JP6081151B2 - Pollutant treatment apparatus and treatment method - Google Patents

Description

  The present invention relates to a pollutant processing apparatus and a processing method for removing radioactive substances attached to an object to be decontaminated.

  Metal debris and concrete debris with radioactive material attached must be decontaminated. As a decontamination work, it is common to wash away radioactive materials adhering to debris with water.

  As a conventional decontamination apparatus, for example, there is one described in Patent Document 1 below. In the mobile decontamination apparatus described in Patent Document 1, a decontamination apparatus having a shower that removes contaminants from a disaster victim by a cleaning liquid is provided in a cleaning liquid processing vehicle.

Japanese Patent No. 4738271

  In the mobile decontamination apparatus described in Patent Document 1 described above, decontamination is performed by applying a cleaning liquid (water) to a victim by a decontamination apparatus having a shower. However, in the case of decontamination only with water, the treatment time becomes long and a large amount of water is required.

  The present invention solves the above-described problems, and an object of the present invention is to provide a pollutant processing apparatus and a processing method that can improve the work efficiency of decontamination work.

  In order to achieve the above object, the pollutant treatment apparatus of the present invention includes an electrolyzed water producing apparatus for producing electrolyzed water, and an electrolyzed water produced by the electrolyzed water producing apparatus as a cleaning liquid for a decontamination target. And a decontamination apparatus that performs decontamination.

  Accordingly, the electrolyzed water production apparatus produces electrolyzed water, and the decontamination apparatus efficiently decontaminates the decontamination target by decontaminating the decontamination target using the produced electrolyzed water as a cleaning liquid. Therefore, it is possible to reduce the amount of decontamination waste liquid and improve the work efficiency of the decontamination work.

  In the pollutant treatment apparatus of the present invention, a neutralization treatment device for neutralizing used electrolytic water is provided, and the decontamination device is one of alkaline electrolytic water and acidic electrolytic water as the electrolytic water. Decontamination is performed using one of the cleaning liquids, and the neutralization apparatus is characterized in that the other electrolyzed water is supplied to the used electrolyzed water to perform neutralization.

  Therefore, it is possible to use the produced electrolyzed water efficiently by using one of the alkaline electrolyzed water and the acidic electrolyzed water produced by the electrolyzed water producing apparatus as the cleaning liquid and the other as the neutralizing agent. In addition, the neutralization treatment can be efficiently performed without using a neutralizing agent or the like, and the wastewater treatment can be easily performed by performing the neutralization treatment.

  In the pollutant treatment apparatus of the present invention, the decontamination apparatus includes a first decontamination apparatus that performs decontamination using alkaline electrolyzed water as the electrolyzed water as a cleaning liquid, and acidic electrolyzed water as the electrolyzed water as a cleaning liquid. A neutralization treatment device that performs neutralization treatment by mixing used alkaline electrolyzed water and acidic electrolyzed water.

  Accordingly, the first decontamination apparatus performs decontamination using, for example, alkaline electrolyzed water produced by the electrolyzed water production apparatus as a cleaning liquid, and the second decontamination apparatus comprises, for example, acidic electrolyzed water produced by the electrolyzed water production apparatus. Is used as a cleaning liquid, and the used alkaline electrolyzed water and acidic electrolyzed water are mixed and neutralized to allow the produced electrolyzed water to be used efficiently. Sum processing can be performed efficiently.

  In the pollutant processing apparatus of the present invention, the decontamination apparatus has a microbubble generator, and the cleaning liquid is generated by mixing the microbubbles generated by the microbubble generator in the electrolyzed water. It is characterized by performing decontamination on the object to be dyed.

  Therefore, since the decontamination object is decontaminated with the cleaning liquid in which microbubbles are mixed in the electrolyzed water, it is possible to efficiently remove contaminants that cannot be removed only with the electrolyzed water, and decontamination of the decontamination object. The amount of decontamination waste liquid can be reduced by carrying out efficiently.

  In the pollutant processing apparatus of the present invention, the decontamination apparatus has an injection nozzle, and the injection nozzle mixes microbubbles in the electrolyzed water and injects a cleaning liquid onto the object to be decontaminated. It is characterized by performing.

  Accordingly, the cleaning liquid in which microbubbles are mixed in the electrolyzed water is sprayed onto the object to be decontaminated by the spray nozzle, so that high-concentration contaminants can be efficiently removed.

  In the contaminant treatment apparatus of the present invention, the electrolyzed water production apparatus and the injection nozzle are connected by a connection hose, and the microbubble generator is provided in the middle of the connection hose.

