JP4356728B2 - Method and apparatus for transporting sludge contaminated with radioactive material - Google Patents

Description

The present invention relates to a method for transferring sludge, which is a hazardous and hazardous waste contaminated with radioactive material, from a storage tank to another tank, and to an apparatus used for carrying out the method.

In places where radioactive materials such as nuclear power plants are handled, used filter material generated from the water purification device used is generated as waste sludge (hereinafter simply referred to as “sludge”). Highly radioactive sludge is usually stored in a storage tank to attenuate the radioactivity. Sludge tends to become consolidated during long-term storage. Depending on the type of sludge, there are some that settle quickly and solidify early. This tightly consolidated sludge contains radioactive materials and is hazardous and dangerous, making it difficult to handle. Sludge storage and transfer equipment and equipment used for its operation require high reliability. Is done.

For example, in order to confirm the soundness of a sludge storage tank, it is necessary to transfer the sludge stored in the tank to the outside of the tank once so that the tank can be inspected. In addition, it may be necessary to transfer sludge. When transferring, the solidified sludge must be broken down into a fluid state. Therefore, with the intention of dispersing sludge in the supernatant water and providing fluidity, existing tanks usually have an air bubbling pipe for stirring at the bottom. It is practically difficult to agitate the sludge and the supernatant water that are accumulated in large quantities.

In transferring sludge in a storage tank, conventionally, (1) an electric motor submersible pump, (2) an air-operated diaphragm pump, or (3) an electric motor driven screw pump, etc. In order to perform stirring to form a fluid liquid, (4) an underwater stirring pump, (5) an underwater stirring screw, an air stirrer, or the like has been used.

Electric motor submersible pumps can be used when sludge is stored in tanks of relatively small capacity and therefore low in height, although lowering of the head is observed. However, in large storage tanks, blockage, including piping, tends to occur near the limit of the head due to resistance due to height and sludge viscosity resistance. The air-operated diaphragm pump has a discharge capacity of about 0.6 MPa, but when the liquid concentration increases and the viscosity increases, the discharge flow rate decreases and the inside of the casing is blocked by waste sludge or becomes inoperable. Also, the piping associated therewith is blocked. Electric motor-driven screw pumps move from the screw part to the casing part, where the flow rate decreases at the part where the volume increases, waste sludge accumulates, the pump interior becomes clogged, and malfunctions occur. Clogged.

The clogging of the pump means can be recovered by disassembling the device and cleaning the inside, but when clogged with sludge containing radioactive material, the pump itself has a high dose equivalent rate, so it decomposes. There are difficulties. In addition to disassembling with a shielding facility, it must be put in a shielding container for storage.

As for the stirrer, in the initial stage of stirring waste sludge and supernatant water with an underwater agitation pump or underwater agitator, it operates because the sludge concentration is low, but the agitation has progressed and the liquid concentration and viscosity have increased. Then, sludge is clogged inside the casing, and the impeller becomes inoperable. For this reason, when the sludge concentration is high in the entire storage tank, it is difficult to stir with the stirrer, of course, the tank as a whole. The agitation method in which air is blown in manually is performed by a worker in a limited position called a manhole. The manhole is located in the corner of the tank top plate, and has a large tank diameter and high height. Then, since the weight of the stirring means to be operated becomes heavy, the range in which stirring can be performed is limited to a position just below the manhole.

Air agitation work from a tank with a relatively low dose equivalent rate and a low risk of exposure is done by human power. An air hose is attached to the end of a pole of about 10 m in length and inserted into sludge by several people. However, it was difficult to operate, and improvements were required. If there is an effective space above the tank top plate that can only be used for transporting equipment, an operator enters from the manhole on the tank top plate and puts the submersible pump and stirring device into the tank. It is installed and directly operated to transfer the sludge to the outside of the tank, but it is a dangerous work with many exposure opportunities. High-pressure water jets are effective for pulverizing the consolidated sludge mass, but if water is supplied from the outside, the amount of radioactive wastewater increases and the load on the waste treatment system is reduced. Increase.

