JP3213493U - Seawater water purification equipment purification equipment - Google Patents

Abstract

The present invention provides a purification device for seawater flow facility that can purify seawater flow facility installed in an existing plant. A purification device for a seawater water supply facility includes a purification device inlet side pipe that can be connected to an outlet side of the seawater water supply facility, and a purification device outlet side pipe that can be connected to an inlet side of the seawater water supply facility. 12, a heating device 13 for heating the water to make hot water, a pump 14 for supplying hot water to the seawater water flow facility 1 through the purification device outlet side pipe 12, a heating device 13 and a pump 14 And at least one portable body 20 to be housed. [Selection] Figure 1

Description

  The present disclosure relates to a purification device for seawater water flow facilities.

  In various plants such as a thermal power plant and a nuclear power plant, there is a case where a seawater water supply facility for circulating seawater and cooling it is provided. Since seawater passes through the seawater water supply facilities, marine organisms may adhere to the seawater water supply facilities. In order to prevent problems with seawater water facilities that may occur due to the attachment of marine organisms, warm water is injected into the seawater water facilities to artificially increase the temperature of the seawater water facilities so that the attached sea life can be removed. It is being killed. Such a technique is described in Patent Documents 1 and 2, for example.

Japanese Patent No. 2985628 Japanese Patent No. 4040347

  However, since the seawater passage facility is often a relatively large facility in the plant, it is necessary to incorporate it into the plan for the new installation in order to provide a purification device for the seawater passage facility. It would be difficult to install a purification device in an existing plant because it would be accompanied by large-scale piping work and problems in equipment installation and equipment layout when attempting to install a purification device for seawater flow facilities in an existing plant There was a problem.

  In view of the above-described circumstances, at least one embodiment of the present invention aims to provide a purification device for seawater flow facility that can purify seawater flow facility provided in an existing plant.

(1) A purification apparatus for a seawater water-flow facility according to at least one embodiment of the present invention comprises:
A purification device for seawater water flow equipment,
A purification device inlet-side pipe connectable to one of the inlet side or the outlet side of the seawater water flow facility;
A purification device outlet side pipe connectable to the other of the inlet side or the outlet side of the seawater water flow facility;
A heating device for heating the water to make hot water;
A pump for supplying the warm water to the seawater water passing facility through the purification device outlet side pipe;
And at least one portable body that houses the heating device and the pump.

  According to the configuration of the above (1), the purification device for the seawater passage facility can be configured by carrying in the pump and the heating device only when necessary, so that the seawater passage facility provided in the existing plant can be purified. .

(2) In some embodiments, in the configuration of (1) above,
The heating device and the pump are provided in one and the same portable body.

  According to the configuration of (2) above, since the pump and the heating device can be carried in simultaneously by carrying in one portable body, it is possible to easily construct a purification device for seawater water flow equipment.

(3) In some embodiments, in the configuration of (1) or (2) above,
A tank for storing the warm water is further provided.

  According to the configuration of (3) above, since the pump can supply the hot water stored in the tank to the seawater passage facility, it is possible to reduce the possibility of the pump sucking gas together with the hot water and damaging the pump.

(4) In some embodiments, in any one of the above configurations (1) to (3),
The apparatus further includes a filter for filtering the hot water flowing through the purification apparatus inlet pipe.

  According to the configuration of (4) above, the warm water returning to the purification device of the seawater passage facility through the seawater passage facility to which marine organisms may be attached is purified by the filter. It is possible to reduce the possibility that the living organisms flow in and the pump is damaged.

(5) In some embodiments, in the configuration of (4) above,
A tank for storing the hot water;
The heater, the pump, the filter, and the tank are provided in one and the same portable body.

  According to the configuration of the above (5), the pump, the heating device, the filter, and the tank can be carried in simultaneously by carrying in one portable body, so that the purification device for seawater water flow equipment can be easily constructed. .

(6) In some embodiments, in any one of the configurations (1) to (5) above,
A transporter on which the portable body is loaded is further provided.

  According to the configuration of (6) above, since the portable body can be carried in by the transporter when necessary, the components housed in the portable body can be retrofitted to the seawater water flow facility.

(7) In some embodiments, in the configuration of (6) above,
The portable body and the transport body are integral.