  Therefore, since the injection nozzle is provided at the tip of the connecting hose, the operability of the decontamination apparatus can be improved and the workability of the decontamination work can be improved.

  The contaminant treatment method of the present invention is characterized in that decontamination is performed on an object to be decontaminated using at least one of alkaline electrolyzed water and acidic electrolyzed water as a cleaning liquid.

  Therefore, it is possible to efficiently perform decontamination on the decontamination object, and work efficiency of the decontamination work can be improved.

  The pollutant treatment method of the present invention is characterized in that after the decontamination object is decontaminated, alkaline electrolyzed water and acidic electrolyzed water are mixed and neutralized.

  Therefore, the produced electrolyzed water can be used efficiently, and the neutralization treatment can be performed efficiently without using a neutralizing agent separately. The waste water treatment can be easily performed.

  The contaminant treatment method of the present invention is characterized in that decontamination is performed on an object to be decontaminated using electrolyzed water mixed with microbubbles as a cleaning liquid.

  Therefore, the contaminant which cannot be removed only by electrolyzed water can also be removed efficiently, and the amount of decontamination waste liquid can be reduced by efficiently decontaminating the object to be decontaminated.

  According to the pollutant processing apparatus and processing method of the present invention, decontamination is performed on an object to be decontaminated using electrolyzed water as a cleaning liquid, so that the work efficiency of the decontamination work can be improved.

FIG. 1 is a schematic diagram illustrating a contaminant processing apparatus according to Embodiment 1 of the present invention. FIG. 2 is a schematic diagram illustrating a contaminant processing apparatus according to Embodiment 2 of the present invention. FIG. 3 is a schematic diagram illustrating a contaminant processing apparatus according to Embodiment 3 of the present invention. FIG. 4 is a schematic diagram illustrating a decontamination apparatus in the contaminant processing apparatus according to the third embodiment. FIG. 5 is a schematic diagram showing another decontamination apparatus in the contaminant processing apparatus.

  Exemplary embodiments of a pollutant processing apparatus according to the present invention will be described below in detail with reference to the accompanying drawings. In addition, this invention is not limited by this Example, Moreover, when there exists multiple Example, what comprises combining each Example is also included.

  FIG. 1 is a schematic diagram illustrating a contaminant processing apparatus according to Embodiment 1 of the present invention.

  The pollutant processing apparatus according to the first embodiment is for processing a decontamination target, for example, metal debris, concrete, and the like, to which a radioactive substance is attached, and processing a decontamination waste liquid. As shown in FIG. 1, the pollutant treatment apparatus of Example 1 includes an electrolyzed water production apparatus 11, a first supply path 12, a cleaning apparatus (decontamination apparatus) 13, a solid-liquid separation apparatus 14, The second supply path 15, the neutralization processing device 16, and the decontamination waste liquid processing device 17 are configured.

  The electrolyzed water production apparatus 11 produces alkaline electrolyzed water and acidic electrolyzed water as electrolyzed water. The alkaline electrolyzed water produced by the electrolyzed water production apparatus 11 is supplied to the cleaning device 13 via the first supply path 12, and the acidic electrolyzed water is neutralized via the second supply path 15. To be supplied.

  The cleaning device 13 performs a decontamination process on the object to be decontaminated using alkaline electrolyzed water. In this case, the cleaning device 13 performs one or more of immersion decontamination processing, high-pressure water spray decontamination processing, ultrasonic decontamination processing, and microbubble decontamination processing using alkaline electrolyzed water. is there.

  The solid-liquid separation device 14 performs a solid-liquid separation process on the alkaline electrolyzed water decontamination waste liquid used in the cleaning device 13, and for example, separates oil from the decontamination waste liquid.

  The neutralization treatment device 16 supplies and mixes acidic electrolyzed water to the decontamination waste liquid of alkaline electrolyzed water treated by the solid-liquid separation device 14 for neutralization treatment. As the acidic electrolyzed water, the acidic electrolyzed water produced by the electrolyzed water production apparatus 11 is used.

  The decontamination waste liquid treatment apparatus 17 is for removing and adsorbing radioactive substances by using, for example, an adsorbent with respect to the decontamination waste liquid containing radioactive substances.

  Here, the decontamination process of the decontamination object by the contaminant processing apparatus of Example 1 mentioned above is demonstrated.

