KR101085259B1 - Device for treatment of waste liquid - Google Patents

Abstract

The present invention is to install the immersed membrane used in the radioactive waste treatment equipment of nuclear power plant in the solid-liquid separation tank which is a waste liquid treatment device, it is possible to increase the treatment capacity of the radioactive waste liquid, improve the convenience of replacement of the immersion membrane, and reduce the radiation exposure of the operator. The purpose is to provide a waste liquid treatment apparatus.
Waste tank for introducing the waste liquid for achieving the object as described above and the filtered permeate is discharged; A waste liquid inlet unit through which waste liquid flows into the tank; A plurality of immersion type membranes disposed in the annular space in the tank to filter foreign substances contained in the waste liquid introduced through the waste liquid inlet; A permeate suction unit for sucking permeate of the waste liquid that has passed through the submerged membrane and discharging it to the outside of the tank; An air supply unit supplying compressed air to the immersed membrane to prevent adhesion of foreign matter to the surface of the immersed membrane; In addition to supporting the lower portion of the submerged membrane, the surface includes a porous support plate having a plurality of holes formed therein.

Description

Device for treatment of waste liquid

The present invention relates to a waste liquid treatment apparatus. More specifically, the treatment capacity is increased by increasing the number of immersion hollow fiber membranes (hereinafter referred to as "immersion membranes") installed in a solid-liquid separation tank of a nuclear power plant liquid radioactive waste treatment system pretreatment facility. The present invention relates to a waste liquid treatment apparatus for increasing the convenience, improving the convenience of work when replacing the used immersion type membrane, and reducing the risk of exposure of the worker.

Immersion type membranes have been applied to the pretreatment facilities of the Liquid Radwaste System of some nuclear power plants.

These submerged membranes are installed in the solid-liquid separation tank to treat the incoming radioactive waste primarily.

The submerged membrane has a function of removing turbidity causing substances, organic and inorganic suspended solids present in the radioactive waste liquid.

Submerged membrane treatment process uses a centrifugal pump to create a permeable range of vacuum in the permeate capillary to inhale permeate and continuously aeration through the diffuser underneath the submerged membrane to prevent clogging of the submerged membrane. It is designed for backwash operation.

However, the conventional waste liquid treatment apparatus has a problem in that the number of immersed membranes is limited by applying a method in which the immersed membranes are linearly arranged in arranging the immersed membranes in the solid-liquid separation tank.

In the conventional waste liquid treatment apparatus, when replacing the used immersion membrane, the upper cover of the solid-liquid separation tank is opened, and the operator enters the water tank and approaches the immersion membrane in which the radioactive particles are concentrated. After dismantling the connector, it is operated by removing the submerged membrane through the top of the tank. However, when the submerged membrane is replaced, the submerged membrane is not easy to replace, and there is a problem in that an operator is directly exposed to radiation, thereby causing a risk of overexposure.

In addition, the conventional waste liquid treatment apparatus has a structure in which the immersion membrane is seated on the fixed porous support plate and a separate fixing device is installed in the manner of fixing the immersion membrane in the solid-liquid separation tank. However, in this case, since the height of the immersable membrane can be fixed, it is not only possible to install the immersion membranes of various heights, but also has a problem that it takes a lot of time and is not easy to attach and detach the immersion membrane.

The present invention has been made to solve the above problems, in the installation of an immersion type membrane used in a radioactive waste treatment facility of a nuclear power plant in a solid-liquid separation tank which is a waste liquid treatment device, the treatment capacity of the radioactive waste solution and the replacement of the immersed membrane The purpose of the present invention is not only to improve the convenience and reduce the radiation exposure of the operator, but also to provide a waste liquid treatment apparatus that can be applied universally to the treatment of hazardous / toxic substances in addition to the radioactive waste liquid.

