KR102060817B1 - Exclusive Ion Exchanger Set for Portable Radioactive Waste Water Treatment System - Google Patents

Abstract

The present invention is characterized in that it comprises an ion exchanger 101 including an ion exchange resin, an outer jacket 102 surrounding the ion exchanger spaced apart, and lead beads disposed in the space between the ion exchanger and the outer jacket A ion exchanger set for a radioactive contaminated water treatment apparatus.

Description

Exclusive Ion Exchanger Set for Portable Radioactive Waste Water Treatment System}

The present invention provides a method of treating the radioactive material generated from a nuclear power plant due to a natural disaster by falling into reservoirs, lakes, rivers, etc. in the area where civilian residents live, and treating the surroundings when radioactively polluted by radioactive materials. A set of ion exchangers useful for radioactive contaminant treatment devices such as 'mobile radioactive contaminant treatment devices'.

If a radioactive contamination accident occurs due to the fallout of radioactive material in the area where the civilian resides, detailed method and apparatus for treating and supplying contaminated water such as reservoirs, lakes and rivers that are radioactively contaminated will be registered in Korean Patent No. 10-1727216. Presented in The device is equipped with a water treatment device consisting of a membrane separation tank including a suction separator, a nano separation membrane, an ion exchange tower and an activated carbon adsorption tower in a dedicated container, usually stored in a separate place and quickly moved to a place requiring treatment of radioactive contaminated water. We proposed a method for treating radioactive contaminated water directly on site, and the ion exchange tower is proposed as a general structure including ion exchange resin.

In the Republic of Korea Patent No. 10-1727216, the purpose of preventing the exposure of the iceberg to the driver by proposing a structure that can configure the operator's passage in the center by configuring the shielding wall on both sides in order to prevent the radiation exposure of the driver. To achieve this.

On the other hand, in the process of treating the radioactive polluted water according to the Republic of Korea Patent No. 10-1727216, the inside of the ion exchange tower is due to the radioactive material adsorbed on the ion exchange resin, the radioactivity concentration is gradually increased and the end of life. The ion exchange tower at the end of its life should be replaced with a new ion exchange tower infused with a new ion exchange resin, and there is a possibility of radiation exposure of the operator or management personnel.

In more detail, the inside of the container where the ion exchange tower is installed has shielding walls on both sides to prevent the exposure of the operator, but the ion exchange tower that is pulled out of the container is exposed to the outside because it escapes the shielding wall. Personnel operating the device will be exposed to radiation. These radiation exposure concerns reduce the operational efficiency of the device and hinder rapid maintenance activities.

In addition, the ion exchange tower, taken out of the container, is temporarily stored outdoors until the internal ion exchange resin is transferred to a radioactive waste drum and transported to a radioactive waste disposal site. Even with temporary storage, a separate shielding method should be mobilized to prevent radiation exposure.

Republic of Korea Patent No. 10-1727216

In the present invention, the ion exchange tower installed in the mobile radioactive polluted water treatment device is configured to be self-shielded to prevent radiation exposure of the operating personnel or the management personnel during the operation as well as during the operation, thereby improving the operational efficiency and temporarily. It is an object of the present invention to provide an ion exchanger set for a mobile radioactive contaminant treatment device that provides stable shielding even when stored outdoors.

In order to achieve the above object, the present invention

Ion exchanger comprising ion exchange resin,

An outer jacket surrounding the ion exchanger spaced apart from each other, and

Provided is an ion exchanger set for radioactive contaminated water treatment apparatus comprising lead beads disposed in the space between the ion exchanger and the outer jacket.

In another aspect, the present invention provides a ion exchanger set for a radioactive contaminated water treatment device further comprises a lifting lug installed on top of the ion exchanger for the movement of the ion exchanger set.

In another aspect, the present invention provides an ion exchanger set for a radioactive polluted water treatment device further comprises a frame for self-supporting the ion exchanger set.

The present invention provides a mobile radioactive contaminated water treatment apparatus including the ion exchanger set.

The present invention improves the structure to prevent the radiation exposure of the operating personnel or management personnel during operation or replacement in the ion exchanger used in the mobile radioactive contaminated water treatment device, by providing an ion exchanger composed of a magnetic shielding structure It has the effect of achieving the principle of ALARA (As Low As Reasonably Achievable), which is the basic concept of defense, to reduce the exposure of radiation workers to radiation as much as possible.

