KR20120083133A - Granulating device for radioactive wastewater - Google Patents

Abstract

PURPOSE: A granulating apparatus for radioactive wastewater is provided to produce granulated radioactive waste by concentrating and drying the radioactive wastewater at a time. CONSTITUTION: A hollow tank(10) includes radioactive wastewater. A heat supplying device(20) supplies heat to the inside of the tank. A vapor outlet(12) discharges vapor generated from the radioactive wastewater heated by the heat supplying device. The vapor outlet has a vent door controlling the exhaustion of granulated radioactive wastewater. A rotary shaft(30) has a rotatable structure as a drive unit(90). A plurality of left blades(40) is respectively installed to a plurality of supporting members, vertically extended from one side of the rotary shaft, in a right screw direction. A plurality of right blades(50) is respectively installed to the plurality of supporting members, vertically extended from the other side of the rotary shaft, in a left screw direction. A dispersion blade(60) is installed to one or more supporting members.

Description

Granulating device for radioactive wastewater

The present invention relates to a radioactive waste granulation device for evaporating moisture of a radioactive waste liquid to make a concentrated waste liquid, and to drying the concentrated radioactive waste liquid to produce granulated radioactive waste, comprising: an inlet for introducing a radioactive waste liquid; A hollow tank having a discharge port for discharging granulated radioactive waste, a left and right blade and a dispersing blade as support members, and a rotating shaft rotatable in the tank as a driving device, a heat supply device for supplying heat to the tank; Field of the Invention The present invention relates to a radioactive waste granulation device comprising a steam outlet configured to discharge steam generated from radioactive waste liquid.

In general, radioactive wastes generated from nuclear power plants or research institutes are much smaller than domestic or industrial wastes, but have a high risk of radiation leakage and have a long treatment period. In order to reduce the influence of radiation on the environment, such radioactive waste is solidified by using polymer, paraffin, or cement. Among the radioactive waste, radioactive waste liquid contains a large amount of water contained in the radioactive waste liquid. Concentrate and dry it to make granulated radioactive waste, and put it in the prescribed drum and solidify by injecting solidifying agent (solidifying resin) such as polymer, paraffin or cement into the drum.

In addition, the prior art concentrates by evaporating a large amount of water contained in the radioactive waste by using a water evaporator (waste evaporator) in order to concentrate and dry the radioactive waste as described above to form granulated radioactive waste. It is difficult to carry out a process of evaporating the moisture of the concentrated radioactive waste liquid by making it into a concentrated radioactive waste liquid and re-heating the concentrated radioactive waste liquid as a concentrated waste liquid drying apparatus, which requires continuous research and development.

The present invention has been made in order to improve the problems according to the prior art related to the radioactive waste granulation device, the composition of the radioactive waste liquid granulation device such as a water evaporation device and a concentrated waste liquid drying device is a complicated problem and the radioactivity made in the water evaporation device In order to granulate the concentrated waste liquor, special care must be taken to ensure safety when transferring the radioactive concentrated waste liquor to the concentrated waste liquor drying apparatus, thereby causing a problem that the efficiency of the radioactive waste granulation unit decreases. The main purpose is to provide.

The present invention is to realize the desired object as described above,

A hollow tank having an inlet for introducing the radioactive waste liquid and capable of embedding the radioactive waste liquid; A heat supply device for supplying heat into the tank; A steam outlet formed at a predetermined position of the tank and discharging steam generated from the radioactive waste liquid heated by the heat supply device; A discharge port configured at a lower end of the tank and having an outlet door for controlling the discharge of granulated radioactive waste; A rotating shaft rotatably mounted in the hollow of the tank and rotatable as a drive device; A plurality of left blades each having a predetermined length and mounted to be inclined in a right-screw direction to a plurality of support members vertically extending from one side of the rotation shaft at regular intervals; A plurality of right blades each having a predetermined length and mounted inclined in a left screw direction on a plurality of support members vertically extending from the other side of the rotation shaft at regular intervals; It presents a radioactive waste granulation device comprising a; a dispersion blade having a predetermined length, mounted to one or more support members extending vertically at a predetermined position of the rotation axis between the left blade and the right blade.

The radioactive waste granulation device according to the present invention presented as described above can concentrate and dry the radioactive waste liquid containing a large amount of water at once to make granulated radioactive waste, and can process the concentration and drying of the radioactive waste liquid collectively. It is easy to secure safety due to the transport of the radioactive concentrated waste liquid, and the efficiency of the radioactive waste liquid granulation treatment may be provided by providing the simplicity of the whole process.

