KR101825648B1 - Sterilization system using sea water of ship - Google Patents

Abstract

Disclosed is a ship disinfection system using seawater.
The ship disinfection system includes a seawater supply unit, an electrolysis unit for electrolyzing the seawater supplied from the seawater supply unit to produce a sterilizing agent, and a reservoir for temporarily storing the produced sterilizing agent. The electrolysis unit sterilizes the drinking water A first sterilizing agent producing part for producing a fresh water sterilizing agent from seawater and a second sterilizing agent producing part for producing from the seawater other sterilizing agent for sterilizing other polluted water excluding drinking water.

Description

STERILIZATION SYSTEM USING SEA WATER OF SHIP BACKGROUND OF THE INVENTION 1. Field of the Invention [0001]

The present invention relates to a ship disinfection system using seawater.

In general, various disinfection / disinfection methods using sterilization and purification equipment have been applied to ships in order to deal with sewage, ship ballast water, fresh water, and marine life attachment in ships.

For example, biodegradation, thin film permeation or electrolysis may be used to treat the wastewater used in the ship, and ultraviolet sterilization, cavitation or ozone sterilization may be used to treat the ballast water In order to treat fresh water, ultraviolet sterilization, disinfectant input or electrolytic method can be used, and in order to prevent attachment of marine life, an electric ionization method or an electrolysis method can be used.

However, in order to apply such various disinfection / decomposition methods to vessels, separate disinfection and purification equipment must be installed for each disinfection system, so space restrictions are imposed on the installation of each disinfection system in a narrow vessel, and each disinfection system To be applied to all ships, costs may increase and the overall structure may become complicated.

Therefore, there is a need for a method that can integrate and apply a sterilization system to each use site requiring sterilization in a ship.

Patent Registration No. 10-0896337 (registered on April 28, 2009)

Embodiments of the present invention provide a ship disinfection system using seawater capable of producing a sterilizing agent that can be used universally for each use site requiring sterilization in ships.

According to an aspect of the present invention, there is provided a ship disinfection system using seawater, comprising: a seawater supply unit for receiving seawater; An electrolysis unit for electrolyzing the supplied seawater to produce a bactericide; A storage for temporarily storing the produced sterilizing agent; And a transfer pipe for supplying a sterilizing agent in the reservoir to a user, wherein the electrolysis unit comprises: a first sterilizing agent producing unit for producing a fresh water sterilizing agent for sterilizing drinking water from the seawater; And a second germicide producing part for producing, from the seawater, other germicide for sterilizing other polluted water except for drinking water.

At this time, the first germicidal agent producing unit produces a fresh water sterilizing agent containing hypochlorous acid, chlorine dioxide, and ozone using the chlorine gas generated from the anode as a base material, and the second germicide generating unit generates chlorine gas and caustic soda Sodium hypochlorite can be produced through the chemical reaction of sodium hypochlorite.

In addition, the reservoir may include a first storage tank for storing the fresh water sterilizing agent generated in the first sterilizing agent generating unit; And a second storage tank in which the other sterilizing agent generated in the second sterilizing agent generating unit is stored.

The present invention may further comprise a control valve for selectively supplying the fresh water sterilant or the other sterilant to any of the storage tanks in the reservoir.

Also, the first storage tank may be connected to the beverage supply equipment through the transfer pipe, and the second storage tank may be connected to the sewage treatment equipment, ship ballast water treatment equipment, and marine life attachment prevention equipment through the transfer pipe .

In addition, the reservoir may further include a third storage tank in which the fresh water sterilizing agent and the other sterilizing agent are mixed at predetermined ratios.

The embodiments of the present invention have an advantage in that seawater can be used to produce sterilizing agents which can be universally used in each use site requiring sterilization in ships.

In addition, the embodiments of the present invention have an advantage in that a sterilizing agent that can be used in general use is produced through a single system, so that a separate facility required for sterilization is not required for each use site.

In addition, since the embodiments of the present invention produce a sterilizing agent in one system, there is an advantage that the hydrogen generated in the electrolysis reaction for the production of sterilizing agent can be integrally managed.

In addition, the embodiments of the present invention have advantages in that they have better sterilizing performance than chlorine, are excellent in oxidizing power, are effective in decomposing organic matter, are excellent in fine cohesion effect and can reduce turbidity and coagulant, There is an advantage that a bactericide can be produced from seawater.