1 is a conceptual diagram of the ion exchanger set of the present invention shaped.
FIG. 2 is a conceptual view of the self-shielding ion exchanger set of the present invention further comprising a frame for self-supporting.
Figure 3 is a schematic diagram of a container dedicated processing unit of the mobile radioactive polluted water treatment apparatus of the present invention.
Figure 4 is a schematic diagram of a roller device for easily removing the ion exchanger set out of the container in the mobile radioactive contaminated water treatment apparatus of the present invention.

Republic of Korea Patent Registration No. 10-1727216 (mobile radioactive contaminated water treatment device) has proposed a method for the final purification treatment of the radioactive contaminated water treated with the suction-type separation membrane and nano-separation membrane with an ion exchanger.

The present invention relates to an improvement of an ion exchanger used in a process in which radioactive contaminated water treated with a suction separator and a nano separator is treated with an ion exchanger.

In the process of treating the radioactive contaminated water inside the ion exchanger, the radioactive concentration is increased due to the radioactive material adsorbed on the ion exchange resin, and the present invention provides an ion exchanger having a self-shielding structure for shielding radiation generated in this way. to provide.

That is, the present invention

Ion exchanger comprising ion exchange resin,

An outer jacket surrounding the ion exchanger spaced apart from each other, and

Provided is an ion exchanger set for radioactive contaminated water treatment apparatus comprising lead beads disposed in the space between the ion exchanger and the outer jacket.

Hereinafter, the present invention will be described with reference to the drawings showing an example of the present invention. However, the present invention is not limited to the above example.

1 is a conceptual diagram of the ion exchanger set of the present invention shaped. The ion exchanger of the present invention comprises an ion exchange resin. The ion exchange resin treats radioactive contaminated water treated with a suction separator and a nano separator.

In the process of treating the radioactive contaminated water, the inside of the ion exchanger becomes radioactive due to the radioactive material adsorbed on the ion exchange resin, thereby increasing its lifespan. This end-of-life ion exchanger must be replaced with a new ion exchanger infused with a new ion exchange resin, during which the operator or manager may be exposed to radiation. Thus, the ion exchanger set 100 of the present invention includes an outer jacket 102 and a lead placed between the ion exchanger 101 and the outer jacket 102 spaced apart from the ion exchanger 101 and the outside of the ion exchanger 101. The inclusion of the beads 108 prevents the operator or manager from being exposed to radiation during the replacement of the ion exchanger.

The ion exchanger 101 for treating radioactive contaminated water of the present invention includes an inlet nozzle 104 and a treated water nozzle 107 for the inflow and outflow of treated water, and a resin discharge nozzle 106 for discharging the resin. .

The ion exchanger 101 of the present invention is spaced apart from the outside is provided with an outer jacket 102. And after delivery to the site, the installation can be infused with lead beads 108 before the device is operated. The reason why the lead bead 108 is transported to the ion exchanger and injected after the installation is completed before the operation of the device is to reduce the weight during transportation, to facilitate transportation, and also to reduce the possibility of violating the road traffic law due to the weight of lead.

That is, since the radiation generated from the ion exchanger 101 of the present invention is shielded by lead beads 108 filled in the empty space between the ion exchanger 101 and the outer jacket 102 as shown in FIG. This is easy.

The distance between the ion exchanger 101 and the outer jacket 102 is preferably 2-5 cm. This distance provides enough space to fill lead beads for radiation shielding. Lead beads 108 are injected into the space. Lead beads are not limited in form, but a sphere having a diameter of 1 to 10 mm is preferable. In this case, when the radiation concentration in the ion exchanger is 2000 Bq / cm 3 or less, magnetic shielding is possible so that the radiation dose rate at a point 10 cm away from the surface of the double jacket 102 becomes 72.0 µSv / hr. The material of the ion exchanger and the outer jacket is not particularly limited, but is preferably stainless steel and more preferably stainless steel 316 (STS316). Lead beads may preferably be used in the range of about 1 to 2 tons per ion exchanger for radioactivity shielding.

The ion exchange resin filled in the ion exchanger may be an ion exchange resin commonly used in the art, and is preferably a cation or anion exchange resin having a size of 0.3 to 0.85 mm on the average of the resin grains as a styrene material.

The ion exchanger of the present invention may further install a lifting lug 103 on top to facilitate transport.

Referring to FIG. 2, the ion exchanger set of the present invention may further include a frame for independence of the ion exchanger of the magnetic shield structure.

