JP2957818B2 - High temperature incinerator and high temperature incineration method - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention is used to stabilize combustible and non-combustible solid low-level radioactive waste generated in nuclear power plants and other facilities related to nuclear reactors by incineration, volume reduction, slag conversion. The present invention relates to a high-temperature melting incinerator and a high-temperature melting incineration method.

[0002]

2. Description of the Related Art Incinerators for incinerating and reducing the volume of miscellaneous solid low-level radioactive waste generated at nuclear power plants and other nuclear reactor-related facilities include incinerators dedicated to combustible materials and combustible materials and non-combustible materials. There has been proposed a high-temperature incinerator for incinerating and melting materials and flame retardants at the same time. Incinerators for incinerating miscellaneous low-level radioactive waste generated at these reactor-related facilities generate combustion exhaust gas containing radionuclide dust during combustion. is important.

For exhaust gas treatment in an incinerator dedicated to combustible waste, Japanese Patent Application Laid-Open No. 62-9297 discloses a method using a ceramic filter. As shown in FIG. 2 of the publication, the temperature of the exhaust gas entering the ceramic filter is as high as 1000 ° C., so that the exhaust gas of an incinerator dedicated to this kind of combustible waste is used. For processing, a ceramic filter based on silicon carbide is used from the viewpoint of heat resistance.

[0004] However, incinerators dedicated to combustibles require additional volume reduction equipment to treat incombustible radioactive waste. For this reason, a mixture of combustible and non-combustible radioactive wastes can be treated at the same time.
A high-temperature melting incinerator described in Japanese Patent Publication No. 99 has been proposed. This high-temperature molten incinerator puts combustible, flame-retardant, and non-combustible radioactive waste in a high-temperature molten incinerator and incinerates it.
In addition to reducing the volume of incineration residues and incombustibles by melting, the generated high-temperature exhaust gas is recombusted, then brought into contact with a cleaning liquid, cooled, and then dust is removed through a high-performance filter.

[0005]

In an incinerator, if a ceramic filter is used for a certain period of time, it becomes impossible to use the filter because the differential pressure increases due to clogging or the like. Therefore, it is necessary to discard the used filter and replace it with a new filter. There is. Since the used waste filter accumulates radioactive substances in the exhaust gas, it becomes radioactive secondary waste. As described above, the ceramic filter used in this incinerator is made of silicon carbide and has a melting point of 2700.
Since the temperature is very high at about ℃, it is difficult to reduce the volume by melting and there is a problem in stabilizing the accumulated radioactive material.

The high-temperature melting incinerator described in Japanese Patent Application Laid-Open No. 61-233399 is a method that does not use a ceramic filter and uses an organic high-performance filter. Is relatively easy. However, in this system, the gas is cooled to 200 ° C or less by directly contacting the high-temperature exhaust gas generated from the incinerator with a cleaning liquid such as radioactive waste liquid, so that the gas contains a high concentration of moisture. However, generation of mist is inevitable with the subsequent gas cooling, and this mist has problems such as accelerating clogging of the high-performance filter and adversely affecting backwashing.

The present invention has been made in view of the above circumstances, and solves the problems of the conventional incinerator used for the incineration of low-level radioactive waste, thereby simultaneously combustible substances, incombustible substances, and incombustible substances. High-temperature melting incinerator and high-temperature melting capable of efficiently treating exhaust gas in a high-temperature melting furnace capable of melting and reducing the volume of combustion residues and incombustibles by incineration and capable of in-system processing of used filters It aims to provide an incineration method.

[0008]

According to the first aspect of the present invention, a radioactive waste containing combustibles, non-combustibles, and flame-retardants is reduced to 13%.
Incineration at an operating temperature of 00 to 1500 ° C to melt incombustibles,
A high-temperature melting incinerator for volume reduction, cooling means for cooling high-temperature exhaust gas generated from the high-temperature melting incinerator, and exhaust gas cooled by the cooling means were generated from waste at the operating temperature of the high-temperature melting incinerator. Exhaust gas filtering means for removing dust in the exhaust gas by filtering through a ceramic filter made of a material which can be melted together with the slag, and crushing the used waste filter taken out from the exhaust gas filtering means and removing the crushed material from the radioactive waste And a waste filter treatment means for mixing the wastewater into the high-temperature incinerator.

