JP2012020260A - Apparatus for removing foreign matter in seawater - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an apparatus for removing foreign matters in seawater, capable of removing foreign matters that adhere to an element even when a large amount of foreign matters with a light specific gravity enter therein.SOLUTION: The apparatus for removing foreign matters in seawater includes: a strainer container 1 having a cylindrical shape and provided with an inlet pipe 4 for introducing seawater or washing water fed from a pump 11, an outlet pipe 5 for leading permeated water out, a blow pipe 6 for discharging the foreign matters, and a drainpipe 7 for draining the seawater or washing water inside; a partition 2 which partitions an upper space and a lower space of the strainer container 1 and has an opening 2a formed at the center; the cylindrical element 3 which is provided in the upper space of the strainer container 1 and on which two or more holes are formed; a backwashing pump 20 connected with the outlet pipe 5 and the drainpipe 7; and a controller 9 for controlling the stoppage and operation of the pumps 11 and 12, and the opening of an inlet valve 10, an outlet valve 12, a blowdown valve 13, a drain valve 14, and a gas-venting valve 15.

Description

  The present invention relates to an apparatus for removing foreign matter in seawater.

  Conventionally, seawater taken from the sea has been used as cooling water used in cooling systems such as nuclear power plants. However, the seawater contains foreign matters such as micromarine organisms, and if foreign matter enters the cooling system, it may adversely affect the cooling system. For this reason, the strainer which removes the foreign material in seawater is installed upstream of a cooling system (for example, refer to the following patent documents 1 and 2).

  As this strainer, a self-cleaning strainer using a swirling flow is generally known. In this swirling self-cleaning strainer, a cylindrical element in which a plurality of holes for capturing foreign matter is formed is installed inside a cylindrical container. Seawater introduced into the strainer has a structure in which the permeated water from which foreign matter has been removed is supplied to the cooling system while rotating around the element and passing through the element.

  And the foreign material with heavy specific gravity contained in the seawater introduced into the strainer is gathered to the outside of the lower portion of the strainer container while being swirled by the flow swirling around the element, and is discharged from the blow tube for discharging the foreign matter. Further, the foreign matter having a low specific gravity contained in the seawater introduced into the strainer is discharged from the blow pipe without adhering to the element due to the disturbance of the flow field due to the flow swirling around the element.

JP 60-062589 A1 JP 07-305997 A

  However, the specific gravity of foreign matter such as micromarine organisms is almost the same as seawater, so if the amount attached to the element is small, it will be peeled off from the surface of the element due to the disturbance of the flow field, but at a specific time If a large amount of small marine organisms etc. flow into the strainer at a time, the adhesion speed at which foreign matter adheres to the element is higher than the separation speed at which foreign matter is peeled from the element. Marine organisms adhere and the differential pressure of the element increases.

  In addition, the adhesion of foreign matter such as micromarine organisms triggers the differential pressure of the element to increase, and the pressing pressure that presses the foreign matter against the element further increases, so that the foreign matter can be removed from the element even when the flow field is disturbed. Since the element cannot be peeled off, the differential pressure of the element rises rapidly, and in the worst case, the amount of cooling water required in the cooling system may not be obtained in a short time.

  In view of the above, an object of the present invention is to provide a seawater foreign matter removing apparatus that can remove foreign matter adhering to an element even when a large amount of foreign matter having a low specific gravity flows.

The seawater foreign matter removing apparatus according to the first invention for solving the above-mentioned problems is
A cylindrical container;
Inside the container, a partition wall having an opening formed at the center for partitioning the upper space and the lower space of the container;
In the upper space inside the container, a cylindrical element in which a plurality of holes are formed,
On the upper side surface of the container, an inlet pipe for introducing seawater or washing water into the upper space inside the container;
In the inlet pipe, an inlet valve for adjusting the amount of seawater or washing water introduced into the container;
On the upstream side of the inlet valve of the inlet pipe, a pump for feeding seawater or washing water into the container;
On the lower side surface of the container, an outlet pipe for extracting permeated water from the space below the container;
In the outlet pipe, an outlet valve for adjusting the amount of permeated water derived from the inside of the container,
In the upper part of the side surface of the container in the vicinity of the partition wall, a blow pipe for discharging foreign matter from the upper space,
The blow pipe includes a blow valve for adjusting a flow rate of the blow pipe;
At the bottom of the container, a drain pipe for draining seawater or washing water inside the container,
The drain pipe includes a drain valve that adjusts a flow rate of the drain pipe;
A backwash pump connected to the outlet pipe or the drain pipe to feed seawater or wash water as backwash water into the container;
In the upper part of the container, a gas vent pipe for discharging the air accumulated in the container,
The degassing pipe includes a degassing valve that adjusts the flow rate of the degassing pipe;
Foreign matter removal in seawater, comprising: a control device that controls stop and operation of the pump and the backwash pump, and opening degrees of the inlet valve, the outlet valve, the blow valve, and the gas vent valve apparatus.

