JP5972585B2 - Sludge storage tank - Google Patents

Description

  The present invention relates to a sludge storage tank for storing a liquid containing fine sludge such as sludge.

  There is a sludge storage tank for storing a liquid containing sludge. The sludge storage tank temporarily stores generated powder and the like together with water and discharges and processes it as necessary. In such a sludge storage tank, if stored for a long period of time, the sludge settles and adheres to the water, so it is necessary to stir the inside of the tank to ensure fluidity. Therefore, in the conventional sludge storage tank, the inside of the tank is stirred to ensure fluidity by supplying air to the inside and bubbling.

  An example of such a sludge storage tank is described in Patent Document 1 below. In this method and apparatus for transferring sludge contaminated with radioactive substances described in Patent Document 1, air is blown into the supernatant water existing on the sludge layer deposited inside the storage tank and locally stirred. Fluid sludge liquid is formed by this, the sludge liquid is sucked out from the storage tank by the sludge transfer pump and transferred to the transfer tank, and the supernatant water generated in the transfer tank is returned to the storage tank and ejected, and the sludge deposit layer It is to be crushed by spraying vigorously.

JP 2008-096116 A

  In the conventional sludge storage tank, the sludge is agitated by supplying air or water to the inside. However, since the liquid containing sludge has a high viscosity, it is difficult to ensure sufficient fluidity. If the sludge adheres to the bottom of the tank, the tank may be corroded depending on the material of the sludge.

  The present invention solves the above-described problems, and an object of the present invention is to provide a sludge storage tank that secures the fluidity of internal sludge and can suppress sticking due to sedimentation of the sludge.

  In order to achieve the above object, a sludge storage tank according to the present invention has a hollow cylindrical shape with a longitudinal direction arranged along a horizontal direction and capable of storing a liquid containing sludge, and an upper portion of the tank body. A supply unit capable of supplying a liquid containing sludge from the top, a discharge unit capable of sucking and discharging a liquid containing sludge from the upper part of the tank body, and a gas ejection device capable of ejecting gas toward the bottom in the tank body And a guide member that generates an upward flow of liquid containing sludge by regulating the flow of the gas ejected from the gas ejection device.

  Therefore, when the gas is ejected toward the bottom in the tank body by the gas ejection device, the flow of the gas is regulated by the guide member, so that an upward flow of liquid including sludge is generated. Thus, the sludge can be flowed inside the tank body, and the fluidity of the internal sludge can be secured to prevent the sludge from sticking due to sedimentation.

  In the sludge storage tank of the present invention, the guide member is arranged above a gas jet port by the gas jet device.

  Therefore, when gas is ejected toward the bottom in the tank body by the gas ejection device, the flow of the gas is regulated by the guide member above it, and flows along the inner surface of the tank body. The upward swirling flow of the liquid containing the sludge is generated, and the sludge can flow inside the tank body.

  In the sludge storage tank of the present invention, the guide member is disposed along a substantially horizontal direction with a predetermined gap from the bottom of the tank body, and the gas outlet is disposed between the guide member and the bottom of the tank body. In the guide member, a circulation part is provided on the end side in the circumferential direction of the tank body.

  Therefore, when the gas is ejected toward the bottom in the tank body by the gas ejection device, the flow of the gas is restricted by the guide member located above the gas, and the gas rises from one of the circulation portions. The liquid is sucked in from the circulation section to generate a swirling flow of the liquid including the sludge, so that the sludge can flow inside the tank body.

  In the sludge storage tank of the present invention, the guide member has a curved shape along the bottom of the tank body.

  Therefore, when the guide member has a curved shape along the bottom of the tank body, it is possible to easily generate a swirling flow of liquid containing sludge.

  In the sludge storage tank of the present invention, the guide member extends along the longitudinal direction of the tank main body and extends from the bottom of the tank main body in the vertical direction, and is provided on both sides of the guide member in the gas ejection device. A gas outlet is arranged.

