JP2018100842A - Radioactive substance adsorption cloth net - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a radioactive matter adsorption device capable of being installed in a wide area and effectively reducing pollution substance with simple operation before water containing radioactive matter flows out into a bay in the case of nuclear power plant accident or the like.SOLUTION: An adsorption cloth net which is formed in a network by using a band-shaped radioactive substance-absorbing fiber base material carrying a radioactive substance absorbing material. The adsorption cloth net is provided with connection members at the upper end portion and lower end portion. The connection member at the lower end portion is connected to a weight member which can submerge the entire adsorption cloth net in water. The connection member at the upper end portion is connected to a float member which can support the adsorption cloth net and the weight member in water by means of buoyance. The adsorption cloth net is provided with connection members to all edges so as to be connected two or more adsorption cloth nets may be connected to each other by connecting connection members on any edge to each other.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a radioactive substance adsorbing device that uses a radioactive substance adsorbent to adsorb and remove radioactive substances in contaminated water containing radioactive substances.

  When a pipe or pressure vessel is damaged like the accident at Fukushima Daiichi Nuclear Power Station that occurred on March 11, 2011, it contained radioactive substances such as iodine 131, cesium 134, cesium 137, and strontium 98. Reactor cooling water may leak in large quantities. Among these radioactive materials, cesium 137 has a long half-life of 30 years, and if it leaks out of a nuclear power plant, it will adversely affect the environment for a long period of time.

For this reason, it is very important to control the release of such radioactive materials into the air, soil, or sea, and the law prohibits the diffusion of radioactive materials outside the factory, etc. It is obliged to install the necessary equipment to do this.
As a specific measure for suppressing the diffusion of radioactive materials, it is conceivable to first suppress the atmospheric diffusion of radioactive materials by water discharge. Next, reduce pollutants before the contaminated water flows into the bay. And the spread to the open ocean is suppressed with a silt fence.
In taking these steps, the biggest problem is how to reduce pollutants before the contaminated water flows into the bay.

First, it is conceivable to adsorb radioactive substances in the contaminated water with a filter that adsorbs radioactive substances. However, even if a high-performance filter is used, it is difficult to absorb and remove 100% of the radioactive substance, and a further solution is required.
Thus, for example, a cesium adsorption device capable of adsorbing radioactive cesium dissolved in water is known (see Patent Document 1). This discloses a configuration in which a plurality of adsorption units that adsorb cesium dissolved in water are connected to a floating member, and the adsorption units are housed in a net-like container.
However, the cesium adsorption device disclosed in Patent Document 1 has a problem that a sufficient cesium adsorption effect cannot be obtained because the adsorption filter itself constituting the adsorption unit is not formed in a net shape.

There is also known a radioactive substance reducing device that adsorbs and reduces radioactive substances eluted in water to a knitted fabric or a net (see Patent Document 2). This is because the radioactive material adsorbent is attached to the surface of the base material via a binder to produce a yarn containing the radioactive material adsorbent, which is formed into a knitted fabric or a net-like material. It is used in an apparatus for reducing substances. According to this, since the base material itself containing the radioactive material adsorbent is a knitted fabric or a net-like material, it can be said that the radioactive material can be effectively adsorbed.
However, in the radioactive substance reduction device disclosed in Patent Document 2, since the device disclosed as using a knitted fabric or a net-like material containing a radioactive material adsorbent is large, the cost becomes excessive, There is also a problem that operation is not easy. In addition, there is a problem that the place where such an apparatus can be installed is limited, and the apparatus cannot be installed in a wide range.

Japanese Patent Laid-Open No. 2015-152456 Japanese Patent Laying-Open No. 2015-28473

  In view of such a situation, the present invention can reduce pollutants effectively by an easy operation before water containing radioactive materials flows into the bay in a nuclear accident or the like, and can be installed in a wide range of places. An object is to provide a radioactive substance adsorption device.

In order to solve the above problems, the radioactive material adsorbing cloth net of the present invention is an adsorbing cloth net formed in a mesh shape using a band-shaped radioactive substance adsorbing fiber substrate carrying a radioactive substance adsorbing material. A connecting member is provided at the upper end and the lower end, a weight member capable of sinking the entire adsorbing cloth net in water is connected to the connecting member on the lower end, and the adsorbing cloth net and weight member are connected to the connecting member on the upper end. A float member that can be supported in water by buoyancy is connected.
The radioactive substance-adsorbed fiber base material is formed in a mesh shape, so that when the radioactive substance-adsorbed cloth net is suspended in water, contaminated water can be effectively brought into contact with the radioactive substance-adsorbed fiber base material. Substance adsorption performance can be improved.
A weight member that can submerge the entire absorbent cloth net, and a float member that can support the absorbent cloth net and the weight member in water by buoyancy are provided in the absorbent cloth net. It is possible to adsorb radioactive substances.

