KR102340348B1 - Apparatus for removing radionuclide of sludge from nuclear power plant - Google Patents

Abstract

A sludge radionuclide removal device of a nuclear power plant includes a pulverizing unit that pulverizes sludge into fine particles among sediments discharged from a storage tank of a wastewater treatment plant of a nuclear power plant, and the fine particles transferred from the pulverizing unit are reacted with an acidic solution a reaction unit for forming a slurry in which radionuclides are separated from the fine particles, a dehydration unit for dehydrating the dehydration solution from the slurry transferred from the reaction unit, and an alkaline solution for the dehydration solution transferred from the dehydration unit It includes a neutralizing unit for neutralizing by reacting with the solution.

Description

Sludge radionuclide removal device of nuclear power plant

The present disclosure relates to a sludge radionuclide removal device for a nuclear power plant.

In general, sediments including sludge, activated carbon, anthracite, gravel, sand, etc., which are low-pollution wastes from which radioactive contaminants are removed, are stored at the bottom of a storage tank of a wastewater treatment plant of a nuclear power plant. Among the sediments, sludge has an amorphous solid form in which small particles are aggregated with each other, and is stored at the bottom of a water tank with approximately tens of tons to hundreds of tons.

Radionuclides containing cobalt (Co) are attached to the sediments stored at the bottom of the storage tank of the wastewater treatment plant of a nuclear power plant. .

One embodiment is to provide a sludge radionuclide removal device for a nuclear power plant that removes radionuclides attached to sediments stored at the bottom of a storage tank of a wastewater treatment plant of a nuclear power plant.

One side is a pulverizing unit that pulverizes sludge into fine particles among sediments discharged from a storage tank of a wastewater treatment plant of a nuclear power plant, and is connected to the pulverizing unit, and the fine particles transferred from the pulverizing unit are mixed with an acidic solution and A reaction unit that reacts to form a slurry in which radionuclides are separated from the fine particles, a dehydration unit connected to the reaction unit and dehydrating a dehydration solution from the slurry transferred from the reaction unit, and the dehydration unit It is connected to and provides a sludge radionuclide removal device of a nuclear power plant comprising a neutralization unit for neutralizing by reacting the dehydration solution transferred from the dehydration unit with an alkaline solution.

The reaction unit is connected to the pulverization unit, and includes a reaction tank in which the fine particles are transported and stirred, a reaction tank chemical tank connected to the reaction tank and supplying the acidic solution to the reaction tank, and a plurality of ultrasonic reaction tanks connected to the reaction tank may include

The dewatering unit may include a filter press.

The neutralization unit may include a neutralization tank connected to the dehydration unit and to which the dehydration solution is transported and stirred, and a chemical tank chemical tank connected to the neutralization tank and supplying the alkaline solution to the neutralization tank.

It may further include a washing unit that is spaced apart from the pulverizing unit and washes the sediments having a larger particle size compared to the sludge among the sediments discharged from the storage tank of the wastewater treatment plant of the nuclear power plant using demineralized water.

According to one embodiment, there is provided a sludge radionuclide removal device for a nuclear power plant that removes radionuclides attached to sediments stored at the bottom of a storage tank of a wastewater treatment plant of a nuclear power plant.

1 is a view showing an apparatus for removing sludge radionuclides of a nuclear power plant according to an embodiment.

Hereinafter, with reference to the accompanying drawings, the embodiments of the present invention will be described in detail so that those of ordinary skill in the art to which the present invention pertains can easily implement them. The present invention may be embodied in many different forms and is not limited to the embodiments described herein.

In addition, throughout the specification, when a part "includes" a certain component, this means that other components may be further included, rather than excluding other components, unless otherwise stated.

Hereinafter, an apparatus for removing sludge radionuclides of a nuclear power plant according to an embodiment will be described with reference to FIG. 1 .

1 is a view showing an apparatus for removing sludge radionuclides of a nuclear power plant according to an embodiment.

Referring to FIG. 1 , the apparatus for removing sludge radionuclide of a nuclear power plant according to an embodiment may be located inside or adjacent to a nuclear power plant, and may be located adjacent to a wastewater treatment plant of a nuclear power plant.

The sludge radionuclide removal device of a nuclear power plant according to an embodiment removes sediments including sludge, activated carbon, anthracite, gravel, sand, etc., which are low-pollution wastes stored at the bottom of a storage tank of a wastewater treatment plant of a nuclear power plant. At the time of disposal, radionuclides including cobalt (Co) attached to the sediments are separated and removed from the sediments. Here, the radionuclide may be cobalt-60 ( ⁶⁰ Co), but is not limited thereto.

The apparatus for removing sludge radionuclides of a nuclear power plant according to an embodiment includes a pulverizing unit 100 , a reaction unit 200 , a dehydration unit 300 , a neutralization unit 400 , and a washing unit 500 .

The pulverizing unit 100 pulverizes sludge among the sediments discharged from the storage tank of the wastewater treatment plant of the nuclear power plant into fine particles.

