KR101244209B1 - Reprocessing system of paraffin-wax encapsulant - Google Patents

Abstract

PURPOSE: A paraffin waste form reprocessing system is provided to improve a melting speed by melting paraffin powder after pulverizing paraffin. CONSTITUTION: A pulverization unit(10) pulverizes paraffin waste forms into power. A conveyor(20) conveys pulverized paraffin powder from the pulverization unit. A melting unit melts the pulverized paraffin waste forms by the conveyor. A decontamination unit(40) decontaminates radioactive substances by extracting and filtering a paraffin solution. A solidification unit(50) resolidifies a concentrated waste liquid located in the lower part of the melting unit.

Description

Reprocessing System of Paraffin-wax Encapsulant

The present invention relates to a system for reprocessing paraffin solids stored in a nuclear power plant. More particularly, the liquid radioactive waste generated from a nuclear power plant is treated with paraffin to permanently dispose of the paraffin solids temporarily stored in a power plant or permanently disposed. A paraffin solidified body reprocessing system which allows for disposal.

Liquid radioactive waste, which is inevitably generated in the operation of nuclear power plants, is generally evaporated, concentrated and powdered by an evaporator and a concentrated waste drying facility (CWDS), and finally stabilized through solidification.

In Korea, two methods of stabilization of concentrated wastewater are applied: cement stabilization and paraffin stabilization. Cement stabilization using cement was adopted from 1978 to 1995, and paraffin has been applied since 1995. Paraffin stabilization treatment method has been adopted.

Cement stabilization treatment method has excellent compressive strength and durability, but due to the increase in the volume of solids, the disposal cost is enormous, and the use of glass water liberated from the solids causes problems such as corrosion of the drum. .

In addition, paraffin stabilization treatment method can be separated in the solidification process because the paraffin is combined with the dry powder in the physical form, if this layer separation occurs, uniform stabilization is not achieved, and also the compressive strength and cement stabilization treatment method Likewise, there is a problem that it is not suitable for disposal because the leaching resistance property is not good.

Recently, the government is making visible the construction of a permanent disposal site for radioactive waste. In order to bring the radioactive waste stored in a nuclear power plant into the permanent disposal site, it must meet the criteria set forth in the Regulations for the Delivery of Low- and Low-Level Radioactive Waste.

However, currently, liquid radioactive wastes generated from nuclear power plants are treated and stored mainly through paraffin stabilization treatment method. As described above, paraffin stabilization treatment method has low and low level of radioactive waste due to poor leaching resistance. It does not meet the provisions of India.

Therefore, in order to bring the paraffin solids stored inside the nuclear power plant into the permanent disposal site, they must be reprocessed to meet these requirements. To do this, first, the paraffin is separated from the paraffin solid drums, and the remaining concentrated waste powder is It should be taken into the permanent disposal room after it has been processed by the solidification method.

For the same reason, a method for separately separating and treating paraffin from a paraffin solidified drum treated by a paraffin stabilization treatment method has been proposed. As one example, Patent No. 10-930225 (Paparaffin Concentration Solidification Drum of Nuclear Power Plant) Reprocessing apparatus and reprocessing method).

The method proposed in the above document first loads a concentrated waste solidification drum into a paraffin dissolving device with a built-in electric heater to dissolve paraffin inside the drum by heat, and then first separates and recovers paraffin in the drum, After separating and removing the paraffins in a second step, a solidifying agent is added to the drum to solidify the concentrated waste liquid remaining in the drum, wherein the paraffin separated and recovered from the concentrated waste solidification drum is attached to the exhaust gas treatment device. Incineration is performed by a combustion device.

However, because the above method dissolves and separates the paraffins into the liquid phase by means of a dissolving device with a built-in electric heater, the paraffin solids in the drum are not uniformly heated, and the paraffin is separated in the concentrated waste solidified drum made of metal by the electric heater. In addition, the separation process is difficult, and the separation of the concentrated waste powder and the paraffin is not carried out accurately, and thus the separated paraffins contain radioactive materials.

In addition, in order to incinerate the separated paraffins, a combustion device must be provided for incineration of paraffins at each nuclear power plant, and radioactive substances contained in the paraffins may leak to the outside during incineration of the separated paraffins. .