  First, the electrolyzed water producing apparatus 11 produces water by electrolyzing it into alkaline electrolyzed water and acidic electrolyzed water. The alkaline electrolyzed water produced by the electrolyzed water production apparatus 11 is supplied to the cleaning apparatus 13 via the first supply path 12. The cleaning device 13 decontaminates the decontamination object (debris) using alkaline electrolyzed water. In this case, the alkaline electrolyzed water can be efficiently decontaminated because it has an effect of sterilization and organic matter removal. For example, when oil or the like is attached to the object to be decontaminated, this oil can be easily removed together with the radioactive substance. Here, the debris that has been subjected to the cleaning treatment is separately subjected to incineration processing or embedding processing because the radioactive concentration has decreased.

  On the other hand, by performing decontamination processing on the object to be decontaminated, decontamination waste liquid containing oil and radioactive substances is generated. The solid-liquid separator 14 separates oil and the like by performing a solid-liquid separation process on this decontamination waste liquid. The neutralization processing device 16 neutralizes the decontamination waste liquid from which oil and the like have been removed. The electrolyzed water production device 11 supplies the produced acidic electrolyzed water to the neutralization treatment device 16 through the second supply path 15. Therefore, since the decontamination waste liquid is alkaline electrolysis water, the neutralization processing apparatus 16 neutralizes by supplying and supplying acidic electrolysis water to this decontamination waste liquid. Finally, the decontamination waste liquid treatment apparatus 17 adsorbs and removes the radioactive substance with the adsorbent with respect to the decontamination waste liquid that has been neutralized and contains the radioactive substance.

  In Example 1, the electrolyzed water production apparatus 11 produces alkaline electrolyzed water and acidic electrolyzed water, and the cleaning apparatus 13 performs decontamination treatment on the decontamination target using the alkaline electrolyzed water, and then neutralized. Although the treatment apparatus 16 supplied the acidic electrolyzed water to the decontamination waste liquid that is alkaline electrolyzed water and neutralized it, it is not limited to this step. That is, after the cleaning device 13 performs the decontamination processing on the decontamination target using the acidic electrolyzed water, the neutralization processing device 16 supplies the alkaline electrolyzed water to the decontamination waste liquid that is the acidic electrolyzed water to neutralize the processing. May be.

  Moreover, in this Example 1, although the solid-liquid separation apparatus 14 performed the solid-liquid separation process with respect to the decontamination waste liquid containing oil and a radioactive substance, the neutralization processing apparatus 16 neutralized, The process is not limited. That is, the solid-liquid separation device 14 may perform solid-liquid separation processing after the neutralization processing device 16 performs neutralization processing on the decontamination waste liquid containing oil and radioactive substances.

  Thus, in the processing apparatus of the pollutant of Example 1, the electrolyzed water manufacturing apparatus 11 which manufactures alkaline electrolyzed water and acidic electrolyzed water, and the alkaline electrolyzed water or acidic electrolyzed water manufactured by the electrolyzed water manufacturing apparatus 11 And a decontamination apparatus 13 for decontaminating the object to be decontaminated using a cleaning liquid.

  Therefore, the electrolyzed water production device 11 produces alkaline electrolyzed water and acidic electrolyzed water, and the decontamination device 13 uses the produced alkaline electrolyzed water or acidic electrolyzed water as a cleaning liquid, and variously decontamination objects are used. By performing the decontamination by this method, it becomes possible to efficiently decontaminate the object to be decontaminated, and it is possible to reduce the amount of decontamination waste liquid and improve the work efficiency of the decontamination work. In addition, alkaline electrolyzed water and acidic electrolyzed water used as cleaning liquids are made of water and do not use organic decontaminants, etc., and do not pollute the environment, improving safety. it can.

  Moreover, in the processing apparatus of the pollutant of Example 1, the neutralization processing apparatus 16 which performs the neutralization process of the used electrolyzed water which generate | occur | produced by the decontamination process is provided, and the decontamination apparatus 13 includes alkaline electrolyzed water and acidic electrolysis. Decontamination is performed using one of the water as a cleaning liquid, and the neutralization treatment device 16 performs neutralization by mixing the other of the alkaline electrolysis water and the acidic electrolysis water with the decontamination waste liquid. Therefore, it is possible to efficiently use the produced electrolyzed water by using one of the alkaline electrolyzed water and the acidic electrolyzed water produced by the electrolyzed water producing apparatus 11 as a cleaning liquid and the other as a neutralizing agent. Thus, the neutralization treatment can be efficiently performed without using a neutralizing agent or the like, and the wastewater treatment can be easily performed by performing this neutralization treatment.