1 is a block diagram showing a ship disinfection system using seawater according to an embodiment of the present invention.
2 is a block diagram illustrating an electrolysis unit of a marine sterilization system using seawater according to an embodiment of the present invention.
3 is a block diagram illustrating a ship disinfection system using seawater according to another embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, configurations and operations according to embodiments of the present invention will be described in detail with reference to the accompanying drawings. DETAILED DESCRIPTION OF THE INVENTION The following description is one of many aspects of the claimed invention and the following description may form part of the detailed description of the invention. However, the detailed description of known configurations or functions in describing the present invention may be omitted for clarity.

While the invention is susceptible to various modifications and its various embodiments, it is intended to illustrate the specific embodiments and the detailed description. It is to be understood, however, that the invention is not to be limited to the specific embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

And terms including ordinals such as first, second, etc. may be used to describe various elements, but the constituent elements are not limited by such terms. These terms are used only to distinguish one component from another. It is to be understood that when an element is referred to as being "connected" or "connected" to another element, it may be directly connected or connected to the other element, . The terminology used in this application is used only to describe a specific embodiment and is not intended to limit the invention. The singular expressions include plural expressions unless the context clearly dictates otherwise.

FIG. 1 is a configuration diagram showing a marine sterilization system using sea water according to an embodiment of the present invention, FIG. 2 is a diagram showing an electrolysis unit of a marine sterilization system using sea water according to an embodiment of the present invention to be.

As shown in FIGS. 1 and 2, in the ship disinfection system using seawater according to an embodiment of the present invention, a common disinfectant necessary for each use place in the ship can be produced from seawater.

Such a ship disinfection system may include a seawater supply unit 100, an electrolysis unit 200, a reservoir 300, a transfer pipe 440 and a control valve 510.

Specifically, the seawater supply unit 100 is configured to receive seawater from the sea. The seawater supply unit 100 may include a seed chest 110 in which seawater is introduced, and a feed pump 120 that provides a pressure for introducing seawater. have.

The configuration of the seed chest 110 and the feed pump 120 corresponds to a conventional seed chest and feed pump configuration for introducing seawater into a ship, and thus a detailed description thereof will be omitted.

The electrolytic unit 200 can electrolyze the seawater supplied from the seawater supply unit 100 to produce the germicide necessary for the use of the vessel from the seawater. While the chlorine gas used as a disinfectant in the past is a high-pressure toxic gas which is dangerous, the disinfectant produced in the electrolytic unit 200 according to the present embodiment is a safe sterilizing agent that uses seawater to exclude the risk of conventional chlorine gas have.

The electrolysis unit 200 may include a main body 230, a first sterilizing agent producing unit 210 for producing a fresh water sterilizing agent from seawater, and a second sterilizing agent producing unit 220 for producing other sterilizing agent from seawater. have. Here, the fresh water sterilizing agent can be defined as a sterilizing agent for sterilizing necessary drinking water in a ship, and the other sterilizing agent is a sterilizing agent used for preventing other contaminated water other than drinking water, such as sewage, ship ballast water, Can be defined.

The main body 230 is a case constituting the electrolysis unit 200. The main body 230 is provided with a discharge tube 420 for discharging the hydrogen generated in the first sterilizing agent generator 210 and the second sterilizing agent generator 220 A supply pipe 410 for receiving seawater, and a connection pipe 430 for supplying a sterilizing agent to the reservoir 300. The first sterilizing agent generating unit 210 and the second sterilizing agent generating unit 220 may be provided in the body 230.

The first germicide generator 210 can generate a fresh water germicide containing hypochlorous acid (HOCl), chlorine dioxide (ClO ₂ ) and ozone (O ₃ ) using a titanium electrode coated with platinum and iridium metal . The chemical reaction formula generated at the anode of the first bactericide generator 210 is shown in Reaction Scheme 1 below.

<Reaction Scheme 1>

The fresh water sterilizing agent produced in the reaction formula 1 is suitable as a disinfectant for disinfecting drinking water since it does not have a chlorine odor at a usual use concentration (2 to 3 ppm) and does not show a chlorine taste even at a relatively high injection amount. This fresh water microbicide may be temporarily stored in the reservoir 300 and then supplied to the place of use (fresh water sterilization equipment) where fresh water sterilant is needed.