In order to solve this problem, the applicant has applied for and registered a method and a processing apparatus for paraffin solids (Patent No. 1173424), in which the paraffin solids are melted using a paraffin solidus processing apparatus having a double container structure. After separating the mixed liquid into the molten paraffin and the concentrated waste powder by separating the mixed liquid mixed with the paraffin, the concentrated waste powder and the separated liquid by layer separation, and then added the purified liquid to the paraffin remaining in the paraffin solidified body treatment apparatus. It is proposed a method of removing radioactive material by washing.

However, the technique proposed in the patent document takes a considerable time until the paraffin solids are completely melted because the paraffin solids are introduced into the double container in one large agglomerate state, and moreover, the radioactive material is removed from the paraffin solution taken out by layer separation. It does not provide any specific treatment methods, such as how to remove the wastes or how to solidify the concentrated waste liquid again. Therefore, in order to actually use the above technique, it is necessary to develop additional techniques for decontamination method and inventory processing method. Required.

The present invention has been made to solve the problems of the conventional paraffin reprocessing method as described above and to meet the requirements, and the paraffin solidified temporarily stored in the nuclear power plant, separated into paraffin and concentrated waste liquid by reprocessing and disposed of safely. Its purpose is to provide a paraffin solidified reprocessing system that allows for simultaneous processing by a series of integrated processes.

An object of the present invention as described above is a crushing unit for grinding the paraffin solidified body reprocessing system, the paraffin solidified body separated from the paraffin storage drum in powder form; A conveyor for conveying the pulverized paraffin solid powder from the crushing unit; A melting unit for melting the paraffin solid powder conveyed by the conveyor to separate layers; A decontamination unit for removing the radioactive material by filtration by taking out the paraffin solution located above the melting part by layer separation; The solidification unit is made of a solidification unit for solidifying again the concentrated waste liquid located in the lower side of the melting portion, wherein the melting portion includes a container for receiving the paraffin solid powder, and a stirrer installed inside the container, the container is the paraffin It consists of a double container form consisting of an inner casing in which the solid powder is accommodated, and an outer casing installed while forming a space on an outer circumferential surface of the inner casing, wherein the space is filled with a heat medium supplied by a heat medium supply device. Is achieved by

At this time, the heat medium supply device may be implemented by consisting of a heat medium storage tank, a heating heater for heating the heat medium and a heat medium circulation pump and piping for circulating the heat medium.

And it may be carried out that the medicine container or the ultrasonic generator is connected to the receiving container.

In addition, the decontamination unit stores a paraffin storage tank, a filter for filtering radioactive material from the paraffin solution, a pump for supplying the paraffin solution stored in the paraffin storage tank to the filter, and a paraffin solution from which the radioactive material has been removed by the filter. It may be implemented by consisting of a buffer tank.

In addition, the solidification unit may be composed of the concentrated waste liquid drum for storing the concentrated waste liquid taken out from the molten portion, and a solidification storage tank for storing the solidifying agent injected into the concentrated waste liquid drum, The outside may be implemented with a heater.

In the present invention, since the paraffin solid is pulverized by a grinder to melt the paraffin solid powder, the melting speed of the paraffin solid may be further increased.

In addition, the present invention can be maintained in a uniform and stable temperature inside the container because the container of the melt portion is indirectly heated by the heat medium filled therein while forming a double container form.

In addition, the present invention is to separate the paraffin solution by the separation of the layer by the difference in specific gravity, and then to perform a series of processes to remove the radioactive material that may be included in the separated paraffin solution by a filter in a batch Safe and efficient separation of paraffins from solids.

1 is a block diagram of a conventional paraffin solidified body treatment method,
Figure 2 is a block diagram showing an example of a paraffin solidified body reprocessing system according to the present invention,
3 is a block diagram of a molten paraffin solidified body reprocessing system according to the present invention;
4 is a block diagram of a decontamination unit of the paraffin solidified body reprocessing system according to the present invention;
5 is a block diagram of a solidified paraffin solidified body reprocessing system according to the present invention.

Hereinafter, with reference to the accompanying drawings showing a preferred embodiment will be described in more detail the configuration of the present invention.

The present invention relates to a paraffin solidified material reprocessing system for reprocessing paraffin solidified material to be disposed of safely. To this end, the present invention provides a grinding unit 10, a conveyor 20, a melted part ( 30), the decontamination part 40 and the solidification part 50 are included.