  According to the configuration of (7) above, since the transportable body can be carried in when necessary without preparing the transporter separately from the transportable body, the components housed in the transportable body are connected to the seawater flow facility. Can be retrofitted to.

(8) In some embodiments, in any one of the configurations (1) to (7),
The said purification apparatus exit side piping is connected to the entrance side of the said seawater water flow installation.

  According to the structure of said (8), warm water distribute | circulates a seawater flow installation in the same direction as the distribution direction of seawater. Since sea life tends to adhere to the seawater flow facility upstream of the seawater distribution direction, hot water with higher temperature is distributed to the upstream side of the seawater distribution direction, so that sea life can be removed more reliably. Can do.

(9) A purification apparatus for seawater water flow equipment according to at least one embodiment of the present invention,
A purification device for seawater water flow equipment,
A purification device inlet-side pipe connectable to one of the inlet side or the outlet side of the seawater water flow facility;
A purification device outlet side pipe connectable to the other of the inlet side or the outlet side of the seawater water flow facility;
A portable heating device for making hot water by heating water, the portable heating device having a detachable water inlet and outlet,
A portable pump for supplying the warm water to the seawater water-flowing facility via the purification apparatus outlet-side pipe, and comprising a portable pump having a detachable water inlet / outlet section.

  According to the configuration of (9) above, since the purification device for the seawater water flow facility can be configured by carrying in the portable pump and the portable heating device only when necessary, the seawater water flow facility installed in the existing plant is purified. can do.

(10) In some embodiments, in the configuration of (9) above,
The tank for storing the warm water further includes a tank having a detachable water inlet / outlet portion.

  According to the configuration of (10) above, since the pump can supply the hot water stored in the tank to the seawater passage facility, it is possible to reduce the possibility of the pump sucking gas together with the hot water and damaging the pump.

(11) In some embodiments, in the above configuration (9) or (10),
It is a filter which filters the warm water which distribute | circulated the said purification apparatus inlet piping, Comprising: The filter which has a water flow inlet / outlet part which can be attached or detached is further provided.

  According to the configuration of (11) above, since the warm water flowing through the seawater watering facility that may have marine organisms attached and returning to the purification device of the seawater watering facility is purified by the filter, It is possible to reduce the possibility that the living organisms flow in and the pump is damaged.

(12) In some embodiments, in any one of the above configurations (9) to (11),
The hot water from the portable pump is supplied to the inlet side of the seawater water supply facility.

  According to the structure of said (12), warm water distribute | circulates a seawater flow installation in the same direction as the distribution direction of seawater. Since sea life tends to adhere to the seawater flow facility upstream of the seawater distribution direction, hot water with higher temperature is distributed to the upstream side of the seawater distribution direction, so that sea life can be removed more reliably. Can do.

(13) In some embodiments, in any one of the above configurations (1) to (12),
The seawater flow facility is a facility for cooling the reactor auxiliary equipment.

  Since the equipment for cooling the reactor auxiliary equipment is relatively small that can be purified by a purification device that can be retrofitted, according to the configuration of (13), the purification device for the seawater passage facility is not permanently installed. It is possible to purify seawater water flow equipment installed in the existing plant.

  According to at least one embodiment of the present invention, a purification device for a seawater water supply facility can be configured by carrying in a pump and a heating device only when necessary, so that the seawater water supply facility provided in an existing plant is purified. be able to.

BRIEF DESCRIPTION OF THE DRAWINGS It is the schematic which shows the whole structure of the purification apparatus of the seawater water supply equipment which concerns on Embodiment 1 of this invention. It is a flowchart which shows the attachment operation | movement to the seawater water supply installation of the purification apparatus of the seawater water supply equipment which concerns on Embodiment 1 of this invention, and operation | movement of a purification apparatus. It is the schematic which shows the whole structure of the purification apparatus of the seawater water flow installation which concerns on Embodiment 2 of this invention. It is a flowchart which shows the attachment operation | movement to the seawater water supply installation of the purification apparatus of the seawater water supply equipment which concerns on Embodiment 2 of this invention, and operation | movement of a purification apparatus. It is the schematic which shows the whole structure of the purification apparatus of the seawater water flow installation which concerns on Embodiment 3 of this invention. It is the schematic which shows the whole structure of the purification apparatus of the seawater water flow installation which concerns on Embodiment 4 of this invention. It is a flowchart which shows the attachment operation | movement to the seawater water supply installation of the purification apparatus of the seawater water supply equipment which concerns on Embodiment 4 of this invention, and operation | movement of a purification apparatus. It is the schematic which shows the whole structure of the purification apparatus of the seawater water supply installation which concerns on Embodiment 5 of this invention. It is a flowchart which shows the attachment operation | movement to the seawater water supply installation of the purification apparatus of the seawater water supply equipment which concerns on Embodiment 5 of this invention, and operation | movement of a purification apparatus. It is the schematic which shows the whole structure of the purification apparatus of the seawater water supply installation which concerns on Embodiment 6 of this invention.