The foreign matter removing apparatus for seawater according to the second invention for solving the above problems is
A cylindrical container, and a partition having an opening formed in a central portion that divides the upper space and the lower space of the container,
In the upper space inside the container, a cylindrical element in which a plurality of holes are formed,
On the upper side surface of the container, an inlet pipe for introducing seawater or washing water into the upper space inside the container;
In the inlet pipe, an inlet valve for adjusting the amount of seawater or washing water introduced into the container;
On the upstream side of the inlet valve of the inlet pipe, a pump for feeding seawater or washing water into the container;
On the lower side surface of the container, an outlet pipe for extracting permeated water from the space below the container;
In the outlet pipe, an outlet valve for adjusting the amount of permeated water derived from the inside of the container,
In the upper part of the side surface of the container in the vicinity of the partition wall, a blow pipe for discharging foreign matter from the upper space,
The blow pipe includes a blow valve for adjusting a flow rate of the blow pipe;
At the bottom of the container, a drain pipe for draining seawater or washing water inside the container,
The drain pipe includes a drain valve that adjusts a flow rate of the drain pipe;
In the upper part of the container, a gas vent pipe for discharging the air accumulated in the container,
The degassing pipe includes a degassing valve that adjusts the flow rate of the degassing pipe;
A bypass pipe for connecting the pump and the outlet pipe or the drain pipe, and sending seawater or washing water as backwash water into the container;
The bypass pipe includes a bypass valve that adjusts the flow rate of the bypass pipe;
An apparatus for removing foreign matter in seawater, comprising: a stop and operation of the pump; and a control device for controlling the opening of the inlet valve, the outlet valve, the blow valve, the degassing valve, and the bypass valve.

The foreign matter removing apparatus for seawater according to the third invention for solving the above problems is the foreign matter removing apparatus for seawater according to the first and second inventions,
Compressed air supply means connected to the degassing pipe to supply compressed air to the inside of the element is provided.

The foreign matter removing apparatus for seawater according to the fourth invention for solving the above problems is the foreign matter removing apparatus for seawater according to the first and second inventions,
An air supply means connected to the outlet pipe or the drain pipe and supplying air to the backwash water to form gas-liquid two-phase water is provided.

The foreign matter removing apparatus for seawater according to a fifth aspect of the present invention for solving the above problem is the seawater foreign matter removing apparatus according to any one of the first to fourth aspects of the invention.
After the backwashing is completed, the outlet valve is closed by the control device, and then the pump is operated by the control device to introduce wash water from the inlet pipe and perform forward washing.

The foreign matter removing apparatus for seawater according to the sixth invention for solving the above-mentioned problems is the foreign matter removing apparatus for seawater according to any one of the first to fifth inventions,
A backwashing blow pipe that is used exclusively for backwashing is installed in the container.

A seawater foreign matter removing apparatus according to a seventh aspect of the present invention for solving the above problems is as follows.
A cylindrical container, and a partition having an opening formed in a central portion that divides the upper space and the lower space of the container,
In the upper space inside the container, a cylindrical element in which a plurality of holes are formed,
On the upper side surface of the container, an inlet pipe for introducing seawater or washing water into the upper space inside the container;
In the inlet pipe, an inlet valve for adjusting the amount of seawater or washing water introduced into the container;
On the upstream side of the inlet valve of the inlet pipe, a pump for feeding seawater or washing water into the container;
On the lower side surface of the container, an outlet pipe for extracting permeated water from the space below the container;
In the outlet pipe, an outlet valve for adjusting the amount of permeated water derived from the inside of the container,
In the upper part of the side surface of the container in the vicinity of the partition wall, a blow pipe for discharging foreign matter from the upper space,
The blow pipe includes a blow valve for adjusting a flow rate of the blow pipe;
At the bottom of the container, a drain pipe for draining seawater or washing water inside the container,
The drain pipe includes a drain valve that adjusts a flow rate of the drain pipe;
In the upper part of the container, a gas vent pipe for discharging the air accumulated in the container,
The degassing pipe includes a degassing valve that adjusts the flow rate of the degassing pipe;
A first seawater foreign matter removing apparatus comprising:
A cylindrical container, and a partition having an opening formed in a central portion that divides the upper space and the lower space of the container,
In the upper space inside the container, a cylindrical element in which a plurality of holes are formed,
On the upper side surface of the container, an inlet pipe for introducing seawater or washing water into the upper space inside the container;
In the inlet pipe, an inlet valve for adjusting the amount of seawater or washing water introduced into the container;
On the upstream side of the inlet valve of the inlet pipe, a pump for feeding seawater or washing water into the container;
On the lower side surface of the container, an outlet pipe for extracting permeated water from the space below the container;
In the outlet pipe, an outlet valve for adjusting the amount of permeated water derived from the inside of the container,
In the upper part of the side surface of the container in the vicinity of the partition wall, a blow pipe for discharging foreign matter from the upper space,
The blow pipe includes a blow valve for adjusting a flow rate of the blow pipe;
At the bottom of the container, a drain pipe for draining seawater or washing water inside the container,
The drain pipe includes a drain valve that adjusts a flow rate of the drain pipe;
In the upper part of the container, a gas vent pipe for discharging the air accumulated in the container,
The degassing pipe includes a degassing valve that adjusts the flow rate of the degassing pipe;
A second seawater foreign matter removing device comprising:
A backwash pipe for backwashing that connects the outlet pipe of the first seawater foreign matter removing apparatus and the outlet pipe of the second seawater foreign matter removing apparatus;
The backwash pipe includes a backwash valve that adjusts the flow rate of the backwash pipe;
Stop and operation of the pump in the first seawater foreign matter removing device and the second seawater foreign matter removing device, the inlet valve, the outlet valve, the blow valve, the gas vent valve, and the backwash pipe valve An apparatus for removing foreign matter in seawater, characterized by a control device for controlling the opening degree.

A seawater foreign matter removing apparatus according to an eighth aspect of the present invention for solving the above problems is the seawater foreign matter removing apparatus according to the seventh aspect of the invention,
The controller is
During backwashing of the second seawater foreign matter removing device, repeatedly opening and closing the outlet valve of the first seawater foreign matter removing device,
The back valve of the second seawater foreign matter removing device is repeatedly opened and closed during backwashing of the first seawater foreign matter removing device.