  Moreover, in the processing method of the contaminant of Example 1, the decontamination target is decontaminated using at least one of alkaline electrolyzed water and acidic electrolyzed water as a cleaning liquid. Therefore, it is possible to efficiently perform decontamination on the decontamination object, and work efficiency of the decontamination work can be improved.

  Moreover, in the processing method of the pollutant of Example 1, after decontamination of the decontamination object, the used alkaline electrolyzed water and unused acidic electrolyzed water are mixed and neutralized. Therefore, the produced electrolyzed water can be used efficiently, and the neutralization treatment can be performed efficiently without using a neutralizing agent separately. The waste water treatment can be easily performed.

  FIG. 2 is a schematic diagram illustrating a contaminant processing apparatus according to Embodiment 2 of the present invention.

  As shown in FIG. 2, the pollutant processing apparatus according to the second embodiment includes an electrolyzed water production apparatus 21, a first supply path 22, a first cleaning apparatus (first decontamination apparatus) 23, and a second supply path. 24, a second cleaning device (second decontamination device) 25, a neutralization processing device 26, third supply paths 27 a and 27 b, a solid-liquid separation device 28, and a decontamination waste liquid processing device 29. ing.

  The electrolyzed water production apparatus 21 produces alkaline electrolyzed water and acidic electrolyzed water as electrolyzed water. The alkaline electrolyzed water produced by the electrolyzed water production device 21 is supplied to the first cleaning device 23 via the first supply path 22, and the acidic electrolyzed water is supplied to the second cleaning path 24 via the second supply path 24. Supplied to the device 25.

  The 1st washing | cleaning apparatus 23 performs a decontamination process using alkaline electrolyzed water with respect to a decontamination target object (debris). The 2nd washing | cleaning apparatus 25 performs a decontamination process using acidic electrolyzed water with respect to a decontamination target object. In this case, each of the cleaning devices 23 and 25 is one of immersion decontamination processing, high-pressure water spray decontamination processing, ultrasonic decontamination processing, and microbubble decontamination processing using alkaline electrolyzed water or acidic electrolyzed water. Or more than one.

  The neutralization processing device 26 neutralizes the electrolytic water decontamination waste liquid used in the cleaning devices 23 and 25. In this case, the decontamination target is decontaminated with alkaline electrolyzed water in the first cleaning device 23 and decontaminated with acidic electrolyzed water in the second cleaning device 25. The neutralization treatment device 26 is supplied with primary decontamination waste liquid made of alkaline electrolyzed water generated in the first cleaning device 23 from the third supply path 27a, and made of acid electrolyzed water generated in the second cleaning device 25. The secondary decontamination waste liquid is supplied from the third supply path 27b, and the decontamination waste liquid made of alkaline electrolyzed water and the decontamination waste liquid made of acidic electrolyzed water are mixed and neutralized.

  The solid-liquid separation device 28 performs solid-liquid separation processing on the decontamination waste liquid neutralized by the neutralization processing device 26, and for example, separates oil from the decontamination waste liquid.

  The decontamination waste liquid treatment device 29 is for adsorbing and removing the radioactive substance by using, for example, an adsorbent with respect to the decontamination waste liquid containing the radioactive substance.

  Here, the decontamination process of the decontamination object by the contaminant processing apparatus of Example 2 described above will be described.

  First, the electrolyzed water production apparatus 21 produces water by electrolyzing it into alkaline electrolyzed water and acidic electrolyzed water. The alkaline electrolyzed water produced by the electrolyzed water production device 21 is supplied to the first cleaning device 23 via the first supply path 22, and the acidic electrolyzed water is supplied to the second cleaning path 24 via the second supply path 24. Supplied to the device 25.

  The 1st washing | cleaning apparatus 23 decontaminates a decontamination target object (debris) using alkaline electrolyzed water. And the 2nd washing | cleaning apparatus 25 decontaminates the decontamination target after washing | cleaning with the 1st washing | cleaning apparatus 23 using acidic electrolyzed water. In this case, alkaline electrolyzed water and acidic electrolyzed water can be effectively decontaminated because they have sterilization and organic substance removal effects. For example, when oil or the like is attached to the object to be decontaminated, this oil can be easily removed together with the radioactive substance. The debris cleaned by the second cleaning device 25 is separately incinerated or buried because the radioactivity concentration is reduced.