  Hereinafter, some embodiments of the present invention will be described with reference to the accompanying drawings. However, the scope of the present invention is not limited to the following embodiments. The dimensions, materials, shapes, relative arrangements, and the like of the components described in the following embodiments are not merely intended to limit the scope of the present invention, but are merely illustrative examples.

  The “seawater water-flowing facility 1” in the following embodiments is a facility through which seawater circulates among the constituent requirements of various plants. Reactor auxiliary equipment cooling water system (coolers, pumps, etc.) for cooling equipment (reactor auxiliary equipment cooling system), equipment for cooling safety equipment in nuclear power plants under decommissioning, etc. is there. These facilities are relatively small facilities suitable for purification by a retrofitting purification device.

(Embodiment 1)
As shown in FIG. 1, a seawater water supply facility 1 is provided in a seawater water supply pipe 2. On the inlet side and outlet side of the seawater water supply facility 1, takeout ports 3 and 4 branched from the seawater waterway piping 2 are respectively provided, and the outlets 3 and 4 have valves 5 and 6, respectively. Is provided. The valves 5 and 6 are respectively provided with couplers 7 and 8 such as flanges or couplers for connection to other pipes. Valves 27 and 28 are further provided on the seawater water pipe 2 on the upstream side of the extraction port 3 and on the downstream side of the extraction port 4, respectively.

  The purification device 10 includes a purification device inlet pipe 11 connected via a coupler 8 to a valve 6 provided in a take-out port 4 communicating with the outlet side of the seawater water flow facility 1, and an inlet side of the seawater water flow facility 1. A purifier outlet pipe 12 connected via a coupler 7 to a valve 5 provided in the take-out port 3 communicating with the heater, a heating device 13 for heating the water to make hot water, and a purifier outlet pipe 12 And a pump 14 for supplying hot water to the seawater water-flowing facility 1. The heating device 13 and the pump 14 are accommodated in a portable body 20 such as a container in a state where they are communicated with each other via a pipe 15. The portable body 20 is placed on a loading platform of a transportation body 21 such as a truck and is movable. That is, the purification device 10 is not a facility that is permanently installed in the seawater water supply facility 1 but is a facility that can be carried by the transporter 21 and retrofitted to the seawater water flow facility 1 when necessary.

  At the end of the piping 16 on the inlet side of the heating device 13, a coupler 17 that can be connected to the purification device inlet piping 11 is provided. At the end of the piping 18 on the outlet side of the pump 14, the purification device outlet piping 12 And a coupler 19 that can be coupled to each other. Each of the couplers 17 and 19 is also any known coupler such as a flange or a coupler. One end of a branch pipe 23 is connected to the pipe 16. The other end of the branch pipe 23 is connected to the other end of the pipe 22 via a coupler 24 such as a flange or a coupler provided at the other end of the pipe 22 connected to the water source 29 at one end. The pipe 22 is provided with a valve 25.

Next, the operation of attaching the purification device according to Embodiment 1 of the present invention to the seawater water flow facility 1 and the operation of the purification device will be described with reference to the flowchart of FIG.
The purifier inlet pipe 11 is connected to the coupler 8 of the valve 6 (step S11), and the purifier outlet pipe 12 is connected to the coupler 7 of the valve 5 (step S12). Next, the portable body 20 placed on the transport body 21 is carried in, that is, the heating device 13 and the pump 14 accommodated in the portable body 20 are carried in (step S13). Note that steps S11 to S13 are not necessarily performed in this order, and may be performed in any order.