Waste liquid treatment apparatus of the present invention for achieving the object as described above, the waste liquid is introduced into the water tank and the filtered permeated water discharged; A waste liquid inlet unit through which waste liquid flows into the tank; A plurality of immersion type membranes disposed in the annular space in the tank to filter foreign substances contained in the waste liquid introduced through the waste liquid inlet; A permeate suction unit for sucking permeate of the waste liquid that has passed through the submerged membrane and discharging it to the outside of the tank; An air supply unit supplying compressed air to the immersed membrane to prevent adhesion of foreign matter to the surface of the immersed membrane; In addition to supporting the lower portion of the submerged membrane, the surface includes a porous support plate having a plurality of holes formed therein.

In this case, the permeate suction unit, an upper permeate line extending from the outside of the tank to the upper side of the tank, a permeate suction line connected to the upper permeate line and extending into the tank, and the permeate suction An annular permeable water intake capillary extending radially from the line and disposed annularly on the immersion membrane, wherein the air supply unit comprises: an upper air line for supplying compressed air from the outside of the tank to the upper side of the tank; An air supply line connected to an upper air line and surrounding an outer circumferential surface of the permeate suction line and extending into the water tank, and an annular air supply cap that extends radially from the air supply line and is annularly disposed on an upper side of the submerged membrane. It may consist of one consisting of.

In addition, a membrane connecting socket provided on the bottom surface of the annular permeable suction cap and a number corresponding to the plurality of submerged membranes and the suction nozzle provided on the upper end of the submerged membrane are connected by a quick coupling, and the annular air supply cap The diffuser connected to the air inlet below the submerged membrane may be configured to be connected by a one-touch connector.

In addition, the permeate suction line and the porous support plate may be connected by a rotating shaft, and the permeate suction line may be configured to be rotatably connected by driving of a motor.

In addition, the upper end portion of the tank through which the permeate suction line and the air supply line penetrate may be configured to include a sealing flange for maintaining airtightness.

In addition, the connection portion between the upper permeate line and the permeate suction line, the connection portion between the upper air line and the air supply line, and the connection portion between the permeate suction line and the rotating shaft are respectively separated by a connecting flange. It may consist of.

In addition, the rotating shaft and the connection portion of the porous support plate is connected by a screwing method by a screw, the porous support plate may be configured to be changed up and down position.

In addition, the lower end of the rotating shaft is supported in a rotatable state by a rotating shaft support member fixed to the bottom surface of the tank, one side of the inside of the tank may be configured to be provided with a stopper for restricting the rotation of the porous support plate. .

In addition, one side of the tank may be configured to be provided with a hatch door that opens and closes for the withdrawal of the submerged membrane.

In addition, one side of the tank having the hatch door may be configured to be further provided with a lead shield to block the radiation.

According to the waste liquid treatment apparatus according to the present invention, it is not only easy to replace while rotating the immersion membrane installed in the solid-liquid separation tank by arranging the immersion type membrane in an annular shape, so that the number of installation of the immersion membrane in the solid-liquid separation tank can be increased. There is an effect that can increase the treatment capacity of the radioactive waste liquid.

In addition, according to the present invention, the hatch door is installed on one side of the tank and the lead shield for radiation shielding is provided so that the submerged membrane is rotated one by one from the side of the tank while rotating the annular permeated suction cap and the annular air supply cap connected to the submerged membrane. Since it can be attached and detached, there is an effect of improving the convenience of replacing the submerged membrane and reducing the risk of radiation exposure.

In addition, according to the present invention, in fixing the immersed membrane, it is possible to install the vertically adjustable porous support plate to install immersed membranes of various heights, and by applying a one-touch connection method, there is an effect that rapid detachment of the immersed membrane is possible.

In addition, the present invention has the effect that can be applied to a device for treating hazardous / toxic substances in addition to the treatment of radioactive waste.

