KR20210002877A - silver-copper ion sterilization system with small hydroelectric power generator - Google Patents

Abstract

The present invention relates to a silver-copper ion sterilizer of a cooling tower and, more specifically, to a silver-copper ion sterilizer of a cooling tower to sterilize various bacteria and manage water quality by applying the same to various cooling towers. According to the present invention, there is no need to provide a separate power source and the configuration of the cooling tower can be simply implemented by supplying power to a silver-copper ion device using the flow of cooling water circulated in the cooling tower.

Description

Silver-copper ion sterilization system with small hydroelectric power generator

The present invention relates to a silver copper ion sterilization apparatus of a cooling tower, and more specifically, to a silver copper ion sterilization apparatus of a cooling tower for sterilizing various bacteria and managing water quality by applying to various cooling towers.

The present invention relates to a silver copper ion sterilization apparatus of a cooling tower, and more specifically, to a silver copper ion sterilization apparatus of a cooling tower for sterilizing various bacteria and managing water quality by applying to various cooling towers.

Silver has been used for sterilization of drinking water since the 8th century, but full-scale research has been conducted since the mid-19th century. In addition, NASA began as a study to purify water used by astronauts under the Apollo program and began to be used for water treatment. Currently, many water treatment companies are applying this to disinfection of swimming pools, drinking water, and cooling towers.

The principle of the silver-copper ion sterilization device is to apply an electrolysis method, and install an electrode in which silver and copper are combined, and by passing an electric current through the electrode, silver ions and copper ions are eluted at about 20 ~ 200 ppb to remove various bacteria in water. Here, silver ions sterilize various germs such as bacteria and legionella, and copper ions remove algae and sticky foreign matter (slime). Such silver copper ion sterilization device is non-toxic, odorless, does not corrode equipment, does not irritate the skin of the eyes, does not form scales inside the pipe, and is suitable for injection of chemicals such as chlorine and bromine. Compared to the cost is saved.

In a cooling tower equipped with a silver copper ion sterilization device, for example, a silver copper alloy electrode of the silver copper ion sterilization device is installed on a pipe that circulates the cooling water between the cooling tower and the heat exchanger, and the circulating cooling water is sterilized through the silver copper ion sterilization device. Have.

However, as shown in FIG. 1, the silver copper ion sterilization device of the conventional cooling tower is silver copper for the operation of the silver copper ion sterilization device 30 installed in the pipe 33 between the cooling tower 31 and the heat exchanger 34. Since electricity needs to be supplied to the ion sterilization device 30, a power supply 31 is provided, and a separate electric wiring from the power source to the silver copper ion sterilization device 30 has to be formed to increase the complexity of the device.

As a prior art for a silver copper ion sterilization device, there is Korean Patent Registration No. 10-0463951 (name: silver copper ion sterilization device).

The present invention was devised to solve the problems of the prior art, and an object of the present invention is to supply power to a silver copper ion device by using a flow of circulating cooling water without requiring a separate power supply or electrical wiring. It is an object of the present invention to provide a silver copper ion sterilization device for a cooling tower that does not need to provide a power source for the device and can simplify the configuration of the device.

The object of the present invention is a silver copper ion sterilization module formed on a conduit through which fluid flows between a cooling tower and a heat exchanger, and a plurality of silver-copper ion sterilization modules formed at one point of the conduit to separate the passages into two or more and then recombine It consists of a branch pipe having a pipe, a pump that pumps the fluid flowing through the pipe, and a hydroelectric power module formed in one pipe of the branch pipe, and the hydroelectric power module is electrically connected to the silver copper ion sterilization module. It is achieved by the silver copper ion sterilization device of the cooling tower, characterized in that.

It is preferable that the branch pipe part includes a first pipe through which the hydroelectric power module is formed and a second pipe through which the fluid passes as it is.

In addition, it is preferable that a valve for opening and closing the flow of fluid is further formed in the first pipe.

According to the present invention, by supplying power to the silver copper ion device by using the flow of cooling water circulating in the cooling tower, there is no need to provide a separate power source, and the configuration of the cooling tower can be simply implemented.

1 is a conceptual diagram showing the configuration of a silver copper ion sterilization device of a conventional cooling tower,
2 is a conceptual diagram showing the configuration of a silver copper ion sterilization apparatus of a cooling tower having a hydroelectric power module according to an embodiment of the present invention,
3 is a view showing the configuration of the hydroelectric power module of FIG.

Hereinafter, a configuration of a silver copper ion sterilization device of a cooling tower having a pipeline hydroelectric power module according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

2 is a conceptual diagram showing the configuration of a silver copper ion sterilization apparatus of a cooling tower having a hydroelectric power module according to an embodiment of the present invention, and FIG. 3 is a view showing the configuration of the hydroelectric power module of FIG.

As shown in Fig. 2, the silver copper ion sterilization device of the cooling tower according to the present invention is connected to a cooling object to cool the object, a cooling tower (1) and a pipe (3) and a pipe (3) through which the cooling water of the cooling tower (1) flows The heat exchanger (4) for cooling the cooling water circulating in the air, the silver copper ion sterilization module (10) formed on the pipe (3) through which the cooling water flows, and the pipe (3) formed at one point on the pipe (3) are two The branch pipe part 20 separated by a pipe, the hydroelectric power module 25 formed in the branched pipe 21 of the branch pipe part 20, and a pump for pressurizing and flowing the cooling water of the pipe 3 5) are included.

The cooling tower 1 and the heat exchanger 4 are known configurations used in the cooling tower 1, and thus detailed descriptions thereof will be omitted.