In the radioactive material adsorbing cloth net of the present invention, the adsorbing cloth net may be provided with connecting members on all end sides, and two or more connecting members may be connected by connecting the connecting members on either end side.
By providing the connecting members on all the edges of the adsorbing cloth net, not only the float member and the weight member can be connected to the connecting member, but also the adsorbing cloth nets can be connected and used. In addition, although a ring joint is used suitably as a connection member, another member may be sufficient.

In the radioactive material adsorbing cloth net of the present invention, the adsorbing cloth net is connected to each other using a connecting member, with the upper end portions and the lower end portions alternately, with the float member or the weight member in common. A rope-like recovery member with one end fixed to the farthest end net and the other end inserted through the holes of all the nets. May be closed in the form of an accordion.
By adopting such a configuration, it is possible to spread or close the suction cloth net in an accordion shape, and it is possible to use the suction cloth net in a length corresponding to the installation location. Further, when collecting after use, by using the rope-shaped collecting member, the adsorbing cloth net can be collected in a closed state, so that the operations such as collecting and transporting are easy. Here, the rope-like recovery member is used to include not only the rope but also members such as chains and wires.
Since the suction cloth nets are connected with a common float member or weight member, it is not necessary to provide as many float members or weight members as the number of the suction cloth nets, and the cost can be reduced.
Moreover, the number of sheets to which the adsorbing cloth nets are connected can be changed according to the installation location, transportation convenience and the like. Further, the length of the rope-like recovery member may be extended according to the number of connections.

In the radioactive material adsorbing cloth net of the present invention, the adsorbing cloth net is connected to the right end part and the left end part alternately using a connecting member, and one end is fixed to the farthest end net of the connected adsorbing cloth net. It is also possible that a rope-like recovery member having the other end inserted through the net holes of all nets is provided, and the net spreading in water can be closed in an accordion shape by pulling the free end of the rope-like recovery member. .
By adopting such a configuration, as described above, the suction cloth net can be connected not only between the upper end portions and the lower end portions but also between the right end portions and the left end portions. It is possible to provide a net.

In the radioactive material adsorbing cloth net of the present invention, the entire shape of each adsorbing cloth net may be a square or a rectangle, and the adsorbing cloth nets may be connected to each other in a vertical and horizontal matrix shape using a connecting member.
By making the overall shape of each of the adsorbing cloth nets square or rectangular, it can be connected vertically and horizontally and can be expanded freely in the vertical and horizontal directions, making it easy to design the shape of the entire radioactive material adsorbing net. . Further, by combining the absorbent cloth nets, various variations of the absorbent cloth nets can be provided.
If there is an obstacle on the bottom of the water, it is possible to design the entire shape of the radioactive material adsorbing cloth net so that there is no net in the area and size.

In the radioactive material adsorbing cloth net of the present invention, the entire shape of each adsorbing cloth net is a rhombus, a parallelogram, an isosceles trapezoid or a regular hexagon, and the adsorbing cloth nets are formed in a plate shape using a connecting member. It may be connected.
The place where the radioactive material adsorbing cloth net is installed is not only in the sea but also in various places such as contaminated water treatment facilities. Accordingly, the shape of the absorbent cloth net needs to be designed in consideration of the installation location, water flow, installation / recovery convenience, and the like. By making the overall shape of each of the absorbent cloth nets a rhombus, a parallelogram, an isosceles trapezoid or a regular hexagon, a product having an appropriate shape can be provided according to the installation location.

It is preferable that a plurality of strip-shaped radioactive substance-adsorbing fiber base materials are partially bundled, and those in a state where the strip-shaped portions that are not bundled are spread are connected to form a network.
A plurality of strip-shaped radioactive substance-adsorbed fiber base materials are used, and the band-shaped portions that cannot be bundled are connected so that the area where the radioactive substance-adsorbed fiber base material and contaminated water come into contact with each other is widened. A radioactive substance can be adsorbed effectively. Therefore, in order to improve the adsorption | suction performance of a radioactive substance, the strip | belt-shaped radioactive substance adsorption | suction fiber base material may be further processed, such as cutting.