1 is a cross-sectional view showing a radioactive waste liquid granulation apparatus according to a preferred embodiment of the present invention.
Figure 2 is a cross-sectional view showing a radioactive waste liquid granulation device according to a preferred embodiment of the present invention (when the radioactive waste liquid is concentrated).
Figure 3 is a cross-sectional view showing a radioactive waste liquid granulation device according to a preferred embodiment of the present invention (when granulating radioactive concentrated waste liquid).
Figure 4 is a cross-sectional view showing a radioactive waste liquid granulation device according to a preferred embodiment of the present invention (when the granulated radioactive waste is discharged from the tank).
Figure 5 is a perspective view of the rotary shaft, left and right blades and the dispersion blade of the radioactive waste liquid granulation device according to a preferred embodiment of the present invention.
Figure 6 is a perspective view of the rotary shaft and the dispersion blade of the radioactive waste liquid granulation device according to a preferred embodiment of the present invention.
Figure 7 is a partial cross-sectional view showing a tank of the radioactive waste liquid granulation device according to a preferred embodiment of the present invention.
Figure 8 is a perspective view showing a dispersion member of the radioactive waste liquid granulation device according to a preferred embodiment of the present invention.

The present invention relates to a radioactive waste granulation device for evaporating moisture of a radioactive waste liquid to make a concentrated waste liquid, and to drying the concentrated radioactive waste liquid to produce granulated radioactive waste. 11) a hollow tank (10) configured and capable of embedding radioactive waste liquid; A heat supply device 20 for supplying heat into the tank 10; A steam outlet (12) configured at a predetermined position of the tank (10) and discharging steam generated from the radioactive waste liquid heated by the heat supply device (20); An outlet 13 formed at the bottom of the tank 10 and having an outlet door 14 for controlling whether the granulated radioactive waste is discharged; A rotating shaft (30) rotatably mounted in the hollow of the tank (10) and rotatable as a drive unit (90); A plurality of left blades 40 each having a predetermined length and mounted to be inclined in a right screw direction to a plurality of support members 70 extending vertically from one side of the rotation shaft 30 at regular intervals; A plurality of right blades 50 having a predetermined length and mounted to be inclined in a left screw direction to a plurality of support members 70 extending vertically from the other side of the rotation shaft 30 at regular intervals; And a dispersion blade 60 mounted to one or more support members 70 having a predetermined length and extending vertically at a predetermined position of the rotation axis 30 between the left blade 40 and the right blade 50. The present invention relates to a radioactive waste granulation device.

Hereinafter, the present invention will be described in detail with reference to FIGS. 1 to 8 showing embodiments of the present invention.

Specifically, in the present invention, as shown in Figures 2 to 4, the inlet 11 for introducing the radioactive waste liquid is composed of a hollow tank 10 capable of embedding the radioactive waste liquid, and heat supply for supplying heat to the inside of the tank 10. The apparatus 20 is configured to evaporate a considerable amount of water in the radioactive waste liquid containing a large amount of water inherent in the tank 10 to form a radioactive concentrated waste liquid, and further heat is added to the radioactive concentrated waste liquid to granulate the radioactive waste. It is possible to realize the effect. At this time, the tank 10 is preferably completely sealed so that the liquid or solid radioactive waste does not flow out from the inside of the hollow tank 10, and the inlet for introducing the radioactive waste liquid for the first time is also the tank of the radioactive waste liquid. It is desirable to have a switchgear, such as a valve, to control the draw-in.

In addition, the heat supply device 20 is a configuration for evaporating the water contained in the radioactive waste liquid contained in the tank 10, as long as the configuration can supply heat to the inside of the tank 10 may be any configuration, heating wire, And a heating means for heating the radioactive waste liquid, such as a steamer or a hot air fan, and configured to adjust heat applied according to the amount of water in the radioactive waste liquid contained in the tank 10 or the degree to which the radioactive waste liquid is granulated. It is preferable.

