KR101194581B1 - Neutralizing agent generation apparatus and ballast water treatment system using the same - Google Patents

Abstract

Disclosed are a neutralizer generating device and a ballast water treatment system using the same. Neutralizer tank for storing neutralizing agent, Neutralizer raw material input unit for injecting neutralizer raw material into the neutralizer tank, Fresh water injection unit for injecting fresh water into the neutralizer tank, Neutralizer raw material grinding unit for pulverizing the input neutralizer raw material, and Pulverized neutralizing agent It includes an agitator installed inside the neutralizer tank to mix the raw material and fresh water in the neutralizer tank.

Description

Neutralizing agent generation apparatus and ballast water treatment system using the same

The present invention relates to a neutralizer generating device and a ballast water treatment system using the same. More specifically, the present invention relates to a neutralizer generating device for producing a neutralizer for neutralizing the active substance generated in the ballast water treatment apparatus and a ballast water treatment system using the same.

In cargo ships carrying crude oil or cargo, ballast tanks are installed to maintain the stability of the hull during navigation. Usually, when oil or cargo is not loaded, the ballast tank is filled with ballast water. Later, when loading crude oil or cargo on cargo ships, ballast water is discharged to adjust the buoyancy of the hull to stabilize the hull.

As such, ballast water is necessary for safe navigation of the ship. Usually, the ballast water uses the seawater of the port which loads and unloads. The amount exceeds 10 billion tons per year worldwide.

By the way, in the ballast water, the eggs of microorganisms and small and large creatures inhabiting the harbor are mixed, and the eggs of these microorganisms and small and large creatures are simultaneously transported to foreign countries as the ship moves. At this time, as the species that originally did not live in the seas attack the existing species and the existing species disappear, the destruction of the ecosystem is getting serious.

In order to prevent the destruction of the ecosystem, cargo ships use a ballast water treatment device to purify the ballast water and discharge the purified ballast water to the sea. By the way, the active material (TRO) is generated in the process of processing the ballast water by the ballast water treatment device of a cargo vessel. Such active materials include, for example, Cl, OCl, HOCl, NH ₄ Cl and the like.

Conventional liquid sodium thiosulfate (Na ₂ S ₂ O ₃ ), sodium sulfite (Na ₂ SO ₃ ), acidic sodium sulfite (NaHSO ₃ ), metajungahe in order to neutralize the active substances generated in the ballast water treatment device of cargo ships Sodium sulfate (Na ₂ S ₂ O ₅ ), ascorbic acid (C ₆ H ₈ O ₆ ), and the like were used. However, liquid sodium thiosulfate (Na ₂ S ₂ O ₃ ) was difficult to maintain a constant concentration of liquid sodium thiosulfate. In addition, liquid sodium thiosulfate (Na ₂ S ₂ O ₃ ) was prone to change to solid sodium thiosulfate during long-term storage. In order to keep