  As the radioactive substance adsorbing material in the radioactive substance adsorbing cloth net of the present invention, a Prussian blue analog that mainly performs adsorption removal of cesium is preferably used. Here, the Prussian blue analog is specifically Prussian blue.

  According to the radioactive material adsorbing cloth net of the present invention, in a nuclear accident or the like, before the water containing the radioactive material flows out into the bay, it is possible to effectively reduce pollutants by an easy operation and install it in a wide place. There is an effect that is possible.

Front view of radioactive material adsorbing cloth net of Example 1 Right side view of the radioactive material adsorbing cloth net of Example 2 Installation image of radioactive material adsorbing cloth net of Example 2 Front view of radioactive material adsorbing cloth net of Example 3 Plan view of radioactive material adsorbing cloth net of Example 3 Front view of radioactive material adsorbing cloth net of Example 4

  Hereinafter, an example of an embodiment of the present invention will be described in detail with reference to the drawings. The scope of the present invention is not limited to the following examples and illustrated examples, and many changes and modifications can be made.

FIG. 1 shows a front view of the radioactive substance adsorbing cloth net of Example 1. FIG. As shown in FIG. 1, the radioactive substance adsorbing cloth net 1 includes an adsorbing cloth net 2, a float member 3, and a weight member 4. A plurality of ring-shaped connecting members 5 are provided at the top, bottom, left, and right ends of the suction cloth net 2, and the suction cloth net 2 and the float member 3 are connected via the connection member 5. Similarly, the suction cloth net 2 and the weight member 4 are also connected via a connecting member 5. In addition, although the connection member 5 provided in the right and left edge part of the adsorption | suction cloth net | network 2 is not connected with any member here, it becomes a structure which can be connected with another net | network etc. as needed. ing.
By providing the float member 3 and the weight member 4, the radioactive material adsorbing cloth net 1 sinks to a certain extent in a state in which the adsorbing cloth net 2 spreads vertically when it is submerged in water such as in the sea, and floats. It is possible to effectively adsorb radioactive materials.

  FIG. 2 shows a right side view of the radioactive material adsorbing cloth net of Example 2. As shown in FIG. 2, the radioactive substance adsorbing cloth net 11 includes an adsorbing cloth net (2 a to 2 j), a float member (3 a to 3 e), a weight member (4 a to 4 f), and a recovery rope 6. The suction cloth nets (2a to 2j) are connected to each other through a float member (3a to 3e) or a weight member (4a to 4f) using a ring-shaped connecting member (not shown).

  Specifically, the suction cloth net 2a is connected to the float member 3a and the weight member 4a. Further, the suction cloth net 2b is connected to the float member 3a and the weight member 4b. The suction cloth net 2c is connected to the float member 3b and the weight member 4b. The adsorbing cloth net 2d is connected to the float member 3b and the weight member 4c. The suction cloth net 2e is connected to the float member 3c and the weight member 4c. The suction cloth net 2f is connected to the float member 3c and the weight member 4d. The adsorbing cloth net 2g is connected to the float member 3d and the weight member 4d. The suction cloth net 2h is connected to the float member 3d and the weight member 4e. The suction cloth net 2i is connected to the float member 3e and the weight member 4e. The suction cloth net 2j is connected to the float member 3e and the weight member 4f. Here, although the method of connecting 10 adsorption | suction cloth nets is employ | adopted, the number to connect can be increased / decreased according to an installation place.

  The recovery rope 6 has an end 6a fixed to the suction cloth net 2a and is inserted through a gap between the suction cloth nets (2b to 2j). Therefore, when collecting the radioactive substance adsorbing cloth net 11, the radioactive substance adsorbing cloth net 11 can be folded by pulling the free end of the collecting rope 6 and can be easily collected. It is.

  FIG. 3 shows a mounting image diagram of the radioactive material adsorbing cloth net of the second embodiment. As shown in FIG. 3, the radioactive substance adsorbing cloth net 11 is installed in the radioactive substance adsorption system 50. The radioactive substance adsorption system 50 is provided in the ground, and is provided with a purification pad 53, a discharge port 54, a grating 57a, a lining plate 57b, a radioactive substance adsorption device 58, and a water collecting tank 59.