  The purifier 10 is connected to the seawater flow facility 1 by connecting the purifier inlet pipe 11 to the coupler 17, connecting the purifier outlet pipe 12 to the coupler 19, and connecting the branch pipe 23 to the coupler 24. (Step S14). In Embodiment 1, since the pump 14 and the heating apparatus 13 can be carried in simultaneously by moving the one portable body 20, the purification apparatus 10 of the seawater water flow facility 1 can be configured easily.

  Next, the valves 27 and 28 are closed and the valves 5 and 6 are opened, and then the valve 25 is opened and water is supplied from the water source 29 to the heating device 13 via the pipe 22 and the branch pipe 23 (step S15). The heating device 13 makes hot water by heating the supplied water (step S16). The pump 14 supplies the hot water produced by the heating device 13 to the seawater water flow facility 1 via the purification device outlet pipe 12 and the seawater water flow pipe 2 (step S17). The power source for heating by the heating device 13 and the power source of the pump 14 include power supplied from the battery of the transport body 21, power supplied from the battery provided in the portable body 20, The electric power of the plant in which the seawater water flow facility 1 is provided can be used.

  If warm water distribute | circulates the seawater water-flow equipment 1, the temperature of the seawater water-flow equipment 1 will rise. The marine organisms or their eggs attached to the seawater water flow facility 1 are killed by the rise in temperature. Thereby, it can suppress that the marine organism adhering to the seawater water flow installation 1 propagates. The hot water that has flowed out of the seawater water supply facility 1 returns to the purification device 10 via the purification device inlet pipe 11, is heated by the heating device 13, and then circulated so as to be supplied again to the seawater water flow facility 1 by the pump 14. To do. When the purification device 10, the seawater water passage pipe 2, and the seawater water passage facility 1 are filled with warm water, the valve 25 is closed and the supply of water from the water source 29 to the heating device 13 is stopped (step). S18).

  After completion of the purification operation of the seawater flow facility 1, the heating device 13 and the pump 14 are stopped to stop the circulation of hot water (step S19). After the valves 5 and 6 are closed, the purification device 10 is removed from the seawater water flow facility 1 by removing the purification device outlet pipe 12 and the purification device inlet pipe 11 from the valves 5 and 6, respectively (step S20).

  Thus, since the pump 14 and the heating device 13 can be carried in only when necessary and the purification device 10 of the seawater water-flowing facility 1 can be configured, the seawater water-flowing facility 1 provided in the existing plant can be purified. .

  In the first embodiment, the purification device inlet pipe 11 and the purification device outlet pipe 12 are connected to the heating device 13 and the pump 14 via the couplers 17 and 19, respectively, but are not limited to this mode. . The purification device inlet piping 11 and the purification device outlet piping 12 may be integrated so as to communicate with the heating device 13 and the pump 14, respectively, or either the purification device inlet piping 11 or the purification device outlet piping 12 is a heating device. 13 or the pump 14 may be integrated.

(Embodiment 2)
Next, the purification apparatus according to Embodiment 2 will be described. The purification device according to the second embodiment enables the seawater remaining in the seawater flow facility 1 to be drained with respect to the first embodiment. In the second embodiment, the same components as those in the first embodiment are denoted by the same reference numerals, and detailed description thereof is omitted.

  As shown in FIG. 3, in the portable body 20, a tank 30 for storing hot water produced by the heating device 13 is provided on a pipe 15 that connects the heating device 13 and the pump 14. . The seawater water-flow facility 1 has a drain pipe 32 for draining seawater remaining in the interior, and a valve 33 provided in the drain pipe 32. Other configurations are the same as those of the first embodiment.

Next, the operation of attaching the purification device according to Embodiment 2 of the present invention to the seawater water flow facility 1 and the operation of the purification device will be described with reference to the flowchart of FIG.
Steps S11 and S12 are the same as those in the first embodiment. Next, the heating device 13, the pump 14, and the tank 30 are carried in (step S21). After the completion of step S21, the purification device 10 is attached to the seawater water-flow facility 1 by the same operation as step 14 of the first embodiment. In Embodiment 2, since the pump 14, the heating apparatus 13, and the tank 30 can be carried in simultaneously by moving the one portable body 20, the purification apparatus 10 of the seawater water flow facility 1 can be configured easily.