A mixed jet pump equipped with a high-pressure water supply pipe and an air supply pipe is used as a means for sucking up sludge, a solid sludge crushing ring is placed around it, and a scraping washing water jet ring that jets washing water upwards A sludge suction device comprising a unit provided has been proposed (Patent Document 1). This device mechanically crushes sludge solidified with a solid sludge crushing ring, sucks it up with an air-jet jet pump, carries it out of the tank, scrapes the surrounding sludge with washing water blown from above, mixes it. I'm trying to suck it out with a gas jet pump. The sludge sucked up in the air-fuel mixture is transported to another sludge separation tower where air is separated and left to stand to produce a supernatant, which is circulated as the high-pressure water and washing water described above. use.

The entire unit of the sludge wicking device is moved up and down by the driving device and can be positioned at an arbitrary height in the tank. However, since the unit is suspended from the manhole and placed in the tank, the sludge that has been consolidated can be effectively crushed and sucked up only within a limited range directly under and near the manhole. The significance of the present invention is that the supernatant water in the storage tank is circulated and used, so that it is not necessary to replenish wash water from the other, and therefore it is not necessary to increase the radioactively contaminated substance.

For newly constructed facilities, a pipe having a sludge extraction nozzle is installed in advance at the bottom of the sludge storage tank, a dilution nozzle is provided opposite to the sludge extraction nozzle, and water for agitating the waste sludge is provided. It has been proposed to provide a jet nozzle for jetting (Patent Document 2). In this facility, the waste sludge is diluted with the dilution water from the dilution nozzle, the waste sludge is stirred with the jet water from the jet nozzle, and then the waste sludge is extracted from the tank out of the tank. Also in this case, if the supernatant water is used as the dilution water from the dilution nozzle and / or the jet water from the jet nozzle, the burden of washing water newly required for extracting sludge is reduced or eliminated. Can do. However, such sludge extraction cannot be applied to existing equipment.
JP-A-5-317610 JP-A-9-96697

As mentioned above, the conventional sludge storage-extraction technique has the following various problems.
-Using conventional pumps and agitators, it is not easy to break up sludge mass consolidated during storage.
• Using high-pressure water jets that are effective in breaking up sludge masses increases the amount of radioactive waste.
-Work in the tank is highly exposed to radiation.
・ Working from a manhole on the tank while avoiding exposure is difficult and inefficient.
Use of a pump unit that breaks up sludge mass and sucks fluidized liquid is limited in the range of effective operation and is difficult to apply to large tanks.
・ Techniques that require equipment to be installed in advance can be implemented when new equipment is installed, but cannot be applied to existing equipment.
・ When pumps and pipes are blocked by sludge, the response involves the difficulty of the presence of radiation.

The object of the present invention is to solve the above-mentioned problems related to the transfer of sludge, which is radioactive waste, and to break down the consolidated sludge effectively and easily transfer it. It does not require any equipment other than a storage tank such as a sludge separation tower, and at that time it is completely empty, or another storage tank with sufficient capacity even if it is not empty can be transferred to the transfer tank. It is intended to provide a transfer method that can be used as a method without increasing the amount of radioactive waste to be processed and that avoids exposure of workers to radiation, and an apparatus used to implement the method.