The purification tank 53 is provided with a radioactive substance adsorbing device 58, and the contaminated water 60 flowing from the grating 57 a is purified by the radioactive substance adsorbing device 58 to become primary purified water 61.
As the radioactive substance adsorbing device 58, a radioactive substance adsorbing filter made of a cloth carrying Prussian blue analogue is preferably used. However, the radioactive substance adsorbing agent to be used is not limited to Prussian blue analogue, and may be zeolite or the like. Also good. The radioactive substance adsorption device 58 has a structure that can be removed by opening the grating 57a.
In the present embodiment, only one radioactive substance adsorbing device 58 is installed. However, for example, two or more radioactive substance adsorption apparatuses 58 may be arranged in series to enhance the removal performance of the radioactive substance. However, the expansion of the radioactive substance adsorption device 58 is limited in terms of installation space and cannot be expanded infinitely. Further, even if a plurality of radioactive substance adsorbing devices 58 are arranged, it is not possible to remove 100% of the radioactive substance.

Therefore, the primary purification water 61 is further purified by installing the radioactive material adsorbing cloth net 11 in the water collecting tank 59. That is, the primary purified water 61 from which the radioactive substance has been removed by the radioactive substance adsorbing device 58 is sent to the water collecting tank 59. A primary purified water 61 is stored in a water collecting tank 59, and a radioactive substance adsorbing cloth net 11 is installed therein. The radioactive material adsorbing cloth net 11 is installed by removing the lining plate 57b. The recovery rope 6 provided on the radioactive material adsorbing cloth net 11 is kept on the ground, and the radioactive substance adsorbing cloth net 11 is suspended in the water collecting tank 59 for a certain period of time, so that the radioactive material contained in the primary purified water 61 is obtained. To adsorb. After use, the lining plate 57b is removed again, and the collection rope 6 is pulled up to collect the radioactive material adsorbing cloth net 11.
The secondary purified water 62 purified by the radioactive material adsorbing cloth net 11 is discharged through the discharge port 54.

FIG. 4 shows a front view of the radioactive material adsorbing cloth net of Example 3. Unlike the second embodiment, the present embodiment shows a case where the system is installed outside the radioactive material adsorption system and inside the silt fence.
As shown in FIG. 4, the radioactive substance adsorbing cloth net 12 includes an adsorbing cloth net (2k to 2q), a float member (3f to 3i), a weight member (4g to 4j), and a collection rope (not shown). The suction cloth nets (2k to 2q), the float members (3f to 3i), and the weight members (4g to 4j) are connected using the connecting member 5.

Specifically, in the figure, the suction cloth net 2k and the suction cloth net 2l, the suction cloth net 2m and the suction cloth net 2n, and the suction cloth net 2p and the suction cloth net 2q are connected vertically. Further, the suction cloth net 2k and the suction cloth net 2m, the suction cloth net 2m and the suction cloth net 2o, the suction cloth net 2o and the suction cloth net 2p, and the suction cloth net 2l and the suction cloth net 2n are connected to the left and right.
A float member 3f is provided at the upper end of the suction cloth net 2k, a float member 3g is provided at the upper end of the suction cloth net 2m, a float member 3h is provided at the upper end of the suction cloth net 2o, and a float member 3i is provided at the upper end of the suction cloth net 2p. It is connected. Further, a weight member 4g is provided at the lower end of the suction cloth net 2l, a weight member 4h is provided at the lower end of the suction cloth net 2n, a weight member 4i is provided at the lower end of the suction cloth net 2o, and a weight member 4j is provided at the lower end of the suction cloth net 2q. Each is connected.

  The adsorbing cloth net 2o is not further provided with an adsorbing cloth net, but there is a reef 8 on the seabed 7 where it is installed. This is because the shape is designed. In this way, it is possible to provide a product that matches the installation location of the radioactive material adsorbing cloth net.

  FIG. 5 shows a plan view of the radioactive material adsorbing cloth net of Example 3. As shown in FIG. 5, the recovery rope 6 is fixed to a suction cloth net (not shown) whose end portion 6 a is located below the float member 3 f, and a suction cloth net (not shown) located below the float members (3 g to 3 i). Is inserted through the gap. Therefore, when collecting the radioactive substance adsorbing cloth net 12, the radioactive substance adsorbing cloth net 12 can be folded by pulling the free end of the collecting rope 6 so that the radioactive substance adsorbing cloth net 12 can be easily collected. It is.

