating the radioactivity of the radioactive waste drum to be calculated.

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