The grinding unit 10 is for grinding the paraffin solids separated from the paraffin storage drum of the metal material being temporarily stored in powder form. The grinding unit 10 may include a receiving unit having a space therein as shown in FIG. 11) and a pulverizer 12 which is disposed inside the receiving portion 11 to crush the paraffin solid, and the pulverization portion 30 described below in a powder state by the pulverization of the pulverization portion 10 is a molten portion 30 to be described later. Injecting into the melt increases the melting efficiency and shortens the time. At this time, the particle size of the paraffin solid powder pulverized by the crushing unit 10 is preferably 1mm or less.

There are various methods of separating the paraffin solid from the metal paraffin storage drum. For example, the drum and the paraffin solid are separated by applying heat to the outside of the metal drum, and then using a crane or the like to grind the grinder. The method of placing and placing in the upper part of (10) is mentioned.

In order to make the grinding operation by the grinding unit 10 easier, the upstream side of the grinding unit 10 or the inside of the grinding unit 10 may be first broken into small pieces of lump before grinding the paraffin solids. It is preferable that the crusher 13 which can supply to (10) is further provided.

The paraffin powder pulverized and discharged by the pulverizing unit 10 is transferred to the melting unit 30 to be described later by the conveyor 20. The conveyor 20 for the transfer of the paraffin powder is manufactured by a commonly used conveyor. do.

Melting part 30 is a configuration for melting the paraffin solid powder conveyed by the conveyor 20 by heat, the melting part 30 of the present invention, as shown in FIG. 32), the heat medium supply device 33 and the controller 34, etc., wherein the melter 30 may be optionally further provided with a chemical feeder 35 and the ultrasonic generator 36.

The accommodation container 31 is for receiving the paraffin powder transferred by the conveyor 20 therein to melt the paraffin solid powder injected therein by the heating device 33 to be described later. ) Has a double container form consisting of an inner casing (31A) of a suitable size to accommodate the paraffin solid body and an outer casing (31B) installed while forming a space (S) on the outer peripheral surface of the inner casing (31A). At this time, the lower side and the upper side of the inner casing (31A) is connected to the discharge port is provided with an opening and closing valve respectively.

And inside the inner casing 31A, a stirrer 32 driven by a motor is installed to uniformly melt the paraffin solid powder.

The heat medium supply device 33 is for supplying the heat medium by heating the heat medium to the space S formed between the inner casing 31A and the outer casing 31B of the melted portion 30. 33 is a heat medium storage tank 33A for storing the heat medium, a heating heater 33B installed in the heat medium storage tank 33A for heating the heat medium inside the heat medium storage tank 33A, a heat medium storage tank 33A, The heat medium circulating pump 33C connected to the heat medium storage tank 33A, which is connected to the heat casing storage tank 33A, is supplied to the outer casing 31B of the accommodating container 31 and circulated to connect the apparatuses. The heat medium to be used is made of oil or the like, and this heat medium is heated by the heating heater 33B, and is then formed between the inner casing 31A and the outer casing 31B by the heat medium circulation pump 33C. Is supplied to (S), which The paraffin solidified powder in the inner casing (31A) being indirectly heated by the heat medium, by gender, as a result, the paraffin solidified powder is molten while uniformly heated, the temperature of the heating medium is preferably maintained in the range of 60 ~ 150 ℃.

In this case, the heating heater 33B used to heat the heat medium may be implemented by an electric heater or a heat exchanger, and the heat medium may be any one of water, oil, and glycerin.

The temperature and pressure in the inner casing 31A of the container 31 and the heating heater 33B are controlled by the controller 34.

The paraffin solidified powder contained inside the inner casing 31A has radioactive material physically bonded to the paraffins, and in the present invention, the inner casing 31A is used to facilitate separation of the radioactive material from paraffin or to facilitate precipitation. Into the separation solution or precipitant, etc., wherein, as the separation solution, a mixture of water, a mixture of water and methanol, a mixture of water and ethanol, a mixture of water and an alkaline substance or a mixture of water and an acidic substance, Zeolite, clay or bentonite is used as the precipitant, and the separation solution and the precipitant are supplied by the chemical feeder 35 connected to the inner casing 31A of the receiving container 31.

In addition, an ultrasonic generator 36 may be connected to the inner casing 31A of the accommodation container 31 described above, and the ultrasonic generator 36 may adjust the resonant frequency of the molten liquid paraffin, thereby controlling the precipitant and the liquid paraffin. It effectively removes the air layer and emulsion produced by the chemical reaction and boiling of the solution (vaporizes on the surface and inside of the liquid) and improves the separation of paraffin and concentrated waste. Here, the concentrated waste liquid refers to the remaining solution containing radioactive material (sludge, particulate matter, etc.), aqueous solution, separation solution, and precipitant except for paraffin when the paraffin solid is melted.