According to a second aspect of the present invention, in the high-temperature molten incinerator according to the first aspect, a radioactive waste including combustibles, incombustibles, and flame-retardant is shredded before the high-temperature incinerator. A shredder, a mixture of mixing various radioactive waste or the radioactive waste shredded by the shredder with the waste filter crushed material transferred from the waste filter processing means and transferring the mixed waste to a high-temperature melting incinerator. And a transfer device.

According to a third aspect of the present invention, a combustible material and an incombustible material,
Radioactive waste containing flame retardants is put into a high-temperature incinerator and incinerated at an operating temperature of 1300 to 1500 ° C to melt and reduce the volume of incombustibles and incineration residues. The exhaust gas is cooled by a cooling means, and then filtered through a ceramic filter made of a material which can be melted together with the slag generated from the waste at the operating temperature of the high-temperature incinerator to remove dust in the exhaust gas. A method, wherein the used ceramic filter is crushed, the crushed material is mixed with the radioactive waste and charged into the high-temperature melting incinerator, and the crushed material and the non-combustible and incinerated residue of the radioactive waste are removed. This is a high-temperature melt-incineration method characterized by melt-mixing.

In the above-mentioned high-temperature melting and incineration method, it is desirable that the high-temperature exhaust gas generated in the high-temperature melting and incineration furnace is cooled to 300 ° C. to 400 ° C. and then filtered with a ceramic filter.

[0012]

As described above, the high-temperature melting incinerator according to the present invention can reduce the amount of radioactive waste including combustibles, incombustibles, and flame-retardants by 130.
A high-temperature incinerator for incineration at an operating temperature of 0 to 1500 ° C. to melt and reduce the volume of incombustibles, cooling means for cooling high-temperature exhaust gas generated from the high-temperature melting incinerator, and cooling by the cooling means Exhaust gas filtering means for filtering the exhaust gas with a ceramic filter made of a material which can be melted together with slag generated from waste at the operating temperature of the high-temperature incinerator to remove dust in the exhaust gas, and the exhaust gas is taken out from the exhaust gas filtering means. Waste filter processing means for crushing the used waste filter, mixing the crushed material with the radioactive waste, and charging the radioactive waste into the high-temperature melting incinerator; ~ 1500
The incombustibles and incineration residues are melted by operating at an operating temperature of 0 ° C, the volume is reduced, and the high-temperature exhaust gas generated in the high-temperature incinerator is cooled by cooling means, and then filtered through the ceramic filter. Remove dust. During the continuous use of this ceramic filter, the differential pressure gradually increases as dust adheres. To prevent the rise of the differential pressure, the clogging condition is improved by performing backwashing. However, even if the backwashing is performed for a long time, if the pressure difference does not decrease, the filter needs to be replaced, and the filter becomes a waste filter. The waste filter itself is radioactive waste because dust containing radionuclides accumulates in this waste filter. In the present invention, a ceramic filter made of a material that can be melted together with slag generated from waste at the operating temperature of the high-temperature incinerator is used, and the used waste filter is crushed and the crushed material is mixed with the radioactive waste. Provide a waste filter processing means to throw into the high-temperature melt incinerator, mix the waste filter crushed material with the radioactive waste, put into the high-temperature melt incinerator and crushed material and radioactive waste incombustible and incineration residue Is melt-mixed, so that a waste filter that is radioactive waste can be treated in the system.

[0013]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below in detail with reference to the drawings. FIG. 1 is a diagram showing an outline of a high-temperature melting incinerator according to the present invention, wherein reference numeral 1 denotes radioactive waste, 2 denotes a shredder, 3
Is a mixing tank, 4 is a high-temperature melting incinerator, 5 is a cooler, 6 is a heat exchanger, 7 is an exhaust gas filtration device equipped with a ceramic filter, 8 is a waste filter crusher, 9 is a crush filter transfer device, and 10 is cooling. Vessel, 11 is a high-performance filter, and 12 is a slag granulator.