  ADVANTAGE OF THE INVENTION According to this invention, even if it is a case where a foreign material with low specific gravity flows in in large quantities, the foreign material removal apparatus in seawater which can remove the foreign material adhering to an element can be provided.

It is the schematic diagram which showed the structure of the foreign material removal apparatus in seawater which concerns on the 1st Example of this invention. It is the schematic diagram which showed the structure of the foreign material removal apparatus in seawater which concerns on the 2nd Example of this invention. It is the schematic diagram which showed the structure of the foreign material removal apparatus in seawater which concerns on the 3rd Example of this invention. It is the schematic diagram which showed the structure of the foreign material removal apparatus in seawater which concerns on the 4th Example of this invention. It is the schematic diagram which showed the structure of the foreign material removal apparatus in seawater which concerns on the 6th Example of this invention. It is the schematic diagram which showed the structure of the foreign material removal apparatus in seawater which concerns on the 7th Example of this invention. It is the schematic diagram which showed a mode that the foreign material which entered into the element was removed in the foreign material removal apparatus in seawater which concerns on this invention.

  Hereinafter, an embodiment for carrying out a seawater foreign matter removing apparatus according to the present invention will be described with reference to the drawings.

Hereinafter, a first embodiment of the apparatus for removing foreign matter in seawater according to the present invention will be described.
First, the configuration of the seawater foreign matter removing apparatus according to the present embodiment will be described.
FIG. 1 is a schematic diagram illustrating a configuration of a seawater foreign matter removing apparatus according to the present embodiment. 1A is a side view and FIG. 1B is a plan view.

  As shown in FIG. 1, the foreign matter removing apparatus for seawater according to the present embodiment includes a container 1 (hereinafter referred to as a strainer container 1) whose outer shell is cylindrical. Inside the strainer container 1, a partition wall 2 that partitions an upper space and a lower space inside the strainer container 1 is installed. The partition wall 2 has an opening 2a at the center.

  In the upper space inside the strainer container 1, a cylindrical element 3 for catching foreign matter is installed. The upper end of the element 3 is connected to the strainer container 1, and the lower part is connected to the partition wall 2. A plurality of holes are formed in the element 3. In this embodiment, the hole diameter is about 3 mm.

  Connected to the upper side surface of the strainer container 1 is a pipe 4 (hereinafter referred to as an inlet pipe 4) for introducing seawater or washing water into the upper space inside the strainer container 1. The inlet pipe 4 is connected to the strainer container 1 from the tangential direction when viewed from above the strainer container 1. For this reason, the seawater or the wash water introduced into the strainer container 1 forms a flow swirling around the element 3 as indicated by an arrow T in FIG.

  The inlet pipe 4 is provided with a valve 10 (hereinafter referred to as an inlet valve 10) that adjusts the amount of seawater or washing water introduced into the strainer container 1. A pump 11 for feeding seawater or washing water into the strainer container 1 is installed on the upstream side of the inlet valve 10 of the inlet pipe 4.

  A pipe 5 (hereinafter referred to as an outlet pipe 5) that leads permeate from a space below the strainer container 1 is connected to the lower side surface of the strainer container 1. The outlet pipe 5 is provided with a valve 12 (hereinafter referred to as an outlet valve 12) that adjusts the amount of permeated water led out from the inside of the strainer container 1.

  A blow pipe 6 for discharging foreign matter from the upper space is connected to the upper part of the side surface of the strainer container 1 near the partition wall 2. The blow tube 6 is connected to the strainer container 1 from the tangential direction as viewed from above the strainer container 1. The blow pipe 6 is provided with a valve 13 for adjusting the flow rate of the blow pipe 6 (hereinafter referred to as blow valve 13).

  A drain pipe 7 for draining seawater or washing water inside the strainer container 1 is connected to the bottom of the strainer container 1. The drain pipe 7 is provided with a valve 14 (hereinafter referred to as a drain valve 14) for adjusting the flow rate of the drain pipe 7.

  In addition, a pump 20 that supplies seawater or washing water to the inside of the strainer container 1 is installed on the downstream side of the drain valve 14 of the drain pipe 7. In this embodiment, the pump 20 is installed in the drain pipe 7, but it may be installed in the outlet pipe 5.

  A gas vent pipe 8 for discharging air accumulated in the strainer container 1 is connected to the upper portion of the strainer container 1. The gas vent pipe 8 is provided with a valve 15 (hereinafter referred to as a gas vent valve 15) for adjusting the flow rate of the gas vent pipe 8.

The seawater foreign matter removing apparatus according to this embodiment controls the stop and operation of the pump 11 and the opening degree of the inlet valve 10, the outlet valve 12, the blow valve 13, the drain 14 valve, the gas vent valve 15, and the pump 20. The control device 9 is provided.
The above is the apparatus configuration of the foreign matter removing apparatus for seawater according to the present embodiment.

Next, the operation of the seawater foreign matter removing apparatus according to the present embodiment will be described.
In the seawater foreign matter removing apparatus according to the present embodiment, when the differential pressure rises (for example, +0.02 MPa or more from the normal time), the backwash mode is entered by the following procedure to remove the foreign matter blocking the element 3. .

First, the control device 9 controls the pump 11 to stop the pump 11.
Next, the control device 9 controls the inlet valve 10 and the outlet valve 12 to close the inlet valve 10 and the outlet valve 12.

Next, the drain valve 14 is controlled by the control device 9 and the drain valve 14 is opened. Then, the pump 20 is controlled by the control device 9 and the pump 20 is operated so that seawater or washing water is used as reverse washing water. Water is fed to the inside of 3. The foreign matter adhering to the element 3 is removed by the reverse cleaning water, and the removed foreign matter is discharged from the blow tube 6.
And after a differential pressure | voltage falls, it returns to normal driving | operation in reverse order.