  Therefore, when gas is ejected toward the bottom in the tank body by the gas ejection device, the flow of the gas is regulated by the guide member along the vertical direction, and flows along the guide member. As a result, an upward flow of liquid containing sludge is generated, and the sludge can flow inside the tank body.

  In the sludge storage tank of the present invention, the guide member is fixed to a bottom portion of the tank body along a substantially horizontal direction, and a gas outlet in the gas ejection device is disposed above the guide member. Yes.

  Therefore, when the gas is ejected toward the bottom in the tank body by the gas ejection device, the flow of the gas is regulated by the guide member below it, and flows along the inner surface of the tank body. The upward swirling flow of the liquid containing the sludge is generated, and the sludge can flow inside the tank body.

  According to the sludge storage tank of the present invention, a gas capable of ejecting gas toward the bottom portion in a tank body having a hollow cylindrical shape and having a longitudinal direction arranged along the horizontal direction and capable of storing a liquid containing sludge. In addition to providing an ejection device and a guide member that generates an upward flow of liquid containing sludge by regulating the flow of the ejected gas, it becomes possible to cause the sludge to flow inside the tank body. The fluidity of the sludge can be secured, and the sticking due to the sedimentation of the sludge can be suppressed.

1 is a cross-sectional view (II cross-section in FIG. 2) of a sludge storage tank according to Embodiment 1 of the present invention. FIG. 2 is a schematic diagram illustrating the inside of the sludge storage tank of the first embodiment. FIG. 3 is a cross-sectional view of a sludge storage tank that represents a modification of the first embodiment. FIG. 4 is a cross-sectional view of a sludge storage tank that represents a modification of the first embodiment. FIG. 5 is a sectional view of a sludge storage tank according to Embodiment 2 of the present invention. FIG. 6 is a cross-sectional view of a sludge storage tank according to Embodiment 3 of the present invention.

  Hereinafter, a preferred embodiment of a sludge storage tank according to the present invention will be described 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 cross-sectional view (II cross section of FIG. 2) of a sludge storage tank according to the first embodiment of the present invention, and FIG. 2 is a schematic diagram showing the inside of the sludge storage tank of the first embodiment, FIG. 4 is a cross-sectional view of a sludge storage tank representing a modification of the first embodiment.

  In the first embodiment, as shown in FIGS. 1 and 2, the sludge storage tank 10 includes a tank body 11, a supply unit 12, a discharge unit 13, a gas ejection device 14, and a guide member 15. Yes.

  The tank body 11 has a hollow cylindrical shape, and the longitudinal direction is arranged along the horizontal direction, that is, it is laid down. The tank body 11 is provided with a supply unit 12 capable of supplying a liquid S containing sludge at one upper portion in the longitudinal direction, and can store the liquid S containing sludge therein. Further, the tank body 11 is provided with a discharge portion 13 capable of sucking and discharging the liquid S containing sludge at the other upper portion in the longitudinal direction. The discharge portion 13 has a cylindrical shape, the lower portion extends to the bottom of the tank main body 11, the upper portion extends to the outside of the tank main body 11, and a suction device (not shown) is connected thereto.

  The gas ejection device 14 can eject gas (air) toward the bottom of the tank body 11. That is, the gas supply pipe 21 enters the inside of the tank body 11 from one end portion in the longitudinal direction of the tank body 11 and extends to the other end portion in the longitudinal direction in the tank body 11. It is arranged along this bottom part at a position separated by a predetermined distance from the bottom. The gas supply pipe 21 is connected to an air supply device (not shown) at the base end portion, and a plurality of jet ports 22 are formed on the lower surface of a region located inside the tank body 11. In this case, the gas supply pipe 21 is arranged along the longitudinal direction of the tank body 11, but is displaced by a predetermined amount to one side of the tank body 11 in the horizontal direction (right side in FIG. 1).

  Therefore, when the gas ejection device 14 supplies air into the gas supply pipe 21 by the air supply device, the gas ejection device 14 can eject the air downward from the numerous ejection ports 22, that is, toward the bottom of the tank body 11.