The high-temperature molten incinerator 4 incinerates the input radioactive waste at an operating temperature of 1300 to 1500 ° C. and melts incineration residues and incombustibles in a high-temperature atmosphere in the furnace to reduce the volume. Is performed. As the high-temperature incinerator 4, various types can be used. For example, an auxiliary burner using gas or petroleum as fuel is provided for controlling the furnace temperature, or a reburning chamber is provided at the lower stage of the high-temperature incinerator. It may be provided to improve the combustion efficiency. The incombustible material (slag) melted and reduced in volume in the high-temperature melting incinerator 4 is transferred from the bottom of the furnace to the slag granulator 12, where it is put into water and turned into small pieces of slag crushed material. After this slag crushed product is dried, it is filled in a storage container such as a drum and stored and managed by a predetermined method.

Exhaust gas leaving the high-temperature incinerator 4 is cooled by a cooler 5
, Where air is blown in, and further cooled to about 300 to 400 ° C. in the heat exchanger 6.

An exhaust gas filtering device 7 equipped with a ceramic filter is connected to a stage subsequent to the heat exchanger 6. This ceramic filter is made of a ceramic material that can be melted together with slag generated from waste at the operating temperature (1300 to 1500 ° C.) of the high-temperature incinerator 4 and contains radionuclides in exhaust gas from the high-temperature incinerator 4. It has a filtering performance that can remove dust almost completely. As such a ceramic material, there are various kinds of glass and various materials such as a ceramic material containing SiO ₂ and CaO as main components. Of these materials, the operating temperature of the high-temperature incinerator 4 and the heat exchanger An appropriate material may be selected and used in consideration of the exhaust gas temperature (filtration temperature) from 6 or the suitability for processing into a filter.

The waste filter crusher 8 is not particularly limited as long as it can crush a used ceramic filter (waste filter) to a size of several cm or less. A jaw crusher or the like can be employed. The crushing filter transfer device 9 for transferring the crushed filter crushed by the waste filter crusher 8 to the mixing tank 3 can use a normal vibration conveyor, belt conveyor, bucket conveyor, or the like which is provided with dustproof measures. Waste filter processing means 13 comprising these waste filter crusher 8 and crush filter transfer device 9
It is desirable that a closed system be constructed by attaching a series of processing equipment connected to the high-temperature melting incinerator 4.

Shredder 2 for shredding radioactive waste 1
It is desirable to select and use various well-known shredders according to the material of the radioactive waste. When the radioactive waste 1 to be discharged is made of a wide variety of materials, a plurality of shredders suitable for the material may be installed, and the waste may be separated and processed by an appropriate shredder. As the mixing tank 3, a well-known stirring mixing tank in which a stirring blade for stirring and mixing the shredded waste or the waste and the crushing filter transferred by the crushing filter transfer device 9 is used. Further, the mixing tank 3 is provided with a supply device for charging a predetermined amount of mixed waste and the like from an input port provided at a predetermined position of the high-temperature melting incinerator 4.

On the exhaust side of the exhaust gas filtering device 7, an exhaust gas secondary filtering means 14 having a cooler 10 and a high-performance filter 11 is provided. Filtering is performed again.

Next, the high-temperature melting and incineration method according to the present invention will be described with reference to an example in which the above-described high-temperature melting and incineration furnace is used. Miscellaneous low-level radioactive waste discarded from nuclear power plants and other nuclear reactor-related facilities includes waste of various materials, such as paper and wood, and combustible materials such as plastic and wood. Rubbers and the like, and non-combustible substances include inorganic substances such as glass, concrete, and various metal wastes.

These radioactive wastes 1 are first separated as necessary, and then put into a shredder 2 and shredded to several cm square or less. The shredded radioactive waste is transferred into the mixing tank 3 so that the combustibles and the non-combustibles (including a crushing filter if included) have an appropriate ratio. Here, if the ratio of incombustibles is increased, the heat generated when incinerated in the high-temperature incinerator 4 is reduced. In this case, an auxiliary burner is used to maintain the furnace temperature.