The flow rate of the backwash water is governed by the pipe flow velocity of the blow pipe 6 and there is a limit to increasing the flow rate, but it should be increased as much as possible. In this embodiment, 50 to 220 m ³ / h. In the present embodiment, the time during which the outlet valve 12 is closed is set to a time that does not cause the cooling water required in the upstream cooling system to be insufficient.

  Therefore, according to the seawater foreign matter removing apparatus according to the present embodiment, the foreign matter adhering in the state of entering the hole of the element 3 as shown in FIG. 7A is back-washed as shown in FIG. Can be removed with water. As described above, the foreign matter removing apparatus for seawater according to the present embodiment has a high cleaning effect on the foreign matter attached in the state of entering the hole of the element 3.

  In addition, according to the seawater foreign matter removing apparatus according to the present embodiment, the adhesion rate of foreign matter after the element 3 is washed (the ratio of the adhered matter to the entire element 3) is 20 to 30% (before the element 3 is washed). Could be reduced to 90%).

The second embodiment of the seawater foreign matter removing apparatus according to the present invention will be described below.
First, the configuration of the seawater foreign matter removing apparatus according to the present embodiment will be described.
FIG. 2 is a schematic diagram illustrating the configuration of the seawater foreign matter removing apparatus according to the present embodiment. 2A is a side view and FIG. 2B is a plan view.

  As shown in FIG. 2, the configuration of the seawater foreign matter removing apparatus according to the present embodiment is substantially the same as that of the seawater foreign matter removing apparatus according to the first embodiment, but the pump 20 in the first embodiment is used instead. The pump 11 and the drain pipe 7 are connected by a bypass pipe 21, and a bypass valve 22 is installed on the bypass pipe 21.

In the present embodiment, the bypass pipe 21 is connected to the drain pipe 7, but it may be connected to the outlet pipe 5. Moreover, the control apparatus 9 in the seawater foreign material removal apparatus which concerns on a present Example is comprised so that the opening and closing of the bypass valve 22 can also be controlled.
The above is the apparatus configuration of the foreign matter removing apparatus for seawater according to the present embodiment.

Next, the operation of the seawater foreign matter removing apparatus according to the present embodiment will be described.
In the seawater foreign matter removing apparatus according to the present embodiment, when the differential pressure rises (for example, +0.02 MPa or more from the normal time), the backwash mode is entered by the following procedure to remove the foreign matter blocking the element 3. .

First, the control device 9 controls the inlet valve 10, the outlet valve and the bypass valve 22 to close the inlet valve 10 and the outlet valve 12 and open the bypass valve 22.
Next, after the bypass valve 22 is controlled by the control device 9 and the bypass valve 22 is opened, the pump 11 is controlled by the control device 9, and the inside of the element 3 with seawater or washing water as the reverse washing water by the pump 11. Water. The foreign matter adhering to the element 3 is removed by the reverse cleaning water, and the removed foreign matter is discharged from the blow tube 6.
And after a differential pressure | voltage falls, it returns to normal driving | operation in reverse order.

The flow rate of the backwash water is governed by the pipe flow velocity of the blow pipe 6 and there is a limit to increasing the flow rate, but it should be increased as much as possible. In this embodiment, 50 to 220 m ³ / h. In the present embodiment, the time during which the outlet valve 12 is closed is set to a time that does not cause the cooling water required in the upstream cooling system to be insufficient.

  Therefore, according to the seawater foreign matter removing apparatus according to the present embodiment, the foreign matter adhering in the state of entering the hole of the element 3 as shown in FIG. 7A is back-washed as shown in FIG. Can be removed with water. As described above, the foreign matter removing apparatus for seawater according to the present embodiment has a high cleaning effect on the foreign matter attached in the state of entering the hole of the element 3.

  Moreover, according to the seawater foreign material removal apparatus which concerns on a present Example, only the bypass pipe 21 and the bypass valve 22 are installed, without installing the pump 20 like the seawater foreign material removal apparatus which concerns on a 1st Example. Therefore, since it can wash | clean with back washing | cleaning water, cost can be suppressed.

  In addition, according to the seawater foreign matter removing apparatus according to the present embodiment, the adhesion rate of foreign matter after the element 3 is washed (the ratio of the adhered matter to the entire element 3) is 20 to 30% (before the element 3 is washed). Could be reduced to 90%).

The third embodiment of the seawater foreign matter removing apparatus according to the present invention will be described below.
First, the configuration of the seawater foreign matter removing apparatus according to the present embodiment will be described.
FIG. 3 is a schematic diagram showing the configuration of the seawater foreign matter removing apparatus according to the present embodiment.

  As shown in FIG. 3, the configuration of the seawater foreign matter removing device according to the present embodiment is substantially the same as that of the seawater foreign matter removing device according to the first embodiment, but a blower that blows compressed air into the gas vent pipe 8. 23 was installed. In this embodiment, the configuration in which the blower 23 is installed in the gas vent pipe 8 in the seawater foreign matter removing apparatus according to the first embodiment will be described as an example, but the seawater foreign matter removing according to the second embodiment is described. Similarly, the apparatus may be configured such that the blower 23 is installed in the gas vent pipe 8.

In the present embodiment, the blower 23 is installed as the compressed air supply means, but a compressor may be installed. Moreover, the control apparatus 9 in the seawater foreign material removal apparatus which concerns on a present Example is comprised so that the stop and operation | movement of the blower 23 can also be controlled.
The above is the apparatus configuration of the foreign matter removing apparatus for seawater according to the present embodiment.