As shown in FIG. 1, the sludge transfer method of the present invention that achieves the above object transfers sludge (1) contaminated with radioactive material from a storage tank (T 1) to a transfer tank (T 2), which is another tank. A method for transferring sludge for transferring, wherein air is blown from an air nozzle (33) to the supernatant water existing on the sludge layer deposited inside the storage tank (T1), and the supernatant water is locally stirred. As a result, a fluid sludge liquid (12) in which sludge is entrained in the supernatant water is formed, and this sludge liquid is removed from the storage tank by a sludge transfer pump (P1) at a substantially central portion on the cross section of the storage tank. The supernatant water (2) generated by the suction and transfer to the transfer tank, and the sludge in the sludge liquid settling in the transfer tank, is returned to the supernatant water return pump (P2). It is returned to the storage tank, and the returned supernatant water is ejected through the supernatant water nozzle (62) and crushed by vigorously blowing it toward the sludge deposit layer (11) exposed by the suction of the sludge liquid. Then, the flow of the crushed sludge and the supernatant water is made to flow down into a recess near the center of the cross section of the storage tank formed by sucking up the fluid sludge liquid, and then sucked up by the sludge transfer pump. The operation consisting of the transfer to the transfer tank is continuously performed, during which the change of the position of the air nozzle (33) and the supernatant water nozzle (62) is monitored by the monitoring camera (7) and the control device (8). The sludge transfer method is carried out under the condition that the influence of radiation is minimized by the shielding means (9). A.

As shown in FIG. 1, the sludge transfer apparatus of the present invention used for carrying out this sludge transfer method is also configured to transfer sludge (1) contaminated with radioactive material from the storage tank to the transfer tank. The apparatus is a storage tank (T1), a transfer tank (T2), an air supply source (31) for stirring the supernatant water of sludge, an air pipe (32) and an air nozzle (33) with variable positions. An air blowing device (3) comprising a fluidizing sludge liquid (12) formed by stirring from a storage tank and transferred to a transfer tank, and a sludge transfer pump provided with a suction port capable of moving up and down ( P1), the supernatant water (2) generated in the transfer tank is returned to the storage tank, the supernatant water return pump (P2) provided with a suction port capable of moving up and down, the returned water A supernatant water ejection device (6) having a supernatant water pipe (61) and a supernatant water nozzle (62) variably provided for spraying fresh water onto the exposed sludge deposit layer (11), an air blowing device And a monitoring camera (7) for monitoring the position of the nozzle of the supernatant water ejection device, a control device (8) for controlling the position, and shielding means (9) for minimizing the influence of radiation. Sludge transfer device.

According to the present invention, harmful sludge containing radioactive substances is stored in a storage tank, and even when it is consolidated by sedimentation, sludge lump is easily broken and dispersed in the supernatant water, fluidity High sludge liquid, which can be transferred to a transfer tank by a conventional slurry pump. The operation to break down the consolidated sludge is effectively performed by combining local agitation of the supernatant water by blowing air and jetting of the circulating supernatant water. When using a conventional underwater agitator, etc. The experienced problem that the stirring blades are stuck to the sludge and cannot be rotated does not occur. The above-described air blowing and jetting of the circulating supernatant water can freely move the position of each nozzle in the tank, so even if the tank has a large diameter or a high height, Solidified sludge can be broken without any restrictions.

The supernatant water sprayed on the accumulated sludge is used by circulating the supernatant water generated from the sludge transferred to the transfer tank, so there is no need to supply cleaning water from the outside, and the amount of waste contaminated with radioactive materials is reduced. There is no increase. All work is done by remote operation under remote monitoring, and the operator only has to work around the tank when installing and removing the equipment, so the opportunity for workers to be exposed to radiation is significantly reduced.

If sludge transfer is performed according to the present invention, sludge stored in one sludge storage tank can be transferred without using a special sludge separation tower or the like by using another storage tank as a transfer tank. Can do. Therefore, the present invention can also be applied to an existing storage tank that does not have special equipment for extracting sludge. The storage tank that has completely transferred the sludge can be directly inspected to improve the reliability of the tank.

Hereinafter, with reference to FIG. 1 which shows the structure of the sludge transfer apparatus of this invention, the sludge transfer of this invention is demonstrated. The sludge storage tank (T1) contains supernatant water up to a certain level, and below the supernatant water is harmful and dangerous sludge containing radioactive substances, and in some cases impurities such as earth and sand and resin Along with that, it is accumulating.