At this time, in the present invention, the tank 10 is configured in a dual structure in which the outer body 15 and the inner body 16 have a predetermined interval, and the heat supply device 20 includes the outer body 15 and the inner body 16. By supplying heat at regular intervals, the main heating medium (heating wire, steam or air) of the heat supply device 20 is directly connected to the radioactive waste liquid or radioactive concentrated waste liquid contained in the inner body 16 of the tank 10. By heating the inner body 16 without contact and applying heat, and heating the radioactive waste liquid or radioactive concentrated waste liquid in contact with the inner body 16, the heating medium does not contain low level radioactive material, Waste heat is recovered to realize a reusable effect.

In addition, the present invention is the moisture contained in the radioactive waste liquid (or radioactive concentrated waste liquid) inside the tank 10 to be heated and vaporized by the heat supply device 20 as shown in Figure 2 to 3 in a predetermined position of the tank 10 Is configured and configured to be discharged to the outside of the tank 10 through the steam outlet 12 connected to the inside of the tank (10). At this time, those skilled in the art can discharge only the steam at the connection opening of the steam outlet 12 and the tank 10, and the radioactive waste liquid, the radioactive concentrated waste liquid or the concentrated and dried radioactive waste in the tank 10 through the steam outlet 12. It may be configured to further include a filtering means such as a filter so as not to flow out of the tank 10, radioactive material blocking device for blocking the low-level radioactive material of particulates that may be included in the steam discharged to the outside of the tank (10) To the steam outlet 12 is also possible.

In addition, the present invention is rotatably mounted in the hollow of the tank 10, as shown in Figure 5, the rotating shaft 30 as a drive device (90); A plurality of left blades 40 each having a predetermined length and mounted to be inclined in a right screw direction to a plurality of support members 70 extending vertically from one side of the rotation shaft 30 at regular intervals; A plurality of right blades 50 having a predetermined length and mounted to be inclined in a left screw direction to a plurality of support members 70 extending vertically from the other side of the rotation shaft 30 at regular intervals; And a dispersion blade 60 having a predetermined length and mounted to at least one support member 70 extending vertically at a predetermined position of the rotation axis 30 between the left blade 40 and the right blade 50. However, the left and right blades 40 and 50 and the dispersion blades 60 mounted on the rotating shaft 30 by the support member 70 are the tank 10 or the inner body 16, hereinafter the 'tank 10'. '). The radioactive waste liquid containing a large amount of water inherent in the tank 10 is continuously transferred in the tank 10 to promote the evaporation of water in the radioactive waste liquid, and the radioactive waste liquid concentrated by evaporation of a predetermined moisture (radioactive When the concentrated waste solution) is granulated, the granulated radioactive waste solution is continuously mixed, thereby enabling the batch treatment of the radioactive waste liquid containing a large amount of initial moisture into the granulated radioactive waste.

That is, the plurality of support members 70 having the predetermined length and vertically extending from one side of the rotation shaft 30 at regular intervals may rotate the left and right blades 40 and 50 and the dispersion blade 60 to the rotation shaft ( 30, the left and right blades (40, 50) and the dispersion blades (60) function to support the rotatable around the rotation axis (30) adjacent to the inner surface of the tank (10) In this case, the length of the support member 70 can be variously modified so that the left and right blades 40 and 50 and the dispersion blade 60 can stably adjoin the inner surface of the tank 10 according to the judgment of those skilled in the art. In order to install and maintain the rotary shaft 30, the left and right blades 40 and 50, or the dispersion blade 60, the support member 70 may be rotated to the rotary shaft 30, the left and right blades 40 and 50, or It is preferable to configure to be detachable with the dispersion blade 60.

In addition, the present invention has a configuration in which the plurality of left blades 40 are mounted to be inclined in a right screw direction to the plurality of support members 70 extending vertically from one side of the rotation shaft 30, respectively, and a plurality of right blades 50. ) Is mounted on the plurality of support members 70 vertically extending from the other side of the rotary shaft 30 so as to be inclined in the left screw direction, which is rotatably mounted in the tank 10. The radioactive waste liquid (intrinsic) positioned at one end of the carrier may be transferred in the direction of the right blade 50, and the radioactive waste liquid (intrinsic) positioned at the other end of the rotation shaft 30 may be transferred in the direction of the left blade 40. By exerting an effective effect, it is possible to transfer the radioactive waste liquid in one direction by using one rotating shaft 30, thereby increasing the reflux of the radioactive waste liquid. Not only can the effect of promoting moisture evaporation for the shaft be obtained, but also in the granulation of the concentrated radioactive waste liquid (radioactive concentrate), the granular form of the granulated radioactive waste liquid is continuously mixed in both directions, thereby radioactive concentration. The effect of promoting the evaporation of water contained in the waste liquid and at the same time producing a good form of radioactive waste granules can be obtained.