  The guide member 15 generates an upward flow of the liquid S including sludge by regulating the flow of air ejected from each ejection port 22 of the gas supply pipe 21 in the gas ejection device 14. The guide member 15 has a plate shape that is curved along the bottom of the tank main body 11, and is disposed above each ejection port 22 of the gas supply pipe 21 in the gas ejection device 14.

  In this case, each guide member 15 is connected to each longitudinal end of the tank body 11 at each longitudinal end. The guide member 15 is disposed along a substantially horizontal direction (specifically, a direction parallel to the bottom of the tank main body 11) with a predetermined gap from the bottom of the tank main body 11, and the guide member 15 and the bottom of the tank main body 11 are arranged. A gas supply pipe 21 (jet port 22) is disposed between the two. And the circulation parts 23 and 24 are provided in each edge part side of the circumferential direction of the tank main body 11 in the guide member 15. FIG.

  Therefore, when the gas ejection device 14 is operated and air is ejected from each ejection port 22 of the gas supply pipe 21 toward the bottom of the tank body 11, the air is bubbled and the flow is restricted by the lower surface of the guide member 15. By doing so, it flows along the inner surface of the tank main body 11 and ascends inside the tank main body 11 through the flow part 23 on the side where the arrangement position of the gas supply pipe 21 is shifted. Therefore, the upward flow of the liquid S containing sludge is generated by this upward flow of air.

  Then, since the space part between the guide member 15 and the bottom part of the tank main body 11 becomes a negative pressure, the liquid S containing the sludge inside the tank main body 11 is sucked from the circulation part 24 to the bottom part side. A flow along the inner surface of the tank body 11 is formed. Therefore, in the space between the guide member 15 and the bottom of the tank body 11, a flow of the liquid S including sludge from the circulation part 24 to the circulation part 23 is formed, and the sludge is formed inside the tank body 11. As a result, a swirl flow (circulation flow) of the liquid S is generated, and sludge flows inside the tank body 11.

  As a result, it is possible to cause the sludge to flow inside the tank body 11, and it becomes difficult for the sludge to settle to the bottom of the tank body 11, and sticking due to the sedimentation of the sludge is suppressed.

  Thus, in the sludge storage tank of Example 1, the tank main body 11 which has a hollow cylindrical shape and whose longitudinal direction is arranged along the horizontal direction and can store the liquid S containing sludge, A supply unit 12 capable of supplying a liquid S containing sludge from the top, a discharge unit 13 capable of sucking and discharging the liquid S containing sludge from the top of the tank main body 11, and a gas jetting toward the bottom in the tank main body 11 A possible gas ejection device 14 and a guide member 15 that generates an upward flow of the liquid S including sludge by regulating the flow of air ejected from the gas ejection device 14 are provided.

  Therefore, when air is ejected toward the bottom in the tank main body 11 by the gas ejection device 14, the flow of the air is regulated by the guide member 15, so that the upward flow of the liquid S including sludge is increased. As a result, the sludge can be caused to flow inside the tank body 11, and the fluidity of the internal sludge can be secured to prevent the sludge from sticking due to sedimentation.

  Moreover, in the sludge storage tank of Example 1, the guide member 15 is arrange | positioned above the jet nozzle 22 by the gas ejection apparatus 14. FIG. Accordingly, when air is ejected from the ejection port 22 toward the bottom in the tank body 11, the flow of the air is restricted by the guide member 15 located above the air and flows along the inner surface of the tank body 11. As a result, an upward swirling flow of the liquid containing the sludge is generated, and the sludge can flow inside the tank body 11.

  Further, in the sludge storage tank of Example 1, the guide member 15 is disposed along the substantially horizontal direction with a predetermined gap from the bottom of the tank body 11, and the jet port 22 is provided between the guide member 15 and the bottom of the tank body 11. The circulation portions 23 and 24 are provided on the end side in the circumferential direction of the tank body 11 in the guide member 15. Therefore, the flow of the air ejected from the ejection port 22 is restricted by the guide member 15 located above and rises from the one circulation part 23, so that the liquid S containing sludge is sucked from the other circulation part 24. As a result, a swirl flow is generated, and the sludge can flow inside the tank body 11.