  After completion of step S14, the valves 27 and 28 are closed. Subsequently, by opening the valve 33, the seawater remaining in the seawater water flow facility 1 is drained through the drain pipe 32 (step S22). When the seawater drainage from the seawater water flow facility 1 is finished, the valve 33 is closed, and then water is supplied to the heating device 13 in the same manner as in the first embodiment (step S15). Then, warm water is made with the heating device 13 (step S16). The hot water produced by the heating device 13 is stored in the tank 30 (step S23). When the amount of hot water in the tank 30 exceeds a certain level, the pump 14 is activated, and the hot water in the tank 30 is passed through the purifier outlet pipe 12 and the seawater water pipe 2 in the same manner as in the first embodiment. Then, the water is supplied to the seawater passage facility 1 (step S17). Subsequent steps S18 to S20 are the same as those in the first embodiment.

  In the second embodiment, the seawater remaining in the seawater flow facility 1 is drained from the seawater remaining in the seawater flow facility 1 before the warm water is circulated through the seawater flow facility 1. It can prevent returning to the inside of the purification apparatus 10 via the piping 11, and mixing with the warm water made by the heating apparatus 13, and lowering the temperature of the warm water. Moreover, since the pump 14 can supply the hot water stored in the tank 30 to the seawater water-flowing facility 1, the possibility that the pump 14 sucks gas together with the hot water and damages the pump 14 can be reduced.

(Embodiment 3)
Next, a purification device according to Embodiment 3 will be described. The purification device according to Embodiment 3 is obtained by adding a filter for filtering the hot water flowing through the purification device inlet pipe 11 to each of Embodiments 1 and 2. In the following, the third embodiment will be described in a form in which a filter is added to the configuration of the second embodiment. However, a filter may be added to the configuration of the first embodiment to obtain a third embodiment. In the third embodiment, the same components as those in the first and second embodiments are denoted by the same reference numerals, and detailed description thereof is omitted.

  As shown in FIG. 5, in the portable body 20, a filter for filtering the hot water flowing through the purification device inlet pipe 11 upstream of the portion where the branch pipe 23 is connected to the pipe 16. 40 is provided. Other configurations are the same as those of the second embodiment.

  The operation of attaching the purification device to the seawater passage facility 1 and the operation of the purification device according to the third embodiment of the present invention includes the heating device 13, the pump 14, the tank 30, and the filter 40 stored in the portable body 20. Therefore, the second embodiment is the same as the second embodiment except that these are carried in at the same time. In Embodiment 3, since the warm water which distribute | circulates the seawater water supply equipment 1 in which a marine organism may adhere and returns to the purification apparatus 10 of the seawater water supply equipment 1 is purified by the filter 40, It is possible to reduce the risk of marine life flowing in and the pump 14 being damaged.

  In Embodiments 1 to 3, the portable body 20 and the transport body 21 are separate constituent requirements, but both may be integrated. For example, when the transport body 21 is a truck and the heating device 13 and the pump 14 (and the tank 30 and the filter 40) are arranged on the truck bed, the portable body 20 corresponds to the truck bed. Further, the portable body 20 may not be placed on the transport body 21. Depending on the weight and size of the heating device 13 and the pump 14 (and the tank 30 and the filter 40), the portable body 20 containing the heating device 13 and the pump 14 can be transported manually. In this case, casters and wheels may be attached to the portable body 20 so as to facilitate transportation.

(Embodiment 4)
Next, a purification device according to Embodiment 4 will be described. The purification device according to the fourth embodiment is obtained by changing the configuration of the heating device and the pump with respect to the first embodiment. In the fourth embodiment, the same components as those in the first embodiment are denoted by the same reference numerals, and detailed description thereof is omitted.

  As shown in FIG. 6, the purification device 50 includes a purification device inlet pipe 11, a purification device outlet pipe 12, a portable heating device 53 for heating the water to make hot water, and the purification device outlet pipe 12. And a portable pump 54 for supplying hot water to the seawater water flow facility 1. The portable heating device 53 has a water inlet portion 53a and a water outlet portion 53b, which are connectors such as flanges and couplers, at the ends of the inlet side pipe 53c and the outlet side pipe 53d, respectively. One end of the branch pipe 23 is connected to the inlet side pipe 53c. The portable pump 54 has a water inlet portion 54a and a water outlet portion 54b, which are connectors such as flanges and couplers, at the ends of the inlet side piping 54c and the outlet side piping 54d, respectively.