The air blowing device (3) is driven remotely by the control device (8), and in the sludge storage tank (T1), at an arbitrary position on the plane and at an arbitrary depth in the vertical direction, an air nozzle ( 33) is moved and inserted, and a part of the supernatant water is stirred to form a fluid liquid. The sludge liquid (12) that has fluidity and is ready to be transferred is sucked by the sludge transfer pump (P1) and is another adjacent sludge storage tank that is completely empty or has a sufficient capacity. Transfer to a certain transfer tank (T2). Transfer takes place through the sludge transfer system (4).

The sludge transfer pump (P1) moves up and down substantially in the center on the cross section of the storage tank (T1), and in that part, the fluidity formed by local stirring of the supernatant water by air blowing first. Ru sucked sludge liquid (12). The sludge contaminated with the radioactive material sucked up by the sludge transfer pump is transferred from the storage tank (T2) to the transfer tank (T2) through the piping constituting the sludge transfer system (4). By this operation , a recess is formed in the central portion on the cross section of the storage tank (T1). The sludge transferred to the transfer tank (T2) is allowed to stand there, so that the sludge settles and the supernatant water (2) is generated in the upper part. The supernatant water (2) is sucked by the supernatant water return pump (P2), supplied to the supernatant water jetting device (6) through the supernatant water transfer system (5), and the supernatant water jet nozzle (62) through the supernatant water pipe (61). ) And sprayed onto the sludge accumulation layer (11) deposited around the recess to break up the lump of sludge that has been consolidated. The sludge in which the lump is broken becomes a liquid having fluidity with the supernatant water as described above, and flows down and accumulates in the recess. Therefore, the sludge can be sucked up by the sludge transfer pump (P1) and transferred to the transfer tank. By repeating this operation, the sludge (1) in the storage tank (T1) can be completely transferred to the transfer tank (T2).

The manhole part of the storage tank and transfer tank is easy to transmit radiation, and there is a danger from the manhole where equipment for transferring sludge is installed. Thus, it should be carried out in an environment in which the shielding means (9) is installed to ensure work safety. The shielding means is not limited to the illustrated manhole or the like, and an appropriate one such as a shield for piping is used as necessary.

A series of operations for transferring sludge according to the present invention is appropriately performed by a dedicated control device (8) while confirming an image from the monitoring camera (7) on the monitor. In this device, it is preferable to provide a monitoring microphone as a monitoring device in addition to the above-described monitoring camera (7) so as to collect the operation sound of the pump so that it can be heard through a speaker, and to monitor the presence or absence of abnormality regarding the sound. .

The pipes of the sludge transfer pump (P1) and the sludge transfer system (4) are particularly at risk of being clogged by sludge, and when clogged, it is necessary to remove the clogging by cleaning the inside thereof. Desirably, cleaning should be performed at the point where signs of occlusion occur, such as abnormal changes in pressure, to avoid complete occlusion. For this purpose, the apparatus of the present invention includes a nozzle for cleaning water inlet and outlet to the pump casing and piping for remotely circulating the cleaning water to the sludge transfer pump and sludge transfer system, and remote control. It is recommended to provide a valve that operates by

In order to confirm the soundness of the storage tank, it is desirable to wash the inner wall surface of the tank so that the condition of the wall surface can be visually confirmed. Based on this point of view, it is also recommended that the present invention be configured so that the supernatant water ejection device (6) can eject the supernatant water toward the tank inner wall surface of the storage tank to wash the tank inner wall surface. It is an aspect.

In general, a nozzle that ejects fluid can increase the force of the fluid ejected by reducing the diameter. The same is true for the device of the present invention, but there is still an appropriate aperture range. For example, it has been experienced that about 20 mm is suitable for the nozzle from which the supernatant water generated in the transfer tank is ejected from the supernatant water transfer pump via the supernatant water transfer pipe through the supernatant water transfer pipe. If it is less than 20 mm, for example, 15 mm, at a position 5 m or more away from the nozzle tip, the concentration of the water flow decreases due to the influence of the spiral flow, and the pulverization force becomes weaker, resulting in lower working efficiency. When the surface of the sludge deposit layer is lowered due to the progress of the sludge transfer, in order to break up the sludge lump without following the nozzle position, select the appropriate nozzle diameter as described above, and the tip of the nozzle It is desirable that the pulverization force can be maintained even at a distance of 10 m.