The decontamination section 40 provided on the downstream side of the melting section 30 takes out the liquid paraffin melted by the melting section 30 from the outlet formed on the upper side of the inner casing 31A of the receiving container 31 and is purified. In order to perform decontamination by operation, the decontamination unit 40 of the present invention for this purpose is the paraffin storage tank 41, the filter 42, the pump 43 and the buffer tank 44 as shown in FIG. And the like.

The paraffin storage tank 41 is for storing liquid paraffins taken out from the outlet of the receiving container 31. When the paraffin solid is melted, the paraffin storage layer is layered by the ultrasonic generator 36 and the difference in specific gravity with the concentrated waste liquid. Separation proceeds to be located above the concentrated waste in the interior of the receiving container 31, the paraffin storage tank 41 has a function of storing the paraffin of the liquid discharged through the outlet formed on the upper side of the inner casing (31A). do.

The paraffin solution stored in the paraffin storage tank 41 is supplied to the pipe by the pump 43, and the radioactive particulate matter contained therein is removed by the filter 42 installed in the pipe. The filter 42 of the present invention is a cylinder Shaped ceramic filters or metal sintered filters are used, wherein the paraffin solution is supplied from the inside of the filter 42 and then discharged to the outside.

In addition, the filter 42 may be blocked by the radioactive particulate matter filtered over time, and accordingly, in the present invention, the filter 42 may be semi-permanently used by blow-back of the blocked filter 42. To this end, by installing a differential pressure gauge at the front and rear ends of the filter 42, and when the differential pressure of the filter 42 is more than a predetermined amount by spraying compressed air or high pressure water (not shown) supplied from the outside to the surface of the filter 42 The filter 42 is backwashed, and at this time, the radioactive material removed by backwashing is discharged through a separate take-out pipe, and then separately processed after decontamination, or flowed back into the paraffin storage tank 41. do.

The liquid paraffin from which the radioactive particulate matter is removed by the filter 42 is stored in the buffer tank 44 installed downstream of the filter 42. The liquid paraffin stored in the buffer tank 44 has almost no radioactive material. Removed, stabilized for a period of time, and then disposed of itself.

The solidification unit 50 is for downstream solidification of the concentrated waste liquid which is located at the downstream side of the melting unit 30 and is discharged from the outlet located at the lower side of the accommodation container 31. The fire part 50 is comprised of the concentrated waste liquid drum 51, the stirrer 52, and the solidification | storage storage tank 53 as shown in FIG.

The concentrated waste liquid taken out from the outlet located at the lower side of the accommodation container 31 flows into the concentrated waste liquid drum 51, and the concentrated waste liquid introduced into the concentrated waste liquid drum 51 is supplied from the solidification storage tank 53. It is solidified while being mixed with a solidifying agent, in which the stirrer 52 is installed on the upper portion of the concentrated waste liquid drum 51 so that the concentrated waste liquid can be solidified while being uniformly distributed. The temperature of the concentrated waste fluid 51 is lowered outside the concentrated waste fluid 51 to heat the concentrated waste fluid 51 to an appropriate temperature so as to prevent the concentrated waste solution from solidifying during the solidification operation. It is preferable that the heater 54 is provided.

Hereinafter, a process of separating and treating paraffin solids into paraffins and concentrated waste liquids using the paraffin solidified body reprocessing system of the present invention having the above configuration will be described.

First, the metal drum in which the paraffin solids are temporarily stored is placed on the upper part of the crushing unit 10 by using a crane or the like, and then the outside of the metal drum is heated to separate the paraffin solids from the metal drum and pulverizing unit 10. To be put into.

When the paraffin solid is introduced into the pulverization unit 10, the paraffin solid is pulverized into a powder having a particle size of 1 mm or less, and then the paraffin solid powder is conveyed to the receiving container 31 of the melting unit 30 by the conveyor 20. It is injected to melt the paraffin solid powder. In this case, a separation solution or a precipitant is added to promote separation or precipitation of the radioactive material from the paraffin solid powder, and the paraffin solid powder is stirred by the stirrer 32 to completely melt the paraffin solid powder.