Next, the operation of the seawater foreign matter removing apparatus according to the present embodiment will be described.
In the seawater foreign matter removing apparatus according to the present embodiment, when the differential pressure increases (for example, +0.02 MPa or more from the normal time), the foreign matter blocking the element 3 is removed by the following procedure.

First, the control device 9 controls the pump 11 to stop the pump 11 and stop the introduction of seawater from the inlet pipe 4.
Next, after waiting for the water level to drop until the element 3 is exposed from the water, the control valve 9 controls the outlet valve 12 to close the outlet valve 12.

  Next, the control device 9 controls the gas vent valve 15 to open the gas vent valve 15, and then the control device 9 controls the blower 23 to operate the blower 23 so that the element 3 is removed from the gas vent pipe 5. Compressed air is injected into the inside, and the foreign matter adhering to the element 3 is blown away. The higher the pressure of compressed air, the higher the effect of removing foreign matter. However, considering the strength and pressure resistance of the strainer container 1, the capacity of the blower 23, etc., the pressure of compressed air is about 0.2 to 0.5 MPa. Is desirable.

  Next, the backwash mode in the seawater foreign matter removing apparatus according to the first and second embodiments is entered, and the foreign matter blown off by the backwash water is discharged from the blow tube 6.

  Therefore, according to the seawater foreign matter removing apparatus according to the present embodiment, the foreign matter adhering in the state of entering the hole of the element 3 as shown in FIG. 7 (a) is changed to the element 3 as shown in FIG. 7 (b). It can be removed by applying a forced peeling force by the pressure of compressed air from the inside. As described above, the seawater foreign matter removing device according to the present embodiment more efficiently removes the foreign matter attached in the state of entering the hole of the element 3 than the seawater foreign matter removing device according to the first to fourth embodiments. Can be removed.

Hereinafter, a fourth embodiment of the seawater foreign matter removing apparatus according to the present invention will be described.
First, the configuration of the seawater foreign matter removing apparatus according to the present embodiment will be described.
FIG. 4 is a schematic diagram illustrating a configuration of the seawater foreign matter removing apparatus according to the present embodiment.

  As shown in FIG. 4, the configuration of the seawater foreign matter removing apparatus according to the present embodiment is substantially the same as that of the seawater foreign matter removing apparatus according to the first embodiment, but a blower 24 that blows air into the drain pipe 7 is provided. installed. In this embodiment, the configuration in which the blower 24 is installed in the drain pipe 7 in the seawater foreign matter removing apparatus according to the first embodiment will be described as an example, but the seawater foreign matter according to the second and third embodiments is described. Similarly, the removing device can be configured such that the blower 24 is installed in the drain pipe 7.

In the present embodiment, the blower 24 is installed as the air supply means, but a compressor may be installed. Moreover, the control apparatus 9 in the seawater foreign material removal apparatus which concerns on a present Example is comprised so that the stop and operation | movement of the blower 24 can also be controlled.
The above is the apparatus configuration of the foreign matter removing apparatus for seawater according to the present embodiment.

Next, the operation of the seawater foreign matter removing apparatus according to the present embodiment will be described.
In the seawater foreign matter removing apparatus according to the present embodiment, when the differential pressure rises (for example, +0.02 MPa or more from the normal time), the backwash mode is entered by the following procedure to remove the foreign matter blocking the element 3. .

First, the control device 9 controls the pump 11 to stop the pump 11 and stop the introduction of seawater from the inlet pipe 4.
Next, the control valve 9 controls the inlet valve 10 to close the inlet valve 10 and feed water from the drain pipe 7 to the inside of the element 3 as backwash water. The flow rate of the backwash water is governed by the flow velocity of the blow pipe 6 and there is a limit to increasing the flow rate. However, in this embodiment, the flow rate is increased to 55 to 220 m ³ / h.

  Next, simultaneously with the feeding of the backwash water, the control device 9 controls the blower 24 to operate the blower 24 and blow air from the drain pipe 7 to generate gas-liquid two-phase water of air and water. Foreign matter is removed by gas-liquid two-phase water of air and water. The air flow rate is preferably 10 to 100% of the amount of backwash water. The foreign matter adhering to the element 3 is removed by the reverse cleaning water, and the removed foreign matter is discharged from the blow tube 6.

Next, after the drain valve 14 is controlled by the control device 9 and the drain valve 14 is closed, the pump 11 is controlled by the control device 9 to operate the pump 11 and the cleaning water is introduced from the inlet pipe 4. The washing water swirls around the element 3 and is discharged from the blow pipe 6, but at that time, the blown-off foreign matter is discharged together. In this example, the amount of washing water was 140 to 220 m ³ / h.

  Therefore, according to the apparatus for removing foreign matter in seawater according to the present embodiment, forcible peeling force can be applied and removed by impact from gas-liquid two-phase water from the inside of the element 3. As described above, the foreign matter removing apparatus for seawater according to the present embodiment has a high cleaning effect on the foreign matter attached in the state of entering the hole of the element 3.

  In addition, according to the seawater foreign matter removing apparatus according to the present embodiment, the adhesion rate of foreign matter after the element 3 is washed (the ratio of the adhered matter to the entire element 3) is 20 to 30% (before the element 3 is washed). Could be reduced to 90%).

Hereinafter, a fifth embodiment of the seawater foreign matter removing apparatus according to the present invention will be described.
In addition, since the structure of the seawater foreign material removal apparatus which concerns on a present Example is the same as that of the seawater foreign material removal apparatus which concerns on the 1st-4th Example, description here is abbreviate | omitted.

The operation of the seawater foreign matter removing apparatus according to the present embodiment will be described.
In the seawater foreign matter removing apparatus according to the present embodiment, when the differential pressure rises (for example, +0.02 MPa or more from the normal time), the backwash mode is entered by the following procedure to remove the foreign matter blocking the element 3. .