  FIG. 6 shows a front view of the radioactive material adsorbing cloth net of Example 4. As shown in FIG. 6, the radioactive substance adsorbing cloth net 13 includes adsorbing cloth nets (20 a to 20 f), a float member 3, and a weight member 4, and is connected using a connecting member 5. In the first embodiment, it is composed of one suction cloth net, but in this embodiment, it is composed of six suction cloth nets (20a to 20f).

Specifically, in the drawing, the suction cloth net 20a and the suction cloth net 20c, the suction cloth net 20c and the suction cloth net 20e, the suction cloth net 20b and the suction cloth net 20d, and the suction cloth net 20d and the suction cloth net 20f are connected members. 5 are connected to the left and right. Further, the suction cloth net 20 a and the suction cloth net 20 b, the suction cloth net 20 c and the suction cloth net 20 d, and the suction cloth net 20 e and the suction cloth net 20 f are connected vertically using the connecting member 5.
The suction cloth nets (20a, 20c, 20e) are connected to the float member 3 using the connecting member 5 at the upper end portion, and the suction cloth nets (20b, 20d, 20f) use the connecting member 5 at the lower end portion. The weight member 4 is connected.
Thus, unlike Example 2 or 3, the adsorption | suction cloth net | network is extended using the connection member 5, and one adsorption | suction cloth net | network is large-shaped by using a long float member and a weight member. It is also possible to use.

  The present invention is useful for a purification treatment facility for contaminated water containing radioactive substances.

1,11-13 Radioactive material adsorbing cloth net 2,2a-2q, 20a-20f Adsorbing cloth net 3,3a-3e Float member 4,4a-4f Weight member 5 Connecting member 6 Recovery rope 6a End portion 7 Submarine 8 Reef 50 Radioactive material adsorption system 53 Purified soot 54 Discharge port 57a Grating 57b Cover plate 58 Radioactive material adsorbing device 59 Catchment basin 60 Contaminated water 61 Primary purified water 62 Secondary purified water

Claims (9)

In an adsorbent cloth net formed in a mesh shape using a band-shaped radioactive substance adsorbing fiber substrate carrying a radioactive substance adsorbent,
A connecting member is provided at the upper end and lower end of the absorbent cloth net,
A weight member capable of sinking the entire adsorbent cloth net in water is connected to the connecting member on the lower end side,
A radioactive substance adsorbing cloth net, wherein an adsorbing cloth net and a float member capable of supporting the weight member in water by buoyancy are connected to a connecting member on an upper end side. The adsorbing cloth net is provided with the connecting member on all edges,
The radioactive material adsorbing cloth net according to claim 1, wherein two or more sheets are connected by connecting the connecting members on either side. The adsorbent cloth net is
The upper end portions and the lower end portions are alternately connected using the connecting member, with the float member or the weight member in common,
One end is fixed to the farthest end net of the connected adsorbent cloth net, and the other end is provided with a rope-like recovery member inserted through the net holes of all nets,
The radioactive material adsorbing cloth net according to claim 1 or 2, wherein a net spread in water can be closed in an accordion shape by pulling a free end of the rope-like recovery member. The adsorbent cloth net is
The right end portions and the left end portions are alternately connected using the connecting member,
One end is fixed to the farthest end net of the connected adsorbent cloth net, and the other end is provided with a rope-like recovery member inserted through the net holes of all nets,
The radioactive material adsorbing cloth net according to claim 1 or 2, wherein a net spread in water can be closed in an accordion shape by pulling a free end of the rope-like recovery member. The overall shape of each of the adsorbent cloth nets is a square or a rectangle,
The radioactive material adsorbing cloth net according to any one of claims 1 to 4, wherein the adsorbing cloth nets are connected in a vertical and horizontal matrix shape using the connecting member. The overall shape of each of the adsorbent cloth nets is a rhombus, a parallelogram, an isosceles trapezoid or a regular hexagon,
The radioactive substance adsorbing cloth net according to claim 1, wherein the adsorbing cloth nets are connected in a plate shape using the connecting member.   The plurality of strip-shaped radioactive substance-adsorbing fiber base materials are partially bundled, and the strip-shaped portions that are not bundled are connected together to form a network. The radioactive material adsorption cloth net of crab.   The radioactive substance adsorbent cloth net according to any one of claims 1 to 7, wherein the radioactive substance adsorbent is a Prussian blue analog that mainly adsorbs and removes cesium. The radioactive substance adsorbing cloth net according to claim 8, wherein the Prussian blue analog is Prussian blue.