After the melting of the paraffin solid powder is completed, the operation of the stirrer 32 inside the melting part 30 is stopped. At this time, the liquid phase paraffin is separated by a difference in specific gravity, and the upper side of the receiving container 31 Paraffin solution is located, and concentrated waste solution is located at the bottom.

Then, the paraffin solution located on the upper side of the receiving container 31 is taken out through the outlet and stored in the paraffin storage tank 41, and the stored paraffin solution is stored in the paraffin solution by the filter 42 of the decontamination unit 40. The paraffin solution is decontaminated by removing the remaining radioactive material, and then stored in the buffer tank 44, and then disposed of itself by stabilizing for a predetermined time.

The concentrated waste solution remains inside the receiving container 31 from which the paraffin solution is taken out, and the concentrated waste solution flows into the concentrated waste drum 51 through an outlet provided in the lower part of the receiving container 31, and then stored in a solidifying agent. After being solidified while being mixed with the solidifying agent supplied from the tank 53, it is disposed of permanently.

As described above, in the present invention, the paraffin solid is melted and separated into a paraffin solution and a concentrated waste liquid, and the separated paraffin solution is decontaminated by a filter 42, and the concentrated waste liquid is solidified by temporarily treating paraffin stored in a nuclear power plant. The solids can be safely and effectively disposed of by a series of pretreatments.

10: crushing unit 11: receiving unit
12: grinder 13: crusher
20: conveyor 30: melting part
31: Receptacle 31A: Inner casing
31B: outer casing 32: stirrer
33: heat medium supply device 33A: heat medium storage tank
33B: Heated heater 33C: Heat medium circulation pump
34: controller 35: chemical feeder
36: ultrasonic generator 40: decontamination unit
41: paraffin storage tank 42: filter
43: pump 44: buffer tank
50: solidification 51: concentrated waste liquid drum
52: Stirrer 53: Solidified Storage Tank
54: burner

Claims (6)

A grinding unit 10 for grinding the paraffin solid separated from the paraffin storage drum into a powder form;
A conveyor 20 for transferring the pulverized solid powder pulverized from the crushing unit 10;
A melting part 30 for melting the paraffin solid powder conveyed by the conveyor 20 to perform layer separation;
Decontamination unit 40 for removing the radioactive material by filtration to remove the paraffin solution located on the upper side of the melted portion 30 by layer separation;
Consists of a solidification unit 50 for solidifying the concentrated waste liquid located in the lower side of the molten portion 30 again,
The melting part 30 includes an accommodation container 31 for receiving the paraffin solid powder and an agitator 32 installed inside the accommodation container 31,
The accommodating container 31 has a double container form including an inner casing 31A in which the paraffin solid powder is accommodated, and an outer casing 31B installed while forming a space S on the outer circumferential surface of the inner casing 31A. Comprised of, the space (S) is filled with the heat medium supplied by the heat medium supply device 33,
Is connected to the inner casing (31A) is provided with a chemical feeder 35 for supplying a separation solution or precipitant therein,
The separation liquid is selected from water, a mixture of water and methanol, or a mixture of water and ethanol, a mixture of water and an alkaline substance, or a mixture of water and an acidic substance, and the precipitant is selected from zeolite, clay, or bentonite. Become,
The decontamination unit 40 includes a paraffin storage tank 41, a filter 42 for filtering radioactive material from the paraffin solution, and a pump for supplying the paraffin solution stored in the paraffin storage tank 41 to the filter 42. (43) and a buffer tank (44) for storing a paraffin solution from which radioactive material has been removed by the filter (42),
The filter 42 is a cylindrical ceramic filter or a metal sintered filter is used,
The cleaning of the filter (42) is performed by backwashing by spraying compressed air or high pressure water on the surface of the filter (42).
The method according to claim 1,
The heat medium supply device (33) is a paraffin solidified body reprocessing system comprising a heat medium storage tank (33A), a heating heater (33B) for heating the heat medium, and a heat medium circulation pump (33C) for circulating the heat medium and piping.
delete delete The method according to claim 1,
The solidification unit 50 is a solidification storage tank 53 for storing a concentrated waste liquid 51 storing the concentrated waste liquid taken out from the melting portion 30 and a solidifying agent introduced into the concentrated waste liquid 51. Paraffin solidified body reprocessing system, characterized in that consisting of.
The method according to claim 5,
Paraffin solidified body reprocessing system, characterized in that the heater 54 is provided on the outside of the concentrated waste liquid 51 of the solidification unit (50).

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