  On the other hand, by performing decontamination processing on the object to be decontaminated, decontamination waste liquid containing oil and radioactive substances is generated. The decontamination waste liquid consisting of alkaline electrolyzed water generated in the first cleaning device 23 is supplied to the neutralization processing device 26 from the third supply path 27a, and the decontamination waste liquid consisting of acidic electrolyzed water generated in the second cleaning device 25 is Then, it is supplied to the neutralization processing device 26 from the third supply path 27b. The neutralization treatment device 26 is neutralized by mixing a decontamination waste liquid made of alkaline electrolyzed water and a decontamination waste liquid made of acidic electrolyzed water.

  The solid-liquid separator 28 separates oil and the like by performing a solid-liquid separation process on the neutralized decontamination waste liquid. Finally, the decontamination waste liquid treatment device 29 adsorbs and removes the radioactive substance with the adsorbent with respect to the decontamination waste liquid that has been neutralized and contains the radioactive substance.

  In Example 2, the electrolyzed water production device 21 produces alkaline electrolyzed water and acidic electrolyzed water, and first, the first cleaning device 23 performs decontamination processing on the decontamination object using the alkaline electrolyzed water. Then, although the 2nd washing | cleaning apparatus 25 performed the decontamination process with respect to the decontamination target object using acidic electrolyzed water, it is not limited to this process. That is, after the 1st washing | cleaning apparatus 23 performs the decontamination process with respect to a decontamination target object using acidic electrolyzed water, the 2nd washing | cleaning apparatus 25 performs the decontamination process with respect to a decontamination target object using alkaline electrolyzed water. It may be.

  Thus, in the pollutant processing apparatus of Example 2, the electrolyzed water production apparatus 21 that produces alkaline electrolyzed water and acidic electrolyzed water, and the alkaline electrolyzed water produced by the electrolyzed water production apparatus 21 are removed as a cleaning liquid. The 1st decontamination apparatus 23 which decontaminates with respect to a dyeing target object, and the 2nd decontamination apparatus 25 which decontaminates with respect to a decontamination target object using the acidic electrolyzed water manufactured by the electrolyzed water manufacturing apparatus 21 as a washing | cleaning liquid. And are provided.

  Accordingly, the first decontamination device 23 performs decontamination on the object to be decontaminated with alkaline electrolyzed water, and the second decontamination device 25 performs decontamination on the object to be decontaminated with acidic electrolyzed water, Since the decontamination target is efficiently decontaminated, the amount of decontamination waste liquid can be reduced and the work efficiency of the decontamination work can be improved.

  In the pollutant treatment apparatus of Example 2, the alkaline electrolyzed water decontamination waste liquid generated in the first decontamination apparatus 23 and the acidic electrolyzed water decontamination waste liquid generated in the second decontamination apparatus 25 are mixed. A neutralization treatment device 26 for performing the neutralization treatment is provided. Accordingly, the first decontamination device 23 performs decontamination using alkaline electrolyzed water as a cleaning liquid, and the second decontamination device 25 performs decontamination using acidic electrolyzed water as a cleaning liquid, and used alkaline electrolyzed water and acidic electrolyzed water. It is possible to efficiently use the produced electrolyzed water by mixing and mixing, thus efficiently performing the decontamination process and the neutralization process.

  FIG. 3 is a schematic diagram illustrating a contaminant treatment apparatus according to Embodiment 3 of the present invention, FIG. 4 is a schematic diagram illustrating a decontamination apparatus in the contaminant treatment apparatus according to Embodiment 3, and FIG. 5 is a contaminant. It is the schematic showing another decontamination apparatus in the processing apparatus.

  As shown in FIG. 3, the pollutant treatment apparatus of Example 3 includes an electrolyzed water production apparatus 31, a first supply path 32, a cleaning apparatus (decontamination apparatus) 33, a solid-liquid separation apparatus 34, and a radioactive substance. The substance removing device 35, the second supply path 36, and the neutralization processing device 37 are configured.

  The electrolyzed water production apparatus 31 produces alkaline electrolyzed water and acidic electrolyzed water as electrolyzed water. The alkaline electrolyzed water produced by the electrolyzed water production device 31 is supplied to the cleaning device 33 via the first supply path 32, and the acidic electrolyzed water is neutralized through the second supply path 36. To be supplied.

  The cleaning device 33 performs a decontamination process on the object to be decontaminated using alkaline electrolyzed water. In this case, the cleaning device 33 performs cleaning by mixing microbubbles using alkaline electrolyzed water.