The second germicide generating part 220 can produce other germicide containing sodium hypochlorite (NaOCl) by the chemical reaction between the chlorine gas generated from the titanium electrode and caustic soda (NaOH). The chemical reaction equation generated in the second germicide generator 220 is shown in the following Reaction Scheme 2.

<Reaction Scheme 2>

The other sterilizing agent produced in the second sterilizing agent generator 220 is temporarily stored in the reservoir 300 and then supplied to the application site where the other sterilizing agent is required (sewage treatment equipment, ship ballast water treatment equipment, .

In this embodiment, the first germicidal agent generator 210 generates a fresh water sterilizing agent using a titanium electrode coated with platinum and iridium metal, and the second germicidal agent generator 220 generates chlorine gas generated from a titanium electrode Although other chemical sterilizing agents are produced through the chemical reaction of soda, in addition to titanium electrodes for the production of fresh water sterilizing agents and other disinfectants, other types of electrodes having functions similar to those of titanium electrodes can be used.

The control valve 510 is a valve for selectively supplying a sterilizing agent (fresh water sterilizing agent or other sterilizing agent) produced in the electrolysis unit 200 to any storage tank in the reservoir 300, And may be installed in a connection pipe 430 connecting between the tanks. At this time, the connection pipe 430 may be provided with a connection pump 501 for pumping the sterilizing agent produced by the electrolysis unit 200 to the reservoir 300.

For example, when the fresh water sterilizing agent is to be stored in the first storage tank 310 of the reservoir 300, the control valve 510 may be connected to the first reservoir tank 310, The fresh water sterilizing agent produced by the first sterilizing agent generator 210 can be supplied to the first storage tank 310 by opening the flow path of the fresh water sterilizing agent. When the germicide is to be stored in the second storage tank 320, the control valve 510 opens the connection pipe connecting the second sterilizing agent generator 220 and the second storage tank 320, The second sterilizing agent produced by the sterilizing agent generator 220 may be supplied to the second storage tank 320.

The reservoir 300 may be provided with a sterilizing agent from the electrolysis unit 200 through a connection pipe to a storage tank for temporarily storing the produced sterilizing agent. The reservoir 300 may include a first storage tank 310 storing the fresh water sterilizing agent and a second storage tank 320 storing the other sterilizing agent.

The inlet of the first storage tank 310 is connected to the electrolysis unit 200 through a connection pipe 430 and the outlet of the first storage tank 310 is connected to the use portion of the fresh water sterilizing agent through the transfer pipe 440 (Beverage supply equipment). The inlet of the second storage tank 320 is connected to the electrolytic unit 200 through the connection pipe 430 and the outlet of the second storage tank 320 is connected to the use of the other sterilizing agent (Sewage treatment equipment, ship ballast water treatment equipment, marine life prevention equipment ...).

The transfer pipe 440 is a pipe for supplying the sterilizing agent in the reservoir 300 to use, and can connect the storage tank of the reservoir 300 and the use place. The transfer pipe (440) may be provided with a transfer pump (502) for pumping the sterilizing agent in the storage tank to the use place.

3 is a block diagram illustrating a ship disinfection system using seawater according to another embodiment of the present invention.

3, in a seawater sterilization system using seawater according to another embodiment of the present invention, the reservoir 300 includes a first storage tank 310, a second storage tank 320, and a third storage tank 330).

The other components except for the third storage tank 330, for example, the seawater supply unit 100, the electrolysis unit 200, the reservoir 300, the transfer pipe 440, the control valve 510, The configuration of the first storage tank 310 and the second storage tank 320 is the same as the configuration of the storage 300, the transfer pipe 440, the control valve 510, the first storage tank 310, And therefore, a detailed description thereof will be omitted.

The third storage tank 330 may be a mixed sanitizer mixed with a fresh water sterilizing agent and other sterilizing agents. At this time, the fresh water sterilizing agent and other sterilizing agents may be mixed at predetermined ratios.

To this end, the connection pipe 430 may be provided with a first control valve 520 and a second control valve 530.