  First, the backwash mode in the seawater foreign matter removing apparatus according to the first to fourth embodiments is entered, and the foreign matter blown off by the backwash water is discharged from the blow tube 6. In the present embodiment, the time during which the outlet valve 12 is closed is set to a time that does not cause the cooling water required in the upstream cooling system to be insufficient.

Next, after the backwashing is completed, the outlet valve 12 is controlled by the control device 9, the outlet valve 12 is closed, the pump 11 is controlled by the control device 9, and the pump 11 is operated to wash from the inlet pipe 4. Introduce water and wash. The flow rate of the washing water is governed by the pipe flow velocity of the blow pipe 6 and there is a limit to increasing the flow rate, but it should be increased as much as possible. In this embodiment, 50 to 220 m ³ / h It was. Thereby, the adhering matter which has adhered to the element 3 and is about to be peeled off can be removed by a swirling flow (that is, a force acting in a direction different from the backwashing).

  Therefore, according to the seawater foreign matter removing apparatus according to the present embodiment, compared with the seawater foreign matter removing apparatus according to the first to fourth embodiments, it is attached to the element 3 by performing both back washing and forward washing. Since the force can be applied to the foreign matter from two different directions, the foreign matter can be removed more efficiently.

The sixth embodiment of the seawater foreign matter removing apparatus according to the present invention will be described below.
First, the configuration of the seawater foreign matter removing apparatus according to the present embodiment will be described.
FIG. 5 is a schematic diagram showing the configuration of the seawater foreign matter removing apparatus according to the present embodiment.

  As shown in FIG. 5, the configuration of the seawater foreign matter removing apparatus according to the present embodiment is substantially the same as that of the seawater foreign matter removing apparatus according to the first embodiment, but the backwash is used exclusively for backwashing. A blow-off pipe 25 was installed in the upper part of the strainer container 1, and a back-washing blow valve 26 that can open and close the back-washing blow pipe 25 was installed in the back-washing blow pipe 25.

  Moreover, the control apparatus 9 in the seawater foreign material removal apparatus which concerns on a present Example is comprised so that the opening / closing of the backwash blow valve 26 can also be controlled. In this embodiment, as an example, the configuration for installing the backwash blow pipe 25 in the seawater foreign matter removing apparatus according to the first embodiment will be described, but the seawater foreign matter according to the second to fifth embodiments. In the removal apparatus, the backwashing blow pipe 25 can be similarly installed.

  The blow pipe 6 is installed in the upper part of the strainer container 1 in the vicinity of the partition wall 2 so that foreign matter that has settled during normal operation is easily discharged. For this reason, at the time of backwashing, backwashing water flows upward from below inside the strainer container 1, so that the backwashing water does not pass through the entire element 3 at the position where the blow pipe 6 is installed. Since it is discharged from the blow pipe 6, it is difficult to reach the entire element.

  Therefore, the backwash blow pipe 25 is installed on the upper part of the strainer container 1, and the backwash blow valve 26 is set by the control device 9 during the backwashing described in the seawater foreign matter removing apparatus according to the first to fifth embodiments. The backwash blow valve 26 was opened and the backwash water was discharged from the backwash blow pipe 25. During backwashing, the blow valve 6 of the blow pipe 6 is closed.

  Moreover, since the backwashing water can be prevented from being short-cut as the backwashing blow pipe 25 is installed at the upper part of the strainer container 1, the cleaning effect of the element 3 can be enhanced. If the cleaning effect may be sacrificed to some extent, it may be installed anywhere as long as it is above the blow pipe 6.

  In the present embodiment, the configuration of installing the backwash blow pipe 25 in the seawater foreign matter removing apparatus according to the first embodiment will be described as an example, but the seawater foreign matter removing apparatus according to the second embodiment. In the same manner, the backwashing blow pipe 25 may be installed.

  Therefore, according to the apparatus for removing foreign matter in seawater according to the present embodiment, the backwash water 26 can be passed through the entire element 3 by installing the backwash blow pipe 26 on the upper part of the strainer container 1. Therefore, the cleaning effect by backwashing water can be further enhanced.

The seventh embodiment of the seawater foreign matter removing apparatus according to the present invention will be described below.
First, the configuration of the seawater foreign matter removing apparatus according to the present embodiment will be described.
FIG. 6 is a schematic diagram illustrating a configuration of the seawater foreign matter removing apparatus according to the present embodiment.

  As shown in FIG. 6, the configuration of the seawater foreign matter removing apparatus according to the present embodiment is provided with two seawater foreign matter removing apparatuses according to the first embodiment, and the outlet of the first seawater foreign matter removing apparatus 30. A backwash pipe 32 for backwashing was connected between the pipe 5 and the outlet pipe 5 of the second seawater foreign matter removing device 31, and a backwash valve 33 was installed on the backwash pipe 32.

  Moreover, the control apparatus 9 in the seawater foreign material removal apparatus which concerns on a present Example is comprised so that both the 1st seawater foreign material removal apparatus 30 and the 2nd seawater foreign material removal apparatus 31 can be controlled. Yes. In this embodiment, as an example, a case where two seawater foreign matter removing devices according to the first embodiment are installed will be described as an example. However, the seawater foreign matter removing device according to the second to sixth embodiments will be described. It can also be set as the structure which installs two sets.