The present invention provides a mobile radioactive contaminated water treatment apparatus including the ion exchanger set. The mobile radioactive contaminated water treatment apparatus supplies electricity to a treatment-only container and a treatment-only container including a membrane separation tank including a suction separator, a nano separation membrane, a water treatment device including an ion exchanger set of the present invention, and an activated carbon adsorption tower. The self may include a dedicated power supply container.

A schematic diagram of a container dedicated to a treatment unit of the mobile radioactive polluted water treatment apparatus of the present invention is shown in FIG. 3, but the present invention is not limited thereto.

According to FIG. 3, the present invention includes a membrane separation tank 112 including a suction separator 111, a nano separator 114, an ion exchanger set 100, and an activated carbon adsorption tower 116 of the present invention. In addition, the mobile radioactive water treatment apparatus of the present invention may further include a membrane treated water storage tank 113 and the ion exchanger treated water tank 115.

The ion exchanger set, the membrane separation tank, and the nano separation membrane of the present invention included in the mobile radioactive contaminated water treatment apparatus may include a moving means at the bottom to facilitate the movement.

The mobile radioactive contaminant treatment apparatus of the present invention may further include a roller device 109 so that the ion exchanger set can be easily taken out of the container or vice versa.

4 is a schematic view of a roller device for easily removing the ion exchanger out of the container. That is, since the container waterproof door is in only one direction, it is difficult to continuously put several ion exchanger sets into the container as shown in FIG. 4 of the present invention. In order to solve this problem, the present invention is composed of a structure that the roller device 109 for the ion exchanger set is provided separately.

The roller device 109 for an ion exchanger set provided in the present invention can have the same effect even when the ion exchanger set which has reached the end of its life is taken out of the container. The ion exchanger set taken out of the container can be transported by crane to the temporary storage area using the lifting lug 103.

This roller device 109 is configured in such a way that one roller can withstand a maximum weight of 3 tons. This is a structure that can accommodate the weight of the ion exchanger 101 and the lead beads 108 at the same time.

Hereinafter, the present invention will be described with reference to one embodiment. However, the present invention is not limited to the following examples.

Example 1. Checking shielding performance

In order to check the shielding performance of the self-shielding type ion exchanger set provided by the present invention, the radiation concentration in the ion exchanger 101 and the surface radiation of the outer jacket 102 of the ion exchanger set having lead beads as shown in Table 1 below. The amount was confirmed.

Radiation concentration in ion exchanger
(Bq / cm 3) Ion exchanger
material Thickness of empty space (space where lead beads are filled) Distance from double jacket surface Radiation Dose Rate (μSv / hr 2043.2 STS316 3 cm 10 cm 72.2

According to the embodiment of the present invention as described above, the radiation dose rate at the surface of the outer jacket 102 of the ion exchanger set is 72.2μSv / hr which is 100μSv / hr prescribed for the package containing the radioactive material in the nuclear safety law Lower than

100: ion exchanger set 101: ion exchanger
102: outer jacket 103: lifting lugs
104: inflow nozzle 105: vent nozzle
106: resin discharge nozzle 107: treated water nozzle
108: lead beads 109: roller device
111 separation membrane 112 membrane separation tank
113: membrane treatment water storage tank 114: nano membrane
115: ion exchange treatment tank 116: activated carbon adsorption tower
117: shielding wall

Claims (5)

A portable radioactive contaminated water treatment apparatus including a membrane separation tank including a suction separation membrane, a nano separation membrane, an ion exchanger set, and an activated carbon adsorption tower,
The ion exchanger set is
Ion exchanger comprising ion exchange resin,
An outer jacket surrounding the ion exchanger spaced apart from each other, and
Lead beads disposed in the space between the ion exchanger and the outer jacket;
The distance between the ion exchanger and the outer jacket is 2 ~ 5cm,
The lead beads are mobile radioactive contaminated water treatment device, characterized in that the sphere of 1 ~ 10mm in diameter The apparatus of claim 1, further comprising a lifting lug installed on an upper portion of the ion exchanger to move the ion exchanger. The apparatus of claim 1, further comprising a frame for self-supporting the ion exchanger. delete The mobile radioactive polluted water treatment apparatus according to claim 1, wherein the mobile radioactive contaminated water treatment apparatus has a container shape and further includes a roller device 109 at the bottom of the container.

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