  The portable heating device 53 and the portable pump 54 are connected by connecting the water flow outlet 53b of the portable heating device 53 and the water flow inlet 54a of the portable pump 54. The purifier inlet pipe 11 is connected to the water inlet 53 a of the portable heating device 53. The purification apparatus outlet pipe 12 is connected to the water outlet section 54 b of the portable pump 54. Other configurations are the same as those of the first embodiment.

Next, the operation of attaching the purification device according to Embodiment 4 of the present invention to the seawater water flow facility 1 and the operation of the purification device will be described with reference to the flowchart of FIG.
Steps S11 and S12 are the same as those in the first embodiment. Next, the portable heating device 53 and the portable pump 54 are carried in (step S31). The portable heating device 53 and the portable pump 54 may be carried in manually according to their weight and size, or may be carried on an arbitrary transport body. Note that steps S11 to S12 and S31 are not necessarily performed in this order, and may be performed in any order.

  The purifier inlet pipe 11 is connected to the water inlet 53 a of the portable heating device 53, the purifier outlet pipe 12 is connected to the water outlet 54 b of the portable pump 54, and the branch pipe 23 is connected to the coupler 24. Then, the purification device 50 is attached to the seawater water flow facility 1 by connecting the water flow outlet portion 53b and the water flow inlet portion 54a (step S32). In the fourth embodiment, each of the portable heating device 53 and the portable pump 54 includes water inlet portions 53a and 54a and water outlet portions 53b and 54b, and the water outlet portion 53b and the water inlet portion 54a are connected to each other. Since the portable heating device 53 and the portable pump 54 can be easily connected by being connected, the purification device 10 of the seawater water flow facility 1 can be configured easily.

  Steps S15 to S20 after step S32 are the same as those in the first embodiment. Thereby, the portable pump 54 and the portable heating device 53 can be carried in only when necessary, and the purification device 10 of the seawater water-flowing facility 1 can be configured, so that the seawater water-flowing facility 1 provided in the existing plant is purified. be able to.

(Embodiment 5)
Next, a purification device according to Embodiment 5 will be described. The purification device according to the fifth embodiment is obtained by changing the configuration of the heating device and the pump with respect to the second embodiment. In the fifth embodiment, the same components as those in the second embodiment are denoted by the same reference numerals, and detailed description thereof is omitted.

  As shown in FIG. 8, a tank 60 for storing hot water produced by the portable heating device 53 is provided between the portable heating device 53 and the portable pump 54. The tank 60 has a water inlet portion 60a and a water outlet portion 60b, which are connectors such as flanges and couplers, at the ends of the inlet side pipe 60c and the outlet side pipe 60d, respectively. The water flow inlet portion 60a and the water flow outlet portion 53b are connected, and the water flow outlet portion 60b and the water flow inlet portion 54a are connected. Other configurations are the same as those of the second embodiment.

Next, the operation of attaching the purification device according to Embodiment 5 of the present invention to the seawater water flow facility 1 and the operation of the purification device will be described with reference to the flowchart of FIG.
Steps S11 and S12 are the same as those in the second embodiment. Next, the portable heating device 53, the portable pump 54, and the tank 60 are carried in (step S41). The portable heating device 53, the portable pump 54, and the tank 60 may be loaded manually or may be loaded on an arbitrary transport body according to their weight and size. Note that steps S11 to S12 and S41 are not necessarily performed in this order, and may be performed in any order.

  The portable heating device 53, the tank 60, and the portable pump 54 are connected by connecting the water flow inlet portion 60a and the water flow outlet portion 53b and connecting the water flow outlet portion 60b and the water flow inlet portion 54a. To do. Further, the purifier inlet pipe 11 is connected to the water inlet 53 a of the portable heating device 53, the purifier outlet pipe 12 is connected to the water outlet 54 b of the portable pump 54, and the branch pipe 23 is connected to the coupler 24. Connect to. Thereby, the purification apparatus 50 is attached to the seawater water-passage equipment 1 (step S42). In the fifth embodiment, each of the portable heating device 53, the tank 60, and the portable pump 54 includes water inlet portions 53a, 60a, 54a and water outlet portions 53b, 60b, 54b, and the water inlet portion 60a. The portable heating device 53, the tank 60, and the portable pump 54 can be easily connected by connecting the water outlet port portion 53b and the water outlet portion 60b and the water inlet portion 54a. Therefore, the purification apparatus 50 of the seawater water flow facility 1 can be easily configured.