  In the sludge storage tank according to the first embodiment, the guide member 15 has a curved shape along the bottom of the tank body 11. Therefore, it is possible to easily generate a swirling flow of the liquid S including sludge.

  In addition, in this Example 1, although the guide member 15 was made into the plate shape curved along the bottom part of the tank main body 11, it is not limited to this shape.

  For example, as shown in FIG. 3, the guide member 16 regulates the flow of air S ejected from each ejection port 22 of the gas supply pipe 21 in the gas ejection device 14, thereby increasing the upward flow of the liquid S including sludge. Is to be generated. The guide member 16 is disposed above each ejection port 22 of the gas supply pipe 21 in the gas ejection device 14. The guide member 16 includes a lower curved surface 16a that curves downward along the bottom of the tank body 11, and an upper horizontal surface 16b that extends substantially in the horizontal direction.

  Further, as shown in FIG. 4, the guide member 17 regulates the flow of the air S ejected from each ejection port 22 of the gas supply pipe 21 in the gas ejection device 14, thereby preventing the upward flow of the liquid S including sludge. Is to be generated. The guide member 17 is disposed above each ejection port 22 of the gas supply pipe 21 in the gas ejection device 14. The guide member 17 includes a lower curved surface 17a curved downward along the bottom of the tank body 11, and an upper curved surface 17b curved so as to protrude upward.

  By making the guide members 16 and 17 into respective shapes, as with the guide member 15, the swirl of the liquid S containing sludge inside the tank body 11 due to the air injected from the respective outlets 22 of the gas supply pipe 21. A flow is generated, and the sludge is less likely to settle on the bottom of the tank body 11, and sticking due to sedimentation of the sludge is suppressed.

  In addition, when the guide member 16 has the upper horizontal surface 16b or the guide member 17 has the upper curved surface 17b, accumulation of sludge on the upper portions of the guide members 16 and 17 is suppressed.

  FIG. 5 is a sectional view of a sludge storage tank according to Embodiment 2 of the present invention. In addition, the same code | symbol is attached | subjected to the member which has the function similar to the Example mentioned above, and detailed description is abbreviate | omitted.

  In Example 2, as shown in FIG. 5, the sludge storage tank 30 includes a tank body 11, a supply unit 12 (see FIG. 2), a discharge unit 13 (see FIG. 2), a gas ejection device 31, and a guide. Member 32.

  The gas ejection device 31 can eject gas (air) toward the bottom of the tank body 11. That is, the two gas supply pipes 41, 42 enter the inside of the tank body 11 from one end portion in the longitudinal direction of the tank body 11 and extend to the other end portion in the longitudinal direction of the tank body 11. It is arranged along this bottom portion at a position separated from the bottom portion of the main body 11 by a predetermined distance. Each of the gas supply pipes 41 and 42 is connected to an air supply device (not shown) at the base end portion, and a plurality of jet ports 43 and 44 are formed on the lower surface of the region located inside the tank body 11. In this case, the gas supply pipes 41 and 42 are arranged substantially in parallel along the longitudinal direction of the tank body 11.

  The guide member 32 generates an upward flow of the liquid S including sludge by regulating the flow of air ejected from the ejection ports 43 and 44 of the gas supply pipes 41 and 42 in the gas ejection device 31. . The guide member 32 has a flat plate shape along the vertical direction, extends along the longitudinal direction of the tank body 11, and extends upward from the bottom of the tank body 11 in the vertical direction. The guide member 32 is disposed between the two gas supply pipes 41 and 42 in the gas ejection device 31. That is, the guide member 32 is provided with the ejection ports 43 of the gas supply pipes 41 and 42 on both sides thereof.