1 is a side view of a waste liquid treatment apparatus having an annular arrangement of an immersion type membrane according to the present invention;
2 is a plan view of a waste liquid treatment apparatus having an annular arrangement of an immersion type membrane according to the present invention;
Figure 3 is a side view of the side hatch door of the waste liquid treatment apparatus in which the immersed membrane according to the present invention annular arrangement;
Figure 4 is a state diagram showing a state that the side hatch door of the waste liquid treatment apparatus in the annular arrangement of the immersion membrane according to the present invention opened.

Hereinafter, the configuration and operation of the preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a side view of a waste liquid treatment apparatus having an annular arrangement of an immersion type membrane according to the present invention, and FIG. 2 is a plan view of a waste liquid treatment apparatus having an annular arrangement of an immersion type membrane according to the present invention.

The waste liquid treatment apparatus of the present invention is to increase the waste liquid treatment capacity in the solid-liquid separation tank 100, to improve the convenience of replacing the submerged membrane 130, and to improve the connection and fixing method of the submerged membrane 130. There is a characteristic.

The overall configuration of the solid-liquid separation tank 100 of the waste liquid treatment apparatus of the present invention for achieving this purpose, the waste liquid is introduced into the filtered permeate is discharged and the foreign matter of the concentrated waste liquid is discharged through the drain line 105 at the bottom A plurality of immersed membranes to filter the foreign matter contained in the waste tank 101, the waste liquid inlet 104, the waste liquid inlet 104 is introduced into the inside of the tank 101, annularly spaced apart in the inside of the tank 101 130 and the permeate suction unit for sucking the permeated water of the waste liquid passing through the submerged membrane 130 and supplying it to the outside of the water tank 101, and the eye due to the adhesion of foreign matter on the surface of the submerged membrane 130. An air supply unit for supplying compressed air and a lower portion of the immersion membrane 130 to fix the immersion membrane 130 to the upper side in order to prevent the blockage phenomenon, and the porous support plate 140 having a plurality of holes formed on the surface thereof. It includes.

In the present invention, the immersed membrane 130 is arranged in an annular shape in the water tank 101 of the solid-liquid separation tank 100, and the permeate suction unit is located above the water tank 101 from the outside of the water tank 101. The permeate line 110 and the permeate suction line 112, which is connected to the upper permeate line 110 extends into the water tank 101 and extends into the tank 101, It consists of an annular permeable water intake capillary 114 extending radially from the bottom and disposed in an annular shape above the immersed membrane 130.

Thus, by arranging the annular permeable water intake capillary 114 connecting the submerged membrane 130 in the circumferential direction, as compared with the structure in which the conventional permeable water intake capillary is linearly arranged in the inner space of the same water tank 101, it is annular as much as the circumference rate. Since the length of the permeable water intake capillary 114 becomes long, it is possible to increase the number of installation of the immersed membrane 130 by about three times.

The air supply unit is connected to the upper air line 120 and the upper air line 120 to supply compressed air from the outside of the water tank 101 to the upper side of the water tank 101, and the permeated water suction line ( An air supply line 122 disposed to surround the outer circumferential surface of 112 and an annular air supply cap 124 extending radially from the lower end of the air supply line 122 and disposed in an annular shape on the immersion membrane 130. )

As such, the permeated water suction line 112 and the air supply line 122 on the outer circumferential surface thereof are constituted by an air jacket-type double pipe, so as to be described later, the permeated water suction line 112 and the air are driven by the motor 190. The supply line 122 is integrally rotatable, thereby facilitating replacement of the submerged membrane 130.

On the other hand, the bottom surface of the annular permeate suction cap 114 is provided with a plurality of membrane connecting sockets 116 corresponding to the number of the plurality of submerged membranes 130 arranged in an annular shape, and through the quick coupling (Quick Coupling) It is connected to the suction nozzle 131 provided on the top of the furnace submerged membrane (130). Therefore, the submerged membrane 130 can be easily separated from the annular permeate suction capillary 114 during the replacement operation of the submerged membrane 130.

In addition, a diffuser 126 connected to an air inlet 132 provided at a lower portion of the plurality of submerged membranes 130 is connected to the bottom of the annular air supply cap 124 via a one touch connector. . Therefore, the diffuser 126 can be easily separated from the annular air supply cap 124 when the submerged membrane 130 is replaced.