  Steps S22 to S20 after step S42 are the same as those in the second embodiment. For this reason, in the same manner as in the second embodiment, before the hot water is circulated through the seawater water-passage facility 1, the seawater remaining in the seawater water-passage facility 1 is drained to remain in the seawater water-passage facility 1. It is possible to prevent the seawater from returning to the purification device 10 via the purification device inlet pipe 11 and mixing with the warm water produced by the portable heating device 53 to lower the temperature of the warm water. Moreover, since the portable pump 54 can supply the hot water stored in the tank 60 to the seawater water flow facility 1, the possibility that the portable pump 54 sucks the gas together with the hot water and damages the portable pump 54 may be reduced. it can.

(Embodiment 6)
Next, a purification device according to Embodiment 6 will be described. The purification device according to the sixth embodiment is obtained by adding a filter for filtering the hot water flowing through the purification device inlet pipe 11 to each of the fourth and fifth embodiments. Hereinafter, the sixth embodiment will be described in a form in which a filter is added to the configuration of the fifth embodiment. However, a filter may be added to the configuration of the fourth embodiment to obtain a sixth embodiment. In the sixth embodiment, the same components as those in the fourth and fifth embodiments are denoted by the same reference numerals, and detailed description thereof is omitted.

  As shown in FIG. 10, a filter 70 is provided between the portable heating device 53 and the purification device inlet pipe 11 for filtering the hot water flowing through the purification device inlet pipe 11. The filter 70 has a water inlet portion 70a and a water outlet portion 70b, which are connectors such as flanges and couplers, at the ends of the inlet side piping 70c and the outlet side piping 70d, respectively. The water flow inlet portion 70a and the purification device inlet pipe 11 are connected, and the water flow outlet portion 70b and the water flow inlet portion 53a are connected. Other configurations are the same as those of the fifth embodiment.

  The operation of the purification apparatus according to Embodiment 6 of the present invention for attaching the purification apparatus to the seawater water flow facility 1 and the operation of the purification apparatus are as follows: the water outlet part 70b and the water inlet part 53a are connected, and the water inlet part. It is the same as Embodiment 5 except connecting 70a and the purifier inlet pipe 11. In Embodiment 6, since the warm water which distribute | circulates the seawater water supply equipment 1 in which marine life may adhere and returns to the purification apparatus 10 of the seawater water supply equipment 1 is purified by the filter 70, it is a portable pump. It is possible to reduce the risk that marine organisms flow into 54 and the portable pump 54 is damaged.

  In the fifth and sixth embodiments, the tank 60 and the filter 70 may be portable like the portable heating device 53 and the portable pump 54, or are installed in a plant provided with the seawater water flow facility 1. It may be done.

  In each of the first to sixth embodiments, the direction in which the warm water flows through the seawater water supply facility 1 is the same as the direction in which the seawater flows through the seawater water flow facility 1, but the purifier inlet pipe 11 is connected to the coupler 7. By connecting the purifier outlet pipe 12 to the coupler 8, the direction in which the warm water flows through the seawater water supply facility 1 may be reversed from the direction in which the seawater water flow facility 1 flows.

(1) A method for purifying a seawater water supply facility according to at least one embodiment of the present invention comprises:
A method for purifying seawater water flow equipment,
Connecting a purification apparatus inlet side pipe to one of the inlet side or the outlet side of the seawater water flow facility;
Connecting a purification apparatus outlet side pipe to the other of the inlet side or the outlet side of the seawater water flow facility;
Carrying in a heating device for heating the water to make hot water;
Carrying in a pump for supplying the warm water to the seawater water passing facility through the purification apparatus outlet side pipe;
Making the warm water by the heating device;
After the step of producing the hot water, the step of circulating the hot water by sequentially circulating the hot water through the purifier outlet, the seawater water supply facility, and the purifier inlet pipe.

  According to the method (1), since the pump and the heating device can be carried in only when necessary to purify the seawater flow facility, the seawater flow facility provided in the existing plant can be purified.

(2) In some embodiments, in the method of (1) above,
The method includes the step of making the warm water
Draining the remaining seawater from the seawater flow facility;
And supplying the water to the heating device after blowing the seawater.