  Therefore, when the gas ejection device 31 is operated and air is ejected from the ejection ports 43 and 44 of the gas supply pipes 41 and 42 toward the bottom of the tank body 11, the air becomes bubble-like, and each of the guide members 32. By restricting the flow by the side surfaces, the flow flows along the respective side surfaces of the guide member 32 and ascends inside the tank body 11. Therefore, the upward flow of the liquid S containing sludge is generated by this upward flow of air.

  Then, since the space part of the bottom part of the tank main body 11 becomes a negative pressure, the liquid S containing the sludge inside the tank main body 11 is sucked into the bottom side along the inner surface of the tank main body 11, thereby A flow along the inner surface of 11 is formed. Therefore, a swirl flow (circulation flow) of the liquid S including sludges in opposite directions is generated in the two spaces in the two tank bodies 11 partitioned by the guide member 32, and the inside of the tank body 11. Sludge flows.

  As a result, it is possible to cause the sludge to flow inside the tank body 11, and it becomes difficult for the sludge to settle to the bottom of the tank body 11, and sticking due to the sedimentation of the sludge is suppressed.

  Thus, in the sludge storage tank of Example 2, the gas ejection device 31 capable of ejecting gas toward the bottom in the tank body 11 and the flow of air ejected from the gas ejection device 31 are regulated. Thus, a guide member 32 that generates an upward flow of the liquid S including sludge is provided.

  Therefore, when air is ejected toward the bottom in the tank main body 11 by the gas ejection device 31, the flow of the air is regulated by the guide member 32, so that the upward flow of the liquid S including sludge is increased. As a result, the sludge can be caused to flow inside the tank body 11, and the fluidity of the internal sludge can be secured to prevent the sludge from sticking due to sedimentation.

  Further, in the sludge storage tank of the second embodiment, the guide member 32 extends along the longitudinal direction of the tank body 11 and extends from the bottom of the tank body 11 along the vertical direction, and gas ejection devices are provided on both sides of the guide member 32. The jet nozzles 43 and 44 at 31 are arranged. Therefore, when air is ejected in the tank body 11 toward the bottom by the gas ejection device 31, the flow of the air is regulated by the guide member 32 along the vertical direction, and along the guide member 32. By flowing upward, an upward flow of the liquid S containing sludge is generated, and the sludge can flow inside the tank body 11.

  FIG. 6 is a cross-sectional view of a sludge storage tank according to Embodiment 3 of the present invention. In addition, the same code | symbol is attached | subjected to the member which has the function similar to the Example mentioned above, and detailed description is abbreviate | omitted.

  In the third embodiment, as shown in FIG. 6, the sludge storage tank 50 includes a tank body 11, a supply unit 12 (see FIG. 2), a discharge unit 13 (see FIG. 2), a gas ejection device 51, and a guide. Member 52.

  The gas ejection device 51 can eject gas (air) toward the bottom of the tank body 11. That is, the gas supply pipe 61 enters the inside of the tank body 11 from one end portion in the longitudinal direction of the tank body 11 and extends to the other end portion in the longitudinal direction in the tank body 11. It is arranged along this bottom part at a position separated by a predetermined distance from the bottom. Each of the gas supply pipes 61 is connected to an air supply device (not shown) at the base end portion, and a plurality of jet ports 62 are formed on the lower surface of a region located inside the tank main body 11. In this case, the gas supply pipe 61 is disposed along the longitudinal direction of the tank body 11, but is displaced by a predetermined amount to one side of the tank body 11 in the horizontal direction (right side in FIG. 6).

  The guide member 52 generates an upward flow of the liquid S including sludge by regulating the flow of air ejected from each ejection port 62 of the gas supply pipe 61 in the gas ejection device 51. The guide member 52 has a flat plate shape along the horizontal direction, is disposed along the substantially horizontal direction at the bottom of the tank body 11, and is fixed to the bottom of the tank body 11. That is, the guide member 52 has the respective jet ports 62 in the gas jet device 51 disposed above the guide member 52.