The operating temperature of the high-temperature incinerator 4 is 1300
The temperature is set to 1500 ° C. In order to maintain this operating temperature,
In addition to adjusting the thermal power of the above auxiliary burner, introduced air (or oxygen)
It is appropriately adjusted by adjusting the amount. The combustibles of the radioactive waste put into the high-temperature melting incinerator 4 burn, while the non-combustibles and combustion residues (ash) melt under the high-temperature conditions in the furnace and collect at the bottom of the furnace. Molten material (molten slag) accumulated at the furnace bottom
Is taken out into the slag granulator 12, where it is dropped into water and rapidly cooled to form small slag. After drying, the slag is stored in a storage container such as a drum and sealed, and then stored and managed in a predetermined radioactive waste storage facility.
In this way, radioactive waste is incinerated in the high-temperature melting incinerator 4,
By melting incombustibles and the like to form slag, the volume of radioactive waste can be reduced to an extremely small volume.

On the other hand, 1000 ° C.
Exhaust gas at a high temperature is discharged. The exhaust gas contains dust containing radionuclides from the radioactive waste 1. The high-temperature exhaust gas is cooled to about 300 to 400 ° C. by the cooler 5 and the heat exchanger 6, and then sent to an exhaust gas filtering device 7 having a ceramic filter. Note that the exhaust gas cooling temperature by the heat exchanger 5 and the cooler 6 may be a temperature at which the mechanical strength of the ceramic filter does not decrease, and is desirably set appropriately according to the heat resistance of the ceramic filter to be used.

The exhaust gas after dust removal through the ceramic filter in the exhaust gas filtering device 7 is discharged to the exhaust gas secondary filtering means 1.
After cooling to about room temperature by the cooler 10, it is filtered at least once with the high-performance filter 11, and is released after confirming that the presence of radionuclides is negligible.

The differential pressure of the ceramic filter in the exhaust gas filtering device 7 gradually increases as the dust is adsorbed. To prevent the rise of the differential pressure, the clogging condition is improved by performing backwashing. However, even if the backwashing is performed for a long time, if the pressure difference does not decrease, the filter needs to be replaced, and the filter becomes a waste filter.
The waste filter itself is radioactive waste because dust containing radionuclides accumulates in this waste filter.

This waste filter is used as waste filter processing means 1.
3 and transferred to the mixing tank 3. The exhaust filter removed from the exhaust gas filtering device 7 is first crushed by the waste filter crusher 8 into small pieces of several cm square or less. If necessary, the crushing filter may be crushed into a powder by a crusher. Next, the crushed waste filter is transferred to the mixing tank 3 by the crush filter transfer device 9. The processing operation by the waste filter processing means 13 requires sufficient attention to the safety of the working environment in view of handling radioactive waste, and is desirably performed in a closed work facility completely shielded from outside air. Therefore, it is desirable that the waste filter processing means 13 is attached to a series of processing equipment connected to the high-temperature incinerator 4 to constitute a closed system.

The crushing filter transferred to the mixing tank 3 mixes with the radioactive waste in the mixing tank 3. The crushing filter and the radioactive waste are put into the high-temperature incinerator 4 by a normal incineration operation and incinerated. The crush filter melts under high temperature conditions in the furnace, and collects as a molten material at the furnace bottom together with incombustibles and incineration residues of radioactive waste. The melt (molten slag) at the bottom of the furnace is appropriately taken out and granulated by the slag granulator 12.

As described above, the high-temperature incinerator according to this embodiment incinerates radioactive waste 1 containing combustibles, incombustibles, and flame-retardants at an operating temperature of 1300 to 1500 ° C. to melt the incombustibles. A high-temperature incinerator 4 for volume reduction, and a cooler 5 for cooling high-temperature exhaust gas generated from the high-temperature incinerator
And the heat exchanger 6 and the exhaust gas cooled to about 300 to 400 ° C. by the cooler 5 or the heat exchanger 6 from a material that can be melted together with slag generated from waste at the operating temperature of the high-temperature incinerator 4. An exhaust gas filtering device 7 for removing dust in the exhaust gas by filtering through a ceramic filter, and crushing a used waste filter taken out from the exhaust gas filtering means 7 and mixing the crushed material with the radioactive waste to form A waste filter treatment means 13 for introducing the radioactive waste 1 into a high-temperature incinerator 4 for incineration at an operating temperature of 1300 to 1500 ° C. to melt and reduce incombustibles and incineration residues; After the high-temperature exhaust gas generated in the high-temperature melting incinerator 4 is cooled by cooling means, the high-temperature exhaust gas is filtered through the ceramic filter to remove dust in the exhaust gas. . When replacing the clogged ceramic filter due to continuous use, the used waste filter is crushed, transferred to the mixing tank 3, mixed with the radioactive waste 1, and put into the high-temperature melting incinerator. Then, the crushed material, the incombustible radioactive waste and the incineration residue are melt-mixed, so that the waste filter, which is radioactive waste, can be treated in the incineration system. Therefore, radioactive waste including combustibles, incombustibles, and flame retardants can be melted and reduced in volume and stabilized without generating secondary waste.