  According to the above method (2), the seawater remaining in the seawater water supply facility is drained from the seawater remaining in the seawater waterflow facility before the warm water is circulated through the seawater water flow facility. It is possible to prevent the temperature of the warm water from being lowered by mixing with the warm water produced by the heating device by returning to the purification device via the inlet pipe.

DESCRIPTION OF SYMBOLS 1 Seawater water supply equipment 2 Seawater water supply piping 3 Outlet 4 Outlet 5 Valve 6 Valve 7 Connector 8 Connector 10 Purification device 11 Purification device inlet piping 12 Purification device outlet piping 13 Heating device 14 Pump 15 Piping 16 Piping 17 Connection Unit 18 Pipe 19 Connector 20 Portable body 21 Transport body 22 Pipe 23 Branch pipe 24 Coupler 25 Valve 27 Valve 28 Valve 29 Water source 30 Tank 32 Drain pipe 33 Valve 40 Filter 50 Purifier 53 Portable heating device 53a (Portable Water inlet 53b (for portable heating device) Water outlet 53c (for portable heating device) Inlet side piping 53d (for portable heating device) Outlet side piping 54 (for portable heating device) Portable pump 54a (possible Water inlet 54b (for portable pump) Water outlet 54c (for portable pump) Inlet side piping 54d (for portable pump) (portable pump) Of) the outlet pipe 60 the tank 60a (tank) passing water inlet portion 60b (of the tank) passing water outlet port part 60c (of the tank) the inlet side pipe 60d (of the tank) outlet pipe

Claims (13)

A purification device for seawater water flow equipment,
A purification device inlet-side pipe connectable to one of the inlet side or the outlet side of the seawater water flow facility;
A purification device outlet side pipe connectable to the other of the inlet side or the outlet side of the seawater water flow facility;
A heating device for heating the water to make hot water;
A pump for supplying the warm water to the seawater water passing facility through the purification device outlet side pipe;
A purification apparatus for seawater water flow equipment comprising the heating device and at least one portable body that houses the pump.   The said heating apparatus and the said pump are purification apparatuses of the seawater water-flow installation of Claim 1 provided in the same portable body.   The purification apparatus of the seawater water-flow installation of Claim 1 or 2 further provided with the tank for storing the said warm water.   The purification apparatus of the seawater water-flow equipment as described in any one of Claims 1-3 further equipped with the filter for filtering the warm water which distribute | circulated the said purification apparatus inlet piping. A tank for storing the hot water;
The said heater, the said pump, the said filter, and the said tank are the purification apparatuses of the seawater water flow installation of Claim 4 provided in the same portable body.   The purification apparatus of the seawater water-flow equipment as described in any one of Claims 1-5 further provided with the transport body by which the said portable body is loaded.   The purification apparatus for seawater water passing equipment according to claim 6, wherein the portable body and the transport body are integral.   The said purification apparatus exit side piping is a purification apparatus of the seawater flow facility as described in any one of Claims 1-7 connected to the entrance side of the said seawater flow facility. A purification device for seawater water flow equipment,
A purification device inlet-side pipe connectable to one of the inlet side or the outlet side of the seawater water flow facility;
A purification device outlet side pipe connectable to the other of the inlet side or the outlet side of the seawater water flow facility;
A portable heating device for making hot water by heating water, the portable heating device having a detachable water inlet and outlet,
Purification of seawater water supply equipment comprising a portable pump for supplying the hot water to the seawater water supply equipment via the purification device outlet side pipe, the portable pump having a removable water inlet / outlet section apparatus.   The purification apparatus of the seawater water-flow equipment of Claim 9 further provided with the tank which stores the said warm water, Comprising: The tank which has a water flow inlet / outlet part which can be attached or detached.   The purification apparatus for seawater water-flow equipment according to claim 9 or 10, further comprising a filter for filtering hot water flowing through the purification apparatus inlet pipe, the filter having a detachable water inlet / outlet section.   The said hot water from the said portable pump is a purification apparatus of the seawater water supply equipment as described in any one of Claims 9-11 supplied to the entrance side of the said seawater water supply equipment.   The said seawater water-flow equipment is a purification apparatus of the seawater water-flow equipment as described in any one of Claims 1-12 which is equipment for cooling a nuclear reactor auxiliary machine.

Images