The crushing unit 100 includes a movable sludge box 110 , a crushing belt conveyor 120 , and a crusher 130 .

The movable sludge box 110 transports the sludge discharged from the bottom of the water tank of the wastewater treatment plant to the pulverizing unit 100 . The movable sludge box 110 may have a variety of known structures capable of transporting sludge.

The crushing belt conveyor 120 transfers the sludge from the movable sludge box 110 to the crusher 130 .

The grinder 130 pulverizes the sludge transported by the grinding belt conveyor 120 into fine particles.

The fine particles pulverized from the sludge in the pulverizer 130 are transferred to the reaction unit 200 by a potential energy difference.

The reaction unit 200 is connected to the crushing unit 100, and reacts the fine particles transferred from the crushing unit 100 with an acidic solution to form a slurry in which radionuclides are separated from the fine particles.

The reaction unit 200 includes a reaction tank 210 , a chemical reaction tank 220 , and a plurality of ultrasonic reaction tanks 230 .

The reactor 210 is connected to the grinder 130 of the grinder 100 and agitates the fine particles pulverized and transported in the grinder 130 . The reaction tank 210 is an agitator (AG) that forms a slurry by stirring the fine particles and the acid solution supplied from the reaction tank chemical tank 220, and the pH of the slurry formed inside the reaction tank 210 and the level of the slurry. Includes a pH measuring water level meter (PHW).

The agitator AG may include a multi-stage impeller, and the upper impeller positioned above the rotating shaft and the lower impeller positioned below the rotating shaft may have different structures. The multi-stage impeller included in the agitator AG may have various known structures.

The pH measuring water level meter (PHW) may have various known structures capable of measuring the pH of the solution and the water level of the solution located inside the reaction tank 210 .

The reactor 210 may include a polypropylene material, and a fluororesin coating layer may be formed inside the reactor 210 . Here, the fluororesin coating layer may include, but is not limited to, Teflon.

The reaction tank chemical tank 220 is connected to the reaction tank 210 , and supplies an acidic solution to the reaction tank 210 . Reactor chemical tank 220 measures the pH and level of an agitator (AG) for preparing an acidic solution by stirring an acidic material and a solvent in the reactor chemical tank 220 and an acidic solution prepared inside the reactor chemical tank 220 and a pH measuring water level meter (PHW). The stirrer AG and the pH measuring water level meter PHW may have the same structures as the stirrer AG and the pH measuring water level meter PHW included in the above-described reaction tank 210, but are not limited thereto. The acidic solution supplied from the chemical tank 220 to the reactor 210 may include hydrogen chloride (HCl), but is not limited thereto.

The plurality of ultrasonic reactors 230 are connected to the reactor 210 , and receive the slurry from the reactor 210 to react the fine particles included in the slurry with the acidic solution using ultrasonic waves. The slurry reacted in the plurality of ultrasonic reactors 230 is supplied back to the reactor 210 by the pump PU.

In the reactor 210 and the plurality of ultrasonic reactors 230 , radionuclides attached to the fine particles included in the slurry react with the acidic solution to be separated from the fine particles and removed.

The slurry containing the fine particles and the acid solution from which radionuclides are separated and removed in the reaction unit 200 is transferred to the dehydration unit 300 by the pump PU.

The dehydration unit 300 is connected to the reaction unit 200 and dehydrates the dehydration solution from the slurry transferred from the reaction unit 200 . The dewatering unit 300 includes a filter press 310 and a movable dewatering cake box 320 .

The filter press 310 may have a variety of known structures capable of dewatering a dewatering solution from a slurry.

The mobile dewatering cake box 320 may have a variety of known structures capable of transporting the dewatered cake from which the dewatering solution has been dewatered from the slurry in the filter press 310 . The dewatering cake in which the dewatering solution is dewatered from the slurry by the movable dewatering cake box 320 may be moved to a disposal site and disposed of.

The dewatering solution dehydrated from the slurry in the dehydration unit 300 is transferred to the neutralization unit 400 by the pump PU.

The neutralization unit 400 is connected to the dehydration unit 300 and neutralizes the dehydration solution transferred from the dehydration unit 300 by reacting it with an alkaline solution.

The neutralization unit 400 includes a neutralization tank 410 and a neutralization tank chemical tank 420 .

The neutralization tank 410 is connected to the filter press 310 of the dehydration unit 300 , and the dewatering solution transferred from the slurry is dehydrated in the filter press 310 and stirred. The neutralization tank 410 stirs the dehydration solution and the alkaline solution supplied from the neutralization tank chemical tank 420 to raise the pH of the dehydration solution to neutralize the dehydration solution (AG) and the pH of the dehydration solution neutralized inside the neutralization tank 410 and a pH measuring water level meter (PHW) to measure the water level. The stirrer AG and the pH measuring water level meter PHW may have the same structures as the stirrer AG and the pH measuring water level meter PHW included in the above-described reaction tank 210, but are not limited thereto.