  The solid-liquid separation device 34 performs a solid-liquid separation process on the alkaline electrolyzed water decontamination waste liquid used in the cleaning device 33. For example, oil and the like are separated from the decontamination waste liquid. The radioactive substance removing device 35 is for adsorbing and removing the radioactive substance with, for example, an adsorbent from the decontamination waste liquid containing the radioactive substance.

  The neutralization treatment device 37 supplies and mixes acidic electrolyzed water to the decontamination waste liquid of alkaline electrolyzed water treated by the radioactive substance removing device 35 to neutralize it. As the acidic electrolyzed water, the acidic electrolyzed water produced by the electrolyzed water production apparatus 31 is used.

  And since a part of treated water processed with the neutralization processing apparatus 37 can be reused, it returns to the solid-liquid separation apparatus 34, and others are disposed according to a radioactivity level. In addition, the washed debris washed by the washing device 33, the oil separated by the solid-liquid separation device 34, and the waste adsorbent generated by the radioactive substance removing device 35 are also disposed according to the radioactivity level.

  Here, the cleaning device 33 will be described in detail. As shown in FIG. 4, the cleaning device 33 includes a cleaning liquid tank 41, a connecting hose 42, a pump 43, a microbubble generator 44, and an injection nozzle 45. The cleaning liquid tank 41 stores the alkaline electrolyzed water produced by the electrolyzed water production apparatus 31. The connection hose 42 is a flexible hose, and the base end portion is connected to the cleaning liquid tank 41. The pump 43 is provided on the side of the cleaning liquid tank 41 in the connection hose 42, and can supply alkaline electrolyzed water in the cleaning liquid tank 41 to the tip end side of the connection hose 42 during driving. The microbubble generator 44 generates microbubbles (fine bubbles having a diameter of 0.1 to 0.01 mm) from a gas. The microbubble generator 44 is attached to the tip of the connecting hose 42 and is supplied to the supplied alkaline electrolyzed water. Bubbles can be mixed. The spray nozzle 45 is attached to the tip of the microbubble generator 44 and can spray alkaline electrolyzed water mixed with microbubbles.

  Therefore, when the pump 43 is operated, the alkaline electrolyzed water stored in the cleaning liquid tank 41 is supplied to the microbubble generator 44 via the connection hose 42, where the microbubbles are mixed into the alkaline electrolyzed water, and the injection nozzle From 45, alkaline electrolyzed water mixed with microbubbles is injected. An operator has the tip of the connection hose 42, that is, the microbubble generator 44 and the injection nozzle 45, and, for example, sprays alkaline electrolyzed water mixed with microbubbles on the decontamination target housed in the container. Thus, the radioactive substance attached to the decontamination target can be removed.

  The cleaning device 33 is not limited to the configuration described above. For example, as shown in FIG. 5, the cleaning device 50 includes a cleaning liquid tank 51, a connecting hose 52, a pump 53, a microbubble generator 54, and an injection nozzle 55. The cleaning liquid tank 51 stores the alkaline electrolyzed water produced by the electrolyzed water production apparatus 31. The connection hose 52 is a flexible hose, and the base end portion is connected to the cleaning liquid tank 51. The pump 53 is provided on the side of the cleaning liquid tank 51 in the connection hose 52, and can supply alkaline electrolyzed water in the cleaning liquid tank 51 to the distal end side of the connection hose 52 during driving. The microbubble generator 54 generates microbubbles (fine bubbles having a diameter of 0.1 to 0.01 mm) from a gas, and is attached to the distal end portion side of the connecting hose 52 and is supplied to the supplied alkaline electrolyzed water. Microbubbles can be mixed. The spray nozzle 55 is attached to the tip of the connection hose 52 and can spray alkaline electrolyzed water mixed with microbubbles.

  Therefore, when the pump 53 is operated, the alkaline electrolyzed water stored in the cleaning liquid tank 51 is supplied to the microbubble generator 54 via the connecting hose 52, where the microbubbles are mixed into the alkaline electrolyzed water, and the injection nozzle The alkaline electrolyzed water mixed with microbubbles is sprayed from the spray nozzle 55. An operator has the tip of the connection hose 52, that is, the microbubble generator 54 and the injection nozzle 55, and, for example, injects alkaline electrolyzed water mixed with microbubbles into the decontamination target housed in the container. Thus, the radioactive substance attached to the decontamination target can be removed.

  Hereinafter, the decontamination processing of the decontamination object by the contaminant processing apparatus of Example 3 described above will be described.