In this case, the quick coupling and the one-touch connector are configured to facilitate the coupling at the connection portion, and may be configured with various known one-touch connection means.

Meanwhile, the permeate suction line 112 and the porous support plate 140 are coupled by the rotation shaft 150, and the lower end of the permeate suction line 112 and the upper end of the rotation shaft 150 are connected by the connection flange 115. Are detachably coupled.

In addition, the upper end of the permeate suction line 112 is connected to the rotating shaft of the motor 190 which is rotated at a low speed through the chain 192, and the permeate water is driven when the motor 190 is driven during the replacement of the submerged membrane 130. The suction line 112 and the air supply line 122 of the outer peripheral surface is integrally rotated, and in conjunction with the rotation shaft 150, the porous support plate 140 and the immersion membrane 130 mounted on the upper surface rotates together Done.

Here, the upper permeate line 110 and the permeate suction line 112 are coupled to each other by a connection flange 111, and the upper air line 120 and the air supply line 122 are connected to each other. It is coupled so as to be detachable by the flange 121, the upper permeate line 110 and the upper air line 120 when driving the motor 190 at a low speed for replacement of the immersion type membrane 130 In order to avoid rotational interference, the connection flanges 111 and 121 may be disassembled and separated.

In addition, a sealing flange 102 is installed at the upper end of the water tank 101 through which the permeate suction line 112 and the air supply line 122 pass through the diffuser 126 during radioactive waste treatment. In addition to the aeration, the radioactive gas that may occur in the water tank 101 is prevented from leaking to the outside of the water tank 101.

On the other hand, the rotary shaft 150 is coupled to the lower end through the porous support plate 140, a screw 155 is formed on the outer circumferential surface of the lower portion of the rotary shaft 150, the porous support plate is inserted into the screw 155 ( Since the corresponding thread is formed and screwed to the inner surface of the 140, the porous support plate 140 has a structure that the position can be changed up and down along the thread of the screw 155 during rotation.

The lower end of the rotating shaft 150 is supported in a rotatable state by the rotating shaft supporting member 160 fixed to the bottom surface 101a of the water tank 101.

In this way, the operation space of the connector for fastening the quick coupling 118 and the one-touch connector 125 may be provided when the submerged membrane 130 is detached by adjusting the vertical position by the rotation of the porous support plate 140. It is possible to cope with a change in the manufacturing standard (height) of the immersion type membrane 130, so that the immersion type membrane 130 of various heights can be installed.

And the inner side of the water tank 101 is provided with a stopper 142 for restricting the rotation of the porous support plate 140, the stopper 142 as in this embodiment is pivoting on the inner side of the water tank 101 It can be configured to be fixed to the side of the porous support plate 140.

Figure 3 is a side view of the side hatch door of the waste liquid treatment apparatus in the annular arrangement of the immersion membrane according to the present invention, Figure 4 is a state diagram showing the side hatch door of the waste liquid treatment apparatus in the annular arrangement of the immersion membrane according to the present invention opened. .

In the present invention, in order to allow the operator to quickly detach the immersion membrane 130 one by one from the outer side of the tank 101 during the replacement operation of the immersion membrane 130, the immersion membrane 130 on one side of the tank 101 The hatch door 170, which is opened and closed for the cashier, is provided.

The hatch door 170 may be configured to be opened and closed by a rotation operation of the handle 172, and to be turned to one side, it is preferable that the edge portion of the hatch door 170 is provided with a sealing means for preventing leakage.

In addition, one side of the tank 101 provided with the hatch door 170 is further provided with a lead shield 180 for blocking the radiation to minimize the exposure of the worker.