The silver copper ion sterilization module 10 is installed on the conduit 3 installed between the cooling tower 1 and the heat exchanger 4, and is provided with an electrode combined with silver and copper. It is to remove various bacteria in water by eluting copper ions at about 20 ~ 200ppb. Here, silver ions sterilize various germs such as bacteria and legionella, and copper ions remove algae and sticky foreign matter (slime). Since the silver copper ion sterilization module 10 is a known configuration, a detailed description thereof will be omitted.

The branch pipe part 20 is formed at one point on the pipe line 3 installed between the cooling tower 1 and the heat exchanger 4, and the cooling water flowing on the pipe line 3 flows separately into two flow channels. It consists of two pipes (21, 22) that are separated at (3) and then connected again. A hydroelectric power module 25 to be described later is installed in one of the first pipes 21 of the two pipes, and a valve for blocking and allowing the flow of cooling water is formed in the first pipe 21. When the silver copper ion sterilization device is operated, the first pipe 21 is opened to allow cooling water to flow, and when the silver copper ion sterilization device is stopped, the first pipe 21 is closed and the corresponding first pipe 21 is closed. This prevents the cooling water from flowing and allows all the cooling water to flow to the other second pipe 22 of the branch pipe part 20.

The hydroelectric power module 25 is installed on the one first pipe 21, and as shown in FIG. 3, an inlet 26 through which cooling water is introduced from one side and an outlet through which the cooling water introduced into the other side is discharged ( 27) and an inner space through which coolant flows is formed between the inlet 26 and the outlet 27, and an impeller 28 rotated by the flowing coolant and a generator connected to the impeller 28 (not shown) Is formed.

A generator that generates electricity by rotating an impeller is a known configuration, and thus a detailed description thereof will be omitted.

The hydroelectric power module 25 is electrically connected to the silver copper ion sterilization module 10 through electrical wiring, and electricity generated by the power generation module by cooling water is supplied to the silver copper ion sterilization module 10.

The pump 5 pressurizes the fluid flowing between the cooling tower 1 and the heat exchanger 4 to generate a flow of the fluid in one direction.

Hereinafter, the operation of the silver copper ion sterilization device of the cooling tower having the hydroelectric power module according to the present invention will be described.

In the case of operating the silver copper ion sterilization device of the present invention, the cooling water discharged from the cooling tower 1 flows separately into the first pipe 21 and the remaining second pipe 22 on which the power generation module of the branch pipe part 20 is formed. , The hydroelectric power module 25 generates electricity by using the flow of cooling water flowing through the first pipe 21 to generate electricity, and the generated electricity is supplied to the silver copper ion sterilization module 10 through electrical wiring to sterilize the silver copper ions. Activate the module 10.

The cooling water that has passed through the hydroelectric power module 25 of the first pipe 21 and the cooling water that has passed through the second pipe 22 are recombined and supplied to the heat exchanger 4 to be cooled in the heat exchanger 4 and cooled. The cooling water is supplied to the cooling tower 1 again. A pump 5 is used to move the cooling water to the cooling tower 1 past the heat exchanger 4.

Since the silver copper ion sterilization module 10 does not always need to be used, when the silver copper ion sterilization module 10 is not operated, all cooling water flows through the second pipe 22 by closing the valve of the first pipe 21. Can be done. At this time, the opening and closing operation of the valve of the first pipe 21 may be formed so that the control unit automatically opens the valve of the first pipe 21 when the operation of the silver copper ion sterilization module 10 is turned on.

As described above, according to the silver copper ion sterilization device of the cooling tower 1 according to the present invention, a part of the kinetic energy of the cooling water generated by the pump 5 flowing through the heat exchanger 4 to the cooling tower 1 is used to Since the power generation module 25 is operated to obtain electricity, there is an advantage that a separate power supply for operating the silver copper ion sterilization module 10 is not required.

In the embodiment of the present invention, as the hydroelectric power module 25, a hydroelectric power module 25 having a structure in which an impeller rotates inside a space through which a fluid flows is exemplified, but the present invention is not limited to this illustrated structure. If a method of generating power by means of a fluid flowing on the pipe 3 can be applied to all of the hydroelectric power modules 25 of various known types.

In addition, the present invention has exemplified that the silver copper ion sterilization device of the hydroelectric power generation module 25 type is applied to the cooling tower 1, but the present invention is not limited thereto, and not the cooling tower 1, but other pipes 3 The technology of the present invention can be applied to various devices through which fluid flows in the phase.

1 cooling tower
2 Cooling object
3 pipeline
4 heat exchanger
5 pump
10 Silver copper ion sterilization module
20 branch piping
21 Piping 1
22 2nd piping
25 Hydro power module

Claims (4)

A silver copper ion sterilization module formed on a pipe through which a fluid flows between the cooling tower and the heat exchanger;
A branch piping unit having a plurality of pipings formed at one point of the conduit to separate the flow paths into two or more and then recombine them;
A pump for pumping the fluid flowing through the pipeline; And
It consists of a hydroelectric power module formed in one pipe of the branch pipe part,
The hydroelectric power module is a silver copper ion sterilization device of a cooling tower, characterized in that electrically connected to the silver copper ion sterilization module. The method of claim 1,
The branch pipe part comprises a first pipe in which the hydroelectric power module is formed; And
And a second pipe through which the fluid passes as it is.
The method of claim 2,
A silver copper ion sterilization apparatus for a cooling tower, characterized in that a valve for opening and closing the flow of fluid is further formed in the first pipe. A silver copper ion sterilization module formed on a pipe through which a fluid flows;
A branch piping unit having a plurality of pipings formed at one point of the conduit to separate the flow paths into two or more and then recombine them;
A pump for pumping the fluid flowing through the pipeline; And
It consists of a hydroelectric power module formed in one pipe of the branch pipe part,
The hydroelectric power generation module is a silver copper ion sterilization device, characterized in that electrically connected to the silver copper ion sterilization module.

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