(Experimental Example) In order to carry out the incineration apparatus and method according to the present invention, it is necessary to stabilize the exhaust gas treatment temperature (exhaust gas temperature after cooling) and operate the high-temperature melting incinerator at an operating temperature (1300 to 1500 ° C.). Below a fusible ceramic filter is required. Therefore, a ceramic filter mainly composed of SiO ₂ , Al ₂ O ₃ , and CaO was prototyped as a suitable ceramic filter when the operating temperature of the high-temperature melting incinerator was 1500 ° C. Using the prototyped filter, the decontamination coefficient was measured using Cs ₂ SO ₄ as a tracer. As a result, the decontamination coefficient of the prototype filter was 2.1 × 10 ⁵
Thus, 1 × 10 ³ to 1 × 10 ⁵ , which is a practical level of the decontamination coefficient in this type of filter, was sufficiently achieved. Further, as a result of a long-term continuous test at 350 ° C. using this filter, it was confirmed that the filter had sufficient heat resistance for practical use.

Further, using a mixed powder of a powder obtained by pulverizing the produced filter and a powder (slag powder) obtained by pulverizing the granulated slag discharged from the high-temperature melting incinerator,
Their melting properties were investigated. That is, length 140mm
One side of a high heat resistant boat was filled with the above powder so as to have a length of 70 mm, and the boat was placed in a furnace with a tilt angle of 15 degrees and kept at 1425 ° C. for 15 minutes. The vitrification state and the length of "drip" due to melting were examined. Table 1 shows the results.

[0031]

[Table 1]

As shown in Table 1, the ceramic filter used in this experiment was operated at a temperature of 15 ° C., which is the operating temperature of the high-temperature incinerator.
Vitrification (melting and solidification) is sufficiently possible at 00 ° C. In particular, when mixed with the molten and solidified slag discharged from the incinerator of a nuclear power plant, the melting point tends to decrease, which is suitable for mixing with incombustibles.

From the above examination results, it was found that Si
Filters made from raw materials containing O ₂ , Al ₂ O ₃ , and CaO as main components incinerate low-level radioactive waste generated from nuclear power plants and other nuclear reactor-related facilities and melt incombustibles and incineration residues. It can be applied to the treatment of exhaust gas generated from a high-temperature incinerator for volume reduction and stabilization, and the waste filter can be reduced and stabilized by melting and mixing with incombustibles in a high-temperature incinerator. confirmed. Thereby, combustible and non-combustible low-level radioactive wastes discharged from a nuclear power plant or the like are shredded and mixed, and 1300 to 1500
Incineration, melting and volume reduction at ℃, the high-temperature exhaust gas generated at this time is cooled to 300-400 ° C, the dust in this exhaust gas is filtered off with a ceramic filter, and after cooling, filtered through a HEPA filter to make it harmless. Used waste filters containing radionuclides and HEP
A waste filter treatment system capable of reducing and stabilizing the volume in a high-temperature incinerator system without using the A filter as secondary waste has been completed.