At this time, the present invention by forming a plurality of left blades 40 or a plurality of right blades (50) integrally to be mounted on a plurality of support members 70, the radioactive waste liquid concentrated and dried in the tank 10 The effect of increasing the reflux of the radioactive concentrated waste liquid is also feasible. In addition, those skilled in the art will be inclined when the left blade 40 and the right blade 50 are mounted on the support member 70 in consideration of the rotational direction of the rotation shaft 30 (or the left and right blades 40 and 50 inherently Inclination) can be freely deformed, and the inclination angle can be variously applied depending on the type of radioactive waste liquid, the amount of radioactive waste liquid introduced into the tank 10, or the rotational speed of the rotary shaft 30.

In connection with the above, the present invention has a certain length, distributed blade 60 to one or more support members 70 extending perpendicularly to a certain position of the rotation axis 30 between the left blade 40 and the right blade 50. ) Is mounted, the conveying direction of the radioactive waste liquid conveyed in the direction of the right blade 50 by the left blade 40 is refluxed in the direction of the left blade 40 again, by the right blade 50 By making the conveying direction of the radioactive waste liquid conveyed to the left blade 40 in the direction of the right blade 50 again, it is possible to realize the reflux property more times in the hollow of the tank 10 having a certain length. In addition, in the granulated radioactive concentrated waste liquid (the concept including granulated radioactive waste), the left and right blades (40, 50) F is continuously transported between the left and right blades 40 and 50 in the tank 10 to be loaded at a predetermined position of the tank 10 (between the left and right blades 40 and 50 in the tank 10). It is possible to obtain the effect of dispersing the granulated radioactive concentrated waste liquid to both sides of the left and right blades 40 and 50.

At this time, the configuration of the dispersion blade 60 is any form that can disperse the radioactive waste liquid (the concept including the radioactive waste to be granulated) in the direction of each of the left blade 40 and the right blade 50. It is also possible, but as shown in Figure 6 is preferably composed of a double-blade blade of the '∧' type having a predetermined bending angle around the rotating shaft 30. That is, the blade of the '/' surface of the '∧' type as described above is the radioactive waste liquid (granulated radioactive waste) transferred from the left blade 40 toward the right blade 50 again, the left blade 40 Direction, the blade of the '＼' surface is to return the radioactive waste liquid (granulated radioactive waste) from the right blade 50 to the left blade 40 in the direction of the right blade 50 again. It is effective. In addition, it is preferable that the 'blade' type double-blade blade has an outer circumference of the arc shape as shown in Figure 6 to be rotatable adjacent to the hollow inner surface of the tank (10).

In addition, in the present invention, the radioactive waste liquid contained in the tank 10 through the inlet 11 is refluxed through the left and right blades 40 and 50 and the dispersion blade 60 mounted on the rotating shaft 30, and are supplied with heat. When concentrated and dried as an apparatus 20, the granular radioactive waste produced is discharged to the drum 91 prepared outside of the tank 10 through an outlet 13 formed at the bottom of the tank 10. At this time, the outlet 13 is configured with an outlet door 14 for controlling the discharge of the granulated radioactive waste so that the radioactive waste liquid is not discharged to the outlet 13 while the radioactive waste liquid is concentrated and dried, and the radioactive waste liquid is concentrated and dried. When the granular radioactive waste is discharged to the discharge port 13 it is preferable.