  In the seawater foreign matter removing apparatus according to the present embodiment, for example, the first backwash mode is entered when the differential pressure of the second seawater foreign matter removing apparatus 31 increases (for example, +0.02 MPa or more from the normal time). The control device 9 controls the outlet valve 12 of the first seawater foreign matter removing device 30, the inlet valve 10 and the outlet valve 12 of the second seawater foreign matter removing device 31, and the backwash valve 33 to control the first seawater. The outlet valve 12 of the foreign matter removing device 30 is partially closed, the inlet valve 10 and the outlet valve 12 of the second seawater foreign matter removing device 31 are closed, and the backwash valve 33 is opened to remove the second foreign matter in seawater. Permeated water is introduced as backwash water from the outlet pipe 5 of the device 31 to remove the foreign matter blocking the element 3 of the second seawater foreign matter removing device 31. The removed foreign matter is discharged from the blow pipe 6 of the second seawater foreign matter removing device 31.

  Conversely, when the differential pressure of the first seawater foreign matter removing device 30 increases (for example, +0.02 MPa or more from the normal time), the second backwash mode is entered, and the control device 9 causes the second seawater to enter the second seawater. By controlling the outlet valve 12 of the foreign matter removing device 31, the inlet valve 10 and the outlet valve 12 of the first seawater foreign matter removing device 30, and the backwash valve 33, the outlet valve 12 of the second foreign matter removing device 31 is controlled. Partially closed, the inlet valve 10 and the outlet valve 12 of the first seawater foreign matter removing device 30 are closed, the backwash valve 33 is opened, and the permeated water is discharged from the outlet pipe 5 of the first seawater foreign matter removing device 30. It introduce | transduces as reverse washing water, The foreign material which obstruct | occluded the element 3 of the 1st seawater foreign material removal apparatus 30 is removed. The removed foreign matter is discharged from the blow pipe 6 of the first seawater foreign matter removing device 30.

  Therefore, according to the seawater foreign matter removing apparatus according to the present embodiment, the foreign matter adhering in the state of entering the hole of the element 3 as shown in FIG. 7A is back-washed as shown in FIG. Can be removed with water. As described above, the foreign matter removing apparatus for seawater according to the present embodiment has a high cleaning effect on the foreign matter attached in the state of entering the hole of the element 3.

  For example, when the differential pressure of the second seawater foreign matter removing device 31 is increased, the first seawater foreign matter removing device 30 supplies cooling water to the downstream cooling system while simultaneously removing the first seawater foreign matter. Since the backwash water can be supplied to the second seawater foreign matter removing device 31 by the device 30, the seawater foreign matter removing equipment can be operated continuously.

Hereinafter, an eighth embodiment of the seawater foreign matter removing apparatus according to the present invention will be described.
The configuration of the seawater foreign matter removing device according to the present embodiment is the same as that of the seawater foreign matter removing device according to the seventh embodiment, but the outlet valve of the first seawater foreign matter removing device 30 in the first backwash mode. 12 is automatically opened and closed using a timer or the like, and in the second backwash mode, the outlet valve 12 of the second seawater foreign matter removing device 31 is automatically opened and closed repeatedly by a timer or the like, so that the amount of backwash water is increased. Is temporarily increased.

  Therefore, according to the apparatus for removing foreign matter in seawater according to the present embodiment, it can be removed by applying a forced peeling force by an impact from the inside of the element 3. Thus, the seawater foreign matter removing apparatus according to the present embodiment can further enhance the cleaning effect on the foreign matter adhered in the state of entering the hole of the element 3.

  INDUSTRIAL APPLICABILITY The present invention can be used, for example, in a seawater foreign matter removing apparatus that removes foreign matter from seawater taken from sea used as cooling water used in a cooling system such as a power plant.

DESCRIPTION OF SYMBOLS 1 Strainer container 2 Bulkhead 2a Opening part 3 Element 4 Inlet pipe 5 Outlet pipe 6 Blow pipe 7 Drain pipe 8 Degassing pipe 9 Control apparatus 10 Inlet valve 11 Pump 12 Outlet valve 13 Blow valve 14 Drain valve 15 Degassing valve 20 Pump 21 Bypass pipe 22 Bypass valve 23 Blower 24 Blower 25 Backwash blow pipe 26 Backwash blow valve 30 First seawater foreign matter removing device 31 Second seawater foreign matter removing device 32 Backwash pipe 33 Backwash valve 40 Foreign matter

Claims (8)