Therefore, when the submerged membrane 130 is replaced, the operator opens the hatch door 170, removes the connecting flanges 111 and 121 at the upper side of the water tank 101, and releases the stop state of the stopper 142. While rotating the motor 190 at a low speed, the quick coupling 118 and the one-touch connector 125 are separated, and the submerged membrane 130 used to be taken out through the hatch door 170 and easily replaced with a new submerged membrane. It becomes possible.

In the above, the waste liquid treatment apparatus of the present invention has been described as an example of a solid-liquid separation tank 100 for treating radioactive waste liquid. It will be apparent to those skilled in the art that the present invention may be modified and modified in various ways without departing from the technical gist of the present invention.

100: solid-liquid separation tank 101: water tank
102: sealing flange 104: waste liquid inlet
105: drainage line 110: upper permeate line
111, 115, 121: connection flange 112: permeate suction line
114: annular permeate suction cap 116: membrane connection socket
118: quick coupling 120: upper air line
122: air supply line 124: annular air supply cap
125: one-touch connector 126: diffuser
130: immersion membrane 131: suction nozzle
132: air inlet 140: porous support plate
150: rotating shaft 155: screw
160: rotating shaft support member 170: hatch door
172: handle 180: lead shield
190: motor 192: chain

Claims (10)

delete A water tank into which the waste liquid is introduced and the filtered permeate is discharged;
A waste liquid inlet unit through which waste liquid flows into the tank;
A plurality of immersion type membranes disposed in the annular space in the tank to filter foreign substances contained in the waste liquid introduced through the waste liquid inlet;
A permeate suction unit for sucking permeate of the waste liquid that has passed through the submerged membrane and supplying it to the outside of the tank;
An air supply unit supplying compressed air to the immersed membrane to prevent adhesion of foreign matter to the surface of the immersed membrane;
In addition to supporting the lower portion of the immersed membrane, the surface includes a porous support plate formed with a plurality of holes,
The permeate suction unit may include an upper permeate line extending from the outside of the tank to an upper side of the tank, a permeate suction line connected to the upper permeate line and extending into the tank, and the permeate suction line. A radially permeable capillary extending radially and disposed annularly on the immersion membrane;
The air supply unit, the upper air line for supplying compressed air from the outside of the tank to the upper side of the tank, and the air supply connected to the upper air line to surround the outer peripheral surface of the permeable water suction line extending into the tank A line and an annular air supply cap which extends radially from the air supply line and is annularly disposed on the submerged membrane. The method of claim 2,
Membrane connecting sockets provided on the bottom surface of the annular permeable suction cap and a number corresponding to the plurality of immersion membranes and suction nozzles provided on the upper ends of the immersion membranes are connected by quick couplings,
And a diffuser connected to the annular air supply cap and the air inlet at the bottom of the submerged membrane by a one-touch connector. The method of claim 2,
And the permeate suction line and the porous support plate are connected by a rotating shaft, and the permeate suction line is rotatably connected by driving of a motor. The method of claim 2,
And a sealing flange coupled to an upper end of the water tank through which the permeate suction line and the air supply line pass. The method of claim 4, wherein
The connection portion between the upper permeate line and the permeate suction line, the connection portion between the upper air line and the air supply line, and the connection portion between the permeate suction line and the rotating shaft are respectively detachably coupled by a connecting flange. Waste liquid treatment apparatus characterized in that. The method of claim 4, wherein
The rotary shaft and the connecting portion of the porous support plate is connected to the screwing method by a screw, the porous support plate is characterized in that the position is changed up and down. The method of claim 7, wherein
The lower end of the rotating shaft is supported in a rotatable state by a rotating shaft support member fixed to the bottom surface of the tank, one side of the inside of the tank is a waste liquid treatment, characterized in that a stopper for restricting the rotation of the porous support plate is provided Device. The method according to any one of claims 2 to 8,
One side of the tank is a waste liquid processing apparatus, characterized in that the hatch door is provided for opening and closing the submerged membrane. 10. The method of claim 9,
One side of the water tank provided with the hatch door is a waste liquid treatment device characterized in that it is further provided with a lead shield for blocking radiation.

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