In addition, the present invention is configured to further include a dispersion member 80 for discharging and discharging the granulated radioactive waste at the end of the discharge port 13, the granulated radioactive waste discharged to the drum 91 of the drum 91 It is inducible so that it can be stacked with an even horizontal surface inside. That is, in general, since the drum 91 has a wider horizontal cross section than the outlet 13, the granular radioactive waste discharged from the outlet 13 is stacked in the form of being concentrated in the center of the drum 91. When the dispersing member 80 is disposed at the discharging port 13 end, the granular radioactive waste, which is concentrated only at the center of the drum 91, can be dispersed in the direction of the inner circumferential surface of the drum 91, so that the granular radioactive waste is drummed. It is possible to obtain an effect that can be stacked with an even horizontal surface inside the (91). In addition, the dispersion member 80 may be any configuration as long as the granular radioactive waste discharged from the outlet 13 can be stacked with an even horizontal surface inside the drum 91, as shown in FIG. 8. A hollow support tube 81 mounted to the outlet 13; A '∧'-type disperser 83 having a smaller diameter than the hollow support tube 81, the tank 10 side is narrower, and the drum 91 side wider is supported as one or more supports 82. 81 is preferably mounted inside. The dispersion member 80 having the above configuration guides the granular radioactive waste that can be stacked in the center of the drum 91 as a '∧' type dispersion zone 83 to the drum circumferential surface direction and guides the direction. The granular radioactive waste material outside the support tube 81 through the space between the one or more supports 82 (the same concept as the space between the hollow support tube 81 and the '∧'-type disperser 83). As it is discharged to so that the drum 91 can be stacked from the inner circumferential surface direction, as a whole, the granular radioactive waste may be laminated with an even horizontal surface inside the drum 91.

In addition, the present invention is a variety of measurements that can measure the temperature, pressure or humidity inside the tank 10 in the tank 10 in order to appropriately control the concentration or drying state of the radioactive waste liquid to be granulated in the tank 10 It is also possible to further include a sensor, and according to the needs of those skilled in the art can be configured to further include a chemical inlet so that chemicals such as a catalyst for promoting the granulation of radioactive waste liquid can be configured to be able to be injected into the tank (10) In addition, it will be apparent that the door of the tank 10 can be configured to maintain each configuration configured in the tank 10 and the tank 10.

The above has been described with reference to a preferred embodiment of the present invention, but is not limited to the above embodiment, the person having ordinary skill in the art to which the present invention pertains through the above embodiments without departing from the gist of the present invention Can be implemented in a variety of changes.

10 tank 11: inlet
12: steam outlet 13: outlet
14: outlet door 15: outer body
16: inner body 20: heat supply device
30: rotation axis 40: left blade
50: right blade 60: dispersion blade
70: support member 80: dispersion member
81: support tube 82: support
83: dispersion table 90: drive device
91: drum

Claims (6)

An inlet 11 for introducing the radioactive waste liquid, the hollow tank 10 capable of embedding the radioactive waste liquid;
A heat supply device 20 for supplying heat into the tank 10;
A steam outlet (12) configured at a predetermined position of the tank (10) and discharging steam generated from the radioactive waste liquid heated by the heat supply device (20);
An outlet 13 formed at the bottom of the tank 10 and having an outlet door 14 for controlling whether the granulated radioactive waste is discharged;
A rotating shaft (30) rotatably mounted in the hollow of the tank (10) and rotatable as a drive unit (90);
A plurality of left blades 40 each having a predetermined length and mounted to be inclined in a right screw direction to a plurality of support members 70 extending vertically from one side of the rotation shaft 30 at regular intervals;
A plurality of right blades 50 having a predetermined length and mounted to be inclined in a left screw direction to a plurality of support members 70 extending vertically from the other side of the rotation shaft 30 at regular intervals;
And a dispersion blade 60 mounted to one or more support members 70 having a predetermined length and extending vertically at a predetermined position of the rotation axis 30 between the left blade 40 and the right blade 50. Radioactive waste fluid granulation device, characterized in that.
The method of claim 1,
The plurality of left blades 40 or the plurality of right blades 50,
Radioactive waste granulation device, characterized in that the unit is configured to be mounted on a plurality of support members (70).
The method of claim 1,
The dispersion blade 60,
Radioactive waste granulation device, characterized in that the 'blade' double-blade blade having a predetermined bending angle around the rotating shaft (30).
The method of claim 1,
The tank 10,
The outer body 15 and the inner body 16 is composed of a dual structure having a predetermined interval, the heat supply device 20 is characterized in that the heat supply at a predetermined interval of the outer body 15 and the inner body 16 is possible. Radioactive waste liquid granulation device.
The method of claim 1,
The outlet 13 is,
Radioactive waste granulation device, characterized in that it further comprises a dispersing member (80) for discharging and discharging the granulated radioactive waste at the end of the outlet (13).
The method of claim 5,
The dispersion member 80,
A hollow support tube 81 mounted to the outlet 13;
At least one support 82 has a smaller diameter than that of the hollow support tube 81, the tank 10 side is narrower, and the drum 91 side is wider, the '∧' type disperser 83 is the support tube. A radioactive waste fluid granulation device, characterized in that it is mounted on the inside of (81).

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