[0034]

According to the present invention, radioactive waste including combustibles, incombustibles, and flame retardants discharged from nuclear power plants and other nuclear facilities is incinerated at an operating temperature of 1300 to 1500 ° C. High-temperature incinerator for melting and reducing the volume of materials, cooling means for cooling the high-temperature exhaust gas generated from the high-temperature incinerator, and slag for producing the cooled exhaust gas from the waste at the operating temperature of the high-temperature incinerator And an exhaust gas filtering device that removes dust in the exhaust gas by filtering through a ceramic filter made of a material that can be melted, and crushes the used waste filter taken out from the exhaust gas filtering means and mixes the crushed product with the radioactive waste. And a waste filter processing means for introducing the waste gas into the high-temperature incinerator and cooling the high-temperature exhaust gas discharged from the high-temperature incinerator and removing the dust with a ceramic filter. By burning inflammables in waste, reducing and stabilizing the volume by melting incombustibles, the used waste filter is reduced to secondary waste, and the volume is reduced in the high-temperature incinerator system. Can be stabilized. As described above, the present invention uses a ceramic filter made of a material that melts at or below the operating temperature of the incinerator as a filter for exhaust gas treatment of a high-temperature incinerator, and converts a waste filter into slag together with incombustibles in an incinerator system. By providing waste filter treatment means, not only radioactive secondary waste can be treated in the system, but also the slag generated has high radionuclide containment stability, which has a great advantage of facilitating disposal of waste. doing.

[Brief description of the drawings]

FIG. 1 is a schematic configuration diagram showing an example of a high-temperature melting incinerator according to the present invention.

[Explanation of symbols]

 REFERENCE SIGNS LIST 1 Radioactive waste 2 Shredder 3 Mixing tank (mixing and transferring device) 4 High-temperature melting incinerator 5 Cooler (cooling means) 6 Heat exchanger (cooling means) 7 Exhaust gas filtering device equipped with ceramic filter 8 Waste filter crusher Reference Signs List 9 crush filter transfer device 10 cooler 11 high-performance filter 12 slag granulator 13 waste filter processing means 14 exhaust gas secondary filtration means

──────────────────────────────────────────────────続 き Continued on the front page (58) Field surveyed (Int.Cl. ⁶ , DB name) G21F 9/32 G21F 9/30 G21F 9/02

Claims (4)

(57) [Claims] 1. A high-temperature incinerator for incinerating radioactive waste containing combustibles, incombustibles, and flame-retardants at an operating temperature of 1300 to 1500 ° C. to melt and reduce the volume of incombustibles, and the high-temperature incinerator. Cooling means for cooling high-temperature exhaust gas generated from the furnace,
Exhaust gas filtering means for filtering the exhaust gas cooled by the cooling means with a ceramic filter made of a material that can be melted together with slag generated from waste at the operating temperature of the high-temperature melting incinerator to remove dust in the exhaust gas, A high-temperature incinerator provided with a waste filter processing means for crushing a used waste filter taken out from the exhaust gas filtering means, mixing the crushed material with the radioactive waste, and introducing the mixed waste into the high-temperature melting incinerator. 2. A shredder for shredding radioactive waste containing combustibles, incombustibles, and flame retardants, and various radioactive wastes shredded by the shredder, before the high-temperature melting incinerator. 2. A high-temperature melting apparatus according to claim 1, further comprising a mixing and transferring device for mixing the radioactive waste and the crushed waste filter transferred from the waste filter processing means and transferring the mixed waste to a high-temperature melting incinerator. Incinerator. 3. A radioactive waste containing a combustible material, an incombustible material, and a flame-retardant material is put into a high-temperature incinerator, and the temperature ranges from 1300 to 1500 ° C.
The incombustibles and incineration residues are melted by incineration at the operating temperature, and the volume is reduced.The high-temperature exhaust gas generated in this high-temperature incinerator is
A radioactive waste treatment method of cooling by a cooling means, filtering through a ceramic filter made of a fusible material together with slag generated from the waste at the operating temperature of the high-temperature incinerator, and removing dust in the exhaust gas. The used ceramic filter is crushed, and the crushed material is mixed with the radioactive waste and put into the high-temperature melting incinerator,
A high-temperature melting and incineration method comprising melting and mixing the crushed material, incombustible radioactive waste and incineration residues. 4. A high-temperature exhaust gas generated in the high-temperature melting incinerator is cooled to 300 ° C. to 400 ° C. by air dilution and a heat exchanger.
4. The high-temperature melt-incineration method according to claim 3, wherein the mixture is filtered through a ceramic filter after cooling.