  First, the electrolyzed water production apparatus 31 produces water by electrolyzing it into alkaline electrolyzed water and acidic electrolyzed water. The alkaline electrolyzed water produced by the electrolyzed water production device 31 is supplied to the cleaning device 33 via the first supply path 32. The cleaning device 33 decontaminates the decontamination object (debris) using alkaline electrolyzed water. In this case, the alkaline electrolyzed water can be efficiently decontaminated because it has an effect of sterilization and organic matter removal. For example, when oil or the like is attached to the object to be decontaminated, this oil can be easily removed together with the radioactive substance. Here, the debris that has been subjected to the cleaning treatment is separately subjected to incineration processing or embedding processing because the radioactive concentration has decreased.

  On the other hand, by performing decontamination processing on the object to be decontaminated, decontamination waste liquid containing oil and radioactive substances is generated. The solid-liquid separation device 34 separates oil and the like by performing a solid-liquid separation process on this decontamination waste liquid. The radioactive substance removing device 35 adsorbs and removes the radioactive substance with an adsorbent with respect to the decontamination waste liquid containing the radioactive substance. Finally, the neutralization processing device 37 neutralizes the decontamination waste liquid from which the oil and radioactive substances are removed. The electrolyzed water production apparatus 31 supplies the produced acidic electrolyzed water to the neutralization treatment apparatus 37 through the second supply path 36. Therefore, since the decontamination waste liquid is alkaline electrolysis water, the neutralization processing apparatus 37 neutralizes by supplying and supplying acidic electrolysis water to this decontamination waste liquid.

  Thus, in the pollutant processing apparatus of Example 3, the electrolyzed water production apparatus 31 that produces alkaline electrolyzed water and acidic electrolyzed water, and the alkaline electrolyzed water produced by the electrolyzed water production apparatus 31 are removed as a cleaning solution. A decontamination device 33 that decontaminates the object to be dyed is provided.

  Therefore, the electrolyzed water production apparatus 31 produces alkaline electrolyzed water and acidic electrolyzed water, and the decontamination apparatus 33 uses the produced alkaline electrolyzed water as a cleaning liquid and removes the decontamination target object by various methods. By performing dyeing, it is possible to efficiently perform decontamination on the object to be decontaminated, and it is possible to reduce the amount of decontamination waste liquid and improve the work efficiency of the decontamination work. In addition, alkaline electrolyzed water and acidic electrolyzed water used as cleaning liquids are made of water and do not use organic decontaminants, etc., and do not pollute the environment, improving safety. it can.

  Moreover, in the processing apparatus of the contaminant of Example 3, the neutralization processing apparatus 37 which performs the neutralization process of the used electrolyzed water generated by the decontamination process is provided, and the decontamination apparatus 33 uses alkaline electrolyzed water as a washing | cleaning liquid. Decontamination is performed, and the neutralization treatment device 37 performs neutralization treatment by mixing acidic electrolyzed water with the decontamination waste liquid. Therefore, by using the alkaline electrolyzed water produced by the electrolyzed water production apparatus 31 as a cleaning liquid and using the acidic electrolyzed water as a neutralizing agent, it becomes possible to efficiently use the produced electrolyzed water for use. Separately, the neutralization treatment can be efficiently performed without using a neutralizing agent, and the wastewater treatment can be easily performed by performing this neutralization treatment.

  Further, in the pollutant processing apparatus of Example 3, the decontamination apparatus 33 is provided with the microbubble generators 44 and 54, and the microbubbles generated by the microbubble generators 44 and 54 are mixed into the alkaline electrolyzed water to supply the cleaning liquid. It produces | generates and it decontaminates with respect to a decontamination target object with this washing | cleaning liquid. Therefore, the contaminant which cannot be removed only by electrolyzed water can also be removed efficiently, and the amount of decontamination waste liquid can be reduced by efficiently decontaminating the object to be decontaminated.

  In the pollutant processing apparatus of Example 3, the decontamination apparatus 33 is provided with spray nozzles 45 and 55, and the spray nozzles 45 and 55 spray electrolytic water mixed with microbubbles onto the object to be decontaminated. Perform decontamination. Therefore, high-concentration contaminants can be efficiently removed.

  Further, in the pollutant treatment apparatus of Example 3, the electrolyzed water production apparatus 31 and the injection nozzles 45 and 55 are connected by the connecting hoses 42 and 52, and the microbubble generator 44, 54 is provided. In this case, the microbubble generator 44 and the injection nozzle 45 are integrally provided at the distal end portion of the connection hose 42 so that the microbubbles generated by the microbubble generator 44 are ejected from the injection nozzle 45 at an early stage for decontamination. Therefore, the decontamination performance can be improved. On the other hand, since the microbubble generator 54 and the injection nozzle 55 are separated from each other at the tip of the connecting hose 52, the direction of the injection nozzle 55 can be changed to a container with respect to the microbubble generator 54. And the workability of the decontamination work can be improved.