The neutralization tank chemical tank 420 is connected to the neutralization tank 410 and supplies an alkaline solution to the neutralization tank 410 . The neutralization tank chemical tank 420 is a stirrer (AG) for preparing an alkaline solution by stirring an alkaline material and a solvent in the neutralization tank chemical tank 420, and the pH of the alkaline solution produced inside the neutralization tank chemical tank 420 It includes a pH measuring water level meter (PHW) that measures the water level. The stirrer AG and the pH measuring water level meter PHW may have the same structures as the stirrer AG and the pH measuring water level meter PHW included in the above-described reaction tank 210, but are not limited thereto. The alkaline solution supplied from the neutralization tank chemical tank 420 to the neutralization tank 410 may include sodium hydroxide (NaOH), but is not limited thereto.

The dehydration solution is neutralized by the alkaline solution in the neutralization tank 410 and transferred to a treatment facility such as a wastewater treatment plant through the outlet 411 of the neutralization tank 410 .

The washing unit 500 is spaced apart from the pulverizing unit 100, and among the sediments discharged from the storage tank of the wastewater treatment plant of the nuclear power plant, the sediments having a larger particle size compared to the sludge are washed with demineralized water to remove radionuclides from the sediments. separate and remove

The washing unit 500 includes a washing belt conveyor 510 , a washing tank 520 , and a movable sediment box 530 .

The washing belt conveyor 510 transports the sediment including gravel, sand, etc. having a larger particle size compared to the sludge transported to the pulverizing unit 100 to the washing tank 520 .

The washing tank 520 washes the sediments transported by the washing belt conveyor 510 using pure water introduced through the inlet 521 of the washing tank 520 to separate and remove radionuclides from the sediments. The pure water washing the sediments in the washing tank 520 is transferred to a treatment facility such as a wastewater treatment plant. The washing tank 520 may have a form of a rotary kiln for washing sediments with pure water, but is not limited thereto.

The removable sediment box 530 may have a variety of known structures capable of transporting the sediments that are washed in the washing tank 520 and the radionuclides are separated and removed. The sediment including gravel, sand, etc. from which radionuclides are separated and removed by the removable sediment box 530 may be moved to a disposal site and disposed of.

As described above, the apparatus for removing sludge radionuclide of a nuclear power plant according to an embodiment includes a pulverizing unit 100 , a reaction unit 200 , a dehydration unit 300 , and a neutralization unit 400 , so that a wastewater treatment plant of a nuclear power plant Remove radionuclides contained in the sludge among the sediment discharged from the storage tank of

In addition, the apparatus for removing sludge radionuclide of a nuclear power plant according to an embodiment includes a washing unit 500, so that among the sediments discharged from the storage tank of the wastewater treatment plant of the nuclear power plant, the sediments such as gravel and sand having a larger particle size than the sludge Remove the radionuclides contained in the water and dispose of the sediments easily.

That is, there is provided a sludge radionuclide removal device for a nuclear power plant that removes radionuclides attached to sediments stored at the bottom of a storage tank of a wastewater treatment plant of a nuclear power plant.

Although the embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto. is within the scope of the right.

Grinding unit 100, reaction unit 200, dehydration unit 300, neutralization unit 400

Claims (5)

a pulverizing unit which pulverizes sludge among the sediments discharged from the storage tank of a wastewater treatment plant of a nuclear power plant into fine particles;
a reaction unit connected to the crushing unit and reacting the fine particles transferred from the crushing unit with an acidic solution to form a slurry in which radionuclides are separated from the fine particles;
a dehydration unit connected to the reaction unit and configured to dehydrate the dehydration solution from the slurry transferred from the reaction unit;
a neutralization unit connected to the dehydration unit and neutralizing the dehydration solution transferred from the dehydration unit by reacting it with an alkaline solution; and
Separated from the pulverization unit and separated from the radionuclides by washing the gravel and sand, which are sediments having a larger particle size compared to the sludge, using demineralized water, among the sediments discharged from the storage tank of the wastewater treatment plant of the nuclear power plant. cleaning unit to remove
A sludge radionuclide removal device of a nuclear power plant comprising a. In claim 1,
The reaction unit,
a reaction tank connected to the pulverization unit, and in which the fine particles are transported and stirred;
a reaction tank chemical tank connected to the reaction tank and supplying the acid solution to the reaction tank; and
A plurality of ultrasonic reactors connected to the reactor
A sludge radionuclide removal device of a nuclear power plant comprising a. In claim 1,
The dewatering unit sludge radionuclide removal device of a nuclear power plant comprising a filter press (filter press). In claim 1,
The neutralization unit,
a neutralization tank connected to the dehydration unit and to which the dehydration solution is transferred and stirred; and
A neutralization tank chemical tank connected to the neutralization tank and supplying the alkaline solution to the neutralization tank
A sludge radionuclide removal device of a nuclear power plant comprising a. delete

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