The conceptual diagram which shows the structure of the transfer apparatus of the sludge of this invention.

Explanation of symbols

1 sludge
11 Sludge accumulation layer 12 Fluid sludge liquid 2 Supernatant water 3 Air blowing device
31 Air supply source 32 Air pipe 33 Air nozzle 4 Sludge transfer system 5 Supernatant water transfer system 6 Supernatant water ejection device
61 Supernatant water pipe 62 Supernatant water nozzle 7 Monitoring camera 8 Control device 9 Shielding means T1 Storage tank T2 Transfer tank P1 Sludge transfer pump P2 Supernatant water return pump

Claims (5)

A sludge transfer method for transferring sludge (1) contaminated with radioactive substances from a storage tank (T1) to a transfer tank (T2), which is another tank, which is accumulated in the storage tank (T1). By flowing air from the air nozzle (33) into the supernatant water present on the layer and locally stirring the supernatant water, the fluid sludge liquid (12) in which the sludge is entrained in the supernatant water is obtained. The sludge liquid is sucked out of the storage tank by the sludge transfer pump (P1) and transferred to the transfer tank at the substantially central portion on the cross section of the storage tank, and the sludge in the sludge liquid settles in the transfer tank. The resulting supernatant water (2) is returned to the storage tank by the supernatant water return pump (P2), and the returned supernatant water is supplied to the supernatant water nozzle. 62), and is crushed by vigorously spraying toward the sludge deposit layer (11) exposed by sucking out the sludge liquid, and the flow of the crushed sludge and the supernatant water is converted into a fluid sludge liquid. The air nozzle is continuously operated by flowing down to the recess near the center of the cross section of the storage tank, which is formed by sucking up, and then sucking up by the sludge transfer pump and transferring it to the transfer tank. The change of the position of (33) and the supernatant water nozzle (62) is controlled by the control device (8) under the monitoring by the monitoring camera (7), and the influence of radiation is minimized by the shielding means (9). A sludge transfer method, which is carried out under conditions. A sludge transfer device for transferring sludge (1) contaminated with radioactive material from a storage tank to a transfer tank, for stirring the supernatant water of the storage tank (T1), transfer tank (T2), and sludge , An air supply source (31), an air pipe (32) having a variable position and an air nozzle (3) comprising an air nozzle (33), and a fluid storage sludge liquid (12) formed by stirring as a storage tank Sludge transfer pump (P1) with suction port that can be moved up and down to suck out from the tank and transfer it to the transfer tank, supernatant water (2) generated in the transfer tank is returned to the storage tank, and the suction port can be moved up and down A supernatant water return pump (P2), a supernatant water pipe (61) for spraying the returned supernatant water onto the exposed sludge deposit (11), and Supernatant water jetting device (6) having a supernatant water nozzle (62) variably provided, an air blowing device, a monitoring camera (7) for monitoring the position of the nozzle of the supernatant water jetting device, and a control device for controlling the position A sludge transfer device comprising (8) and shielding means (9) for minimizing the influence of radiation. The sludge transfer device according to claim 2, further comprising a monitoring microphone that collects operation sound of the pump and monitors whether there is an abnormality. Sludge transfer pump (P1), and, washing the sludge transfer pump has sucked up, cleaning the interior of the sludge transport system is a pipe for transferring the transfer tank was contaminated with radioactive material sludge from the storage tank (4) 3. The sludge transfer device according to claim 2, further comprising: a nozzle base for inlet and outlet of cleaning water to the pump casing and piping for circulating water; and a valve operated by remote control. The sludge transfer device according to claim 2, wherein the supernatant water jetting device (6) is configured to jet the supernatant water toward the tank inner wall surface of the storage tank (T1) to wash the inner wall surface.

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