A cylindrical container;
Inside the container, a partition wall having an opening formed at the center for partitioning the upper space and the lower space of the container;
In the upper space inside the container, a cylindrical element in which a plurality of holes are formed,
On the upper side surface of the container, an inlet pipe for introducing seawater or washing water into the upper space inside the container;
In the inlet pipe, an inlet valve for adjusting the amount of seawater or washing water introduced into the container;
On the upstream side of the inlet valve of the inlet pipe, a pump for feeding seawater or washing water into the container;
On the lower side surface of the container, an outlet pipe for extracting permeated water from the space below the container;
In the outlet pipe, an outlet valve for adjusting the amount of permeated water derived from the inside of the container,
In the upper part of the side surface of the container in the vicinity of the partition wall, a blow pipe for discharging foreign matter from the upper space,
The blow pipe includes a blow valve for adjusting a flow rate of the blow pipe;
At the bottom of the container, a drain pipe for draining seawater or washing water inside the container,
The drain pipe includes a drain valve that adjusts a flow rate of the drain pipe;
A backwash pump connected to the outlet pipe or the drain pipe to feed seawater or wash water as backwash water into the container;
In the upper part of the container, a gas vent pipe for discharging the air accumulated in the container,
The degassing pipe includes a degassing valve that adjusts the flow rate of the degassing pipe;
Foreign matter removal in seawater, comprising: a control device that controls stop and operation of the pump and the backwash pump, and opening degrees of the inlet valve, the outlet valve, the blow valve, and the gas vent valve apparatus. A cylindrical container, and a partition having an opening formed in a central portion that divides the upper space and the lower space of the container,
In the upper space inside the container, a cylindrical element in which a plurality of holes are formed,
On the upper side surface of the container, an inlet pipe for introducing seawater or washing water into the upper space inside the container;
In the inlet pipe, an inlet valve for adjusting the amount of seawater or washing water introduced into the container;
On the upstream side of the inlet valve of the inlet pipe, a pump for feeding seawater or washing water into the container;
On the lower side surface of the container, an outlet pipe for extracting permeated water from the space below the container;
In the outlet pipe, an outlet valve for adjusting the amount of permeated water derived from the inside of the container,
In the upper part of the side surface of the container in the vicinity of the partition wall, a blow pipe for discharging foreign matter from the upper space,
The blow pipe includes a blow valve for adjusting a flow rate of the blow pipe;
At the bottom of the container, a drain pipe for draining seawater or washing water inside the container,
The drain pipe includes a drain valve that adjusts a flow rate of the drain pipe;
In the upper part of the container, a gas vent pipe for discharging the air accumulated in the container,
The degassing pipe includes a degassing valve that adjusts the flow rate of the degassing pipe;
A bypass pipe that connects the pump and the outlet pipe or the drain pipe, and feeds seawater or washing water as backwash water into the container;
The bypass pipe includes a bypass valve that adjusts the flow rate of the bypass pipe;
An apparatus for removing foreign matter in seawater, comprising: a stop and operation of the pump; and a control device that controls the opening of the inlet valve, the outlet valve, the blow valve, the gas vent valve, and the bypass valve. The seawater foreign matter removing apparatus according to claim 1, further comprising compressed air supply means connected to the gas vent pipe and configured to supply compressed air to the inside of the element. 3. Foreign matter removal in seawater according to claim 1 or 2, further comprising air supply means connected to the outlet pipe or the drain pipe to supply air to the backwash water to form gas-liquid two-phase water. apparatus. After the backwashing is completed, after the outlet valve is closed by the control device, the pump is operated by the control device, and washing water is introduced from the inlet pipe to perform forward washing. The seawater foreign matter removing apparatus according to claim 4. The apparatus for removing foreign matter in seawater according to any one of claims 1 to 5, wherein a backwashing blow pipe used exclusively for backwashing is installed in the container. A cylindrical container, and a partition having an opening formed in a central portion that divides the upper space and the lower space of the container,
In the upper space inside the container, a cylindrical element in which a plurality of holes are formed,
On the upper side surface of the container, an inlet pipe for introducing seawater or washing water into the upper space inside the container;
In the inlet pipe, an inlet valve for adjusting the amount of seawater or washing water introduced into the container;
On the upstream side of the inlet valve of the inlet pipe, a pump for feeding seawater or washing water into the container;
On the lower side surface of the container, an outlet pipe for extracting permeated water from the space below the container;
In the outlet pipe, an outlet valve for adjusting the amount of permeated water derived from the inside of the container,
In the upper part of the side surface of the container in the vicinity of the partition wall, a blow pipe for discharging foreign matter from the upper space,
The blow pipe includes a blow valve for adjusting a flow rate of the blow pipe;
At the bottom of the container, a drain pipe for draining seawater or washing water inside the container,
The drain pipe includes a drain valve that adjusts a flow rate of the drain pipe;
In the upper part of the container, a gas vent pipe for discharging the air accumulated in the container,
The degassing pipe includes a degassing valve that adjusts the flow rate of the degassing pipe;
A first seawater foreign matter removing apparatus comprising:
A cylindrical container, and a partition having an opening formed in a central portion that divides the upper space and the lower space of the container,
In the upper space inside the container, a cylindrical element in which a plurality of holes are formed,
On the upper side surface of the container, an inlet pipe for introducing seawater or washing water into the upper space inside the container;
In the inlet pipe, an inlet valve for adjusting the amount of seawater or washing water introduced into the container;
On the upstream side of the inlet valve of the inlet pipe, a pump for feeding seawater or washing water into the container;
On the lower side surface of the container, an outlet pipe for extracting permeated water from the space below the container;
In the outlet pipe, an outlet valve for adjusting the amount of permeated water derived from the inside of the container,
In the upper part of the side surface of the container in the vicinity of the partition wall, a blow pipe for discharging foreign matter from the upper space,
The blow pipe includes a blow valve for adjusting a flow rate of the blow pipe;
At the bottom of the container, a drain pipe for draining seawater or washing water inside the container,
The drain pipe includes a drain valve that adjusts a flow rate of the drain pipe;
In the upper part of the container, a gas vent pipe for discharging the air accumulated in the container,
The degassing pipe includes a degassing valve that adjusts the flow rate of the degassing pipe;
A second seawater foreign matter removing device comprising:
A backwash pipe for backwashing that connects the outlet pipe of the first seawater foreign matter removing apparatus and the outlet pipe of the second seawater foreign matter removing apparatus;
The backwash pipe includes a backwash valve that adjusts the flow rate of the backwash pipe;
Stop and operation of the pump in the first seawater foreign matter removing device and the second seawater foreign matter removing device, the inlet valve, the outlet valve, the blow valve, the gas vent valve, and the backwash pipe valve An apparatus for removing foreign matter in seawater, characterized by a control device for controlling the opening degree. The controller is
During backwashing of the second seawater foreign matter removing device, repeatedly opening and closing the outlet valve of the first seawater foreign matter removing device,
The seawater foreign matter removing apparatus according to claim 7, wherein the outlet valve of the second seawater foreign matter removing apparatus is repeatedly opened and closed during backwashing of the first seawater foreign matter removing apparatus.

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