  Therefore, when the gas ejection device 51 is operated and air is ejected from each ejection port 62 of the gas supply pipe 61 toward the bottom of the tank body 11, the air is bubbled and the flow is restricted by the upper surface of the guide member 52. As a result, the inside of the tank body 11 is raised along the inner surface of the tank body 11 on the side where the arrangement position of the gas supply pipe 61 is shifted. Therefore, the upward flow of the liquid S containing sludge is generated by this upward flow of air.

  Then, since the space part between the guide member 52 and the bottom part of the tank main body 11 becomes a negative pressure, the liquid S containing the sludge inside the tank main body 11 flows from the inner surface of the tank main body 11 on the opposite side to the bottom side. By being sucked, a flow along the inner surface of the tank body 11 is formed. Therefore, a swirling flow (circulating flow) of the liquid S containing sludge is generated inside the tank body 11, and the sludge flows inside the tank body 11.

  As a result, it is possible to cause the sludge to flow inside the tank body 11, and it becomes difficult for the sludge to settle to the bottom of the tank body 11, and sticking due to the sedimentation of the sludge is suppressed.

  As described above, in the sludge storage tank of the third embodiment, the gas ejection device 51 capable of ejecting gas toward the bottom in the tank body 11 and the flow of air ejected from the gas ejection device 31 are regulated. Thus, a guide member 52 that generates an upward flow of the liquid S including sludge is provided.

  Therefore, when air is ejected toward the bottom in the tank body 11 by the gas ejection device 51, the flow of the air is restricted by the guide member 52, so that the upward flow of the liquid S including sludge is increased. As a result, the sludge can be caused to flow inside the tank body 11, and the fluidity of the internal sludge can be secured to prevent the sludge from sticking due to sedimentation.

  In the sludge storage tank according to the third embodiment, the guide member 52 is fixed to the bottom of the tank main body 11 along the substantially horizontal direction, and the ejection port 62 in the gas ejection device 51 is disposed above the guide member 52. Therefore, when air is ejected toward the bottom in the tank body 11 by the gas ejection device 51, the air is regulated by the guide member 52 along the horizontal direction and flows upward, so that the sludge flows. As a result, an upward flow of the liquid S containing is generated, and the sludge can flow inside the tank body 11.

  In the sludge storage tank according to the third embodiment, the guide member 52 is fixed to the bottom of the tank main body 11, so that sludge does not accumulate on the bottom of the tank main body 11 and damage to the tank main body 11 can be prevented. it can.

  In addition, in each Example mentioned above, although the gas supply piping 21,41,42,61 in the gas ejection apparatuses 14,31,51 has been arrange | positioned one or two, it is not limited to the number. Further, although one guide member 15, 16, 17, 32, 52 is disposed, the number is not limited to that, and a plurality of guide members may be provided.

10, 30, 50 Sludge storage tank 11 Tank body 12 Supply unit 13 Discharge unit 14, 31, 51 Gas ejection device 15, 16, 17, 32, 52 Guide member 21, 41, 42, 61 Gas supply piping 22, 43, 44, 62 Spout 23, 24 Distribution section

Claims (2)

A tank body having a hollow cylindrical shape and having a longitudinal direction arranged along the horizontal direction and capable of storing liquid containing sludge;
A supply unit capable of supplying a liquid containing sludge from the upper part of the tank body;
A discharge part capable of sucking and discharging liquid containing sludge from the upper part of the tank body;
A gas ejection device capable of ejecting gas toward the bottom in the tank body;
A guide member that generates an upward flow of liquid containing sludge by regulating the flow of gas ejected from the gas ejection device;
Bei to give a,
The guide member is disposed along a substantially horizontal direction with a predetermined gap from a bottom portion of the tank body, a gas ejection port by the gas ejection device is disposed between the guide member and the bottom portion of the tank body, and the gas The jet outlet is arranged to be shifted to one side in the circumferential direction of the tank body with respect to the guide member, and a circulation part is provided on the circumferential end portion side of the tank body in the guide member.
A sludge storage tank characterized by that. The sludge storage tank according to claim 1 , wherein the guide member has a curved shape along a bottom portion of the tank body.

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