  In the method for treating contaminants of Example 3, the decontamination target is decontaminated using electrolyzed water mixed with microbubbles as a cleaning liquid. Therefore, the contaminant which cannot be removed only by electrolyzed water can also be removed efficiently, and the amount of decontamination waste liquid can be reduced by efficiently decontaminating the object to be decontaminated.

  In the above-described embodiment, in the third embodiment, the cleaning devices 33 and 50 are configured by providing a cleaning liquid tank, a connecting hose, a pump, a microbubble generator, and an injection nozzle. The present invention can be applied not only to the third embodiment but also to the cleaning device 13 in the first embodiment and the first cleaning device 23 and the second cleaning device 25 in the second embodiment. That is, the cleaning device 13 in the first embodiment and the first cleaning device 23 and the second cleaning device 25 in the second embodiment may be configured by a cleaning liquid tank, a connecting hose, a pump, a microbubble generator, and an injection nozzle. Good.

11, 21, 31 Electrolyzed water production apparatus 12, 22, 32 First supply path 13, 33, 50 Cleaning device (decontamination device)
14, 28, 34 Solid-liquid separation device 15, 24, 36 Second supply path 16, 26, 37 Neutralization processing device 17, 29 Decontamination waste liquid processing device 23 First cleaning device (first decontamination device)
25 Second cleaning device (second decontamination device)
27a, 27b Third supply path 35 Radioactive substance removing device 41, 51 Cleaning liquid tank 42, 52 Connection hose 43, 53 Pump 44, 54 Micro bubble generating device 45, 55 Injection nozzle

Claims (7)

An electrolyzed water production apparatus for producing electrolyzed water;
A decontamination apparatus that decontaminates the object to be decontaminated with the electrolyzed water produced by the electrolyzed water production apparatus as a cleaning liquid;
A solid-liquid separation device for performing a solid-liquid separation process on the decontamination waste liquid of the electrolyzed water used in the decontamination device ;
A neutralization treatment device for neutralizing the spent electrolytic water separated by the solid-liquid separation device;
Have
The decontamination device performs decontamination using either alkaline electrolyzed water or acidic electrolyzed water as the electrolyzed water as a cleaning solution, and the neutralization treatment device uses the other electrolyzed water to the used electrolyzed water. Supply and neutralize,
A part of the treated water treated by the neutralization treatment device is returned to the solid-liquid separation device and reused.
Contaminant treatment apparatus characterized by the above. The decontamination apparatus includes a first decontamination apparatus that performs decontamination using alkaline electrolyzed water as the electrolyzed water as a cleaning liquid, and a second decontamination apparatus that performs decontamination using acidic electrolyzed water as the electrolyzed water as a cleaning liquid. The said neutralization processing apparatus mixes used alkaline electrolyzed water and acidic electrolyzed water, and performs the neutralization process, The processing apparatus of the pollutant of Claim 1 characterized by the above-mentioned. The decontamination apparatus has a microbubble generator, and the electrolysis water is mixed with microbubbles generated by the microbubble generator to generate a cleaning liquid, and the decontamination target is decontaminated with the cleaning liquid. The pollutant processing apparatus according to claim 1 or 2 . The decontamination apparatus includes an injection nozzle, the injection nozzle, according to claim 3, characterized in that the injection to perform decontamination against microbubbles mixed cleaning liquid decontamination object to electrolytic water Contaminant treatment equipment described in 1. 5. The pollutant treatment apparatus according to claim 4 , wherein the electrolyzed water production apparatus and the spray nozzle are connected by a connection hose, and the microbubble generator is provided in the middle of the connection hose. A step of performing decontamination on a decontamination object using at least one of alkaline electrolyzed water or acidic electrolyzed water as a cleaning liquid ;
A step of performing a solid-liquid separation process on the decontamination waste liquid of one of the electrolyzed water used,
Supplying the other electrolyzed water to the separated used electrolyzed water for neutralization, and
A step of returning a part of the neutralized treated water to the solid-liquid separation process and reusing it,
A method for treating a pollutant, comprising: The method for treating a contaminant according to claim 6 , wherein the decontamination target is decontaminated using electrolyzed water mixed with microbubbles as a cleaning liquid.

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