The first control valve 520 and the second control valve 530 connect the connection pipe 430 of the first sterilizing agent generator 210 and the connection pipe 430 of the second sterilizing agent generator 220, The fresh water sterilizing agent generated in the first sterilizing agent generator 210 is guided to the connection pipe 430 connected to the second sterilizing agent generator 220 or the other sterilizing agent generated in the second sterilizing agent generator 220 is supplied to the first sterilizing agent To the connection pipe 430 to which the generator 210 is connected.

When the fresh water sterilizing agent and the other sterilizing agent are mixed at a predetermined ratio through the first regulating valve 520 and the second regulating valve 530, the mixed sterilizing agent mixed with the fresh water sterilizing agent and the other sterilizing agent, May be provided to the storage tank 330. At this time, the control valve 510 installed on the side of the second storage tank 320 is maintained in the closed state, and the control valve 510 provided on the side of the third storage tank 330 is maintained in the open state.

The mixed germicide stored in the third storage tank 330 can be supplied through the transfer pipe 440 to the use place where the mixed germicide is required.

As described above, the present invention can produce a sterilizing agent that can be used universally for each use site requiring sterilization by using seawater, and can produce a sterilizing agent that can be used in general use through a single system, It is possible to integrally control the hydrogen generated in the electrolysis reaction for the production of the bactericide and to have a better sterilizing performance than chlorine and to have excellent oxidizing power And has an excellent merit that it is effective for the decomposition of organic matter and is excellent in fine cohesion effect, can improve turbidity and coagulant, and can produce a bactericide capable of inhibiting biofilm formation and production from seawater.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, You will understand. For example, a person skilled in the art can change the material, size and the like of each constituent element depending on the application field or can combine or substitute the embodiments in a form not clearly disclosed in the embodiments of the present invention, Of the range. Therefore, it should be understood that the above-described embodiments are to be considered in all respects as illustrative and not restrictive, and that such modified embodiments are included in the technical idea described in the claims of the present invention.

100: Seawater supply unit 200: Electrolysis unit
210: first sterilizing agent producing part 220: second sterilizing agent producing part
300: reservoir 310: first storage tank
320: first storage tank 410: supply pipe
420: discharge pipe 430: connection pipe
440: Transfer pipe

Claims (6)

A seawater supply unit;
An electrolysis unit for electrolyzing seawater supplied from the seawater supply unit to produce a sterilizing agent;
A storage for temporarily storing the produced sterilizing agent; And
A control valve for selectively supplying fresh water sterilant or other sanitizer to any storage tank in the reservoir,
The electrolytic unit
A first germicidal agent producing unit for producing a fresh water sterilizing agent for sterilizing drinking water from the seawater and a second germicidal agent producing unit for producing from the seawater germicide for sterilizing other polluted water except for drinking water,
Wherein the first germicidal agent producing unit produces a fresh water sterilizing agent containing hypochlorous acid, chlorine dioxide, and ozone using the chlorine gas generated from the anode as a base material,
Wherein the second germicide generator produces a germicide comprising sodium hypochlorite through chemical reaction of chlorine gas and caustic soda generated from a titanium electrode,
Wherein the reservoir comprises a first storage tank for storing the fresh water sterilizing agent generated in the first sterilizing agent producing section and a second storage tank for storing the other sterilizing agent generated in the second sterilizing agent producing section, Sterilization system. The method according to claim 1,
The control valve
Wherein the flow path of the connection pipe connecting the first sterilizing agent generating unit and the first storage tank is opened to store the fresh water sterilizing agent produced in the first sterilizing agent producing unit, To the first storage tank,
Wherein the second sterilizing agent is generated by opening the connection pipe connecting the second sterilizing agent generator and the second storage tank when the other sterilizing agent is to be stored in the second storage tank, Ship disinfection system using seawater supplied to storage tank. 3. The method of claim 2,
The connector
And a connection pump for pumping the sterilizing agent produced in the electrolysis unit to the reservoir is provided. delete The method according to claim 1,
The first storage tank
Connected to the beverage supply equipment,
The second storage tank
Seawater disinfection system using seawater connected to sewage treatment equipment, ship ballast water treatment equipment, marine life prevention equipment. The method according to claim 1,
The storage
Further comprising a third storage tank in which the fresh water sterilizing agent and the other sterilizing agent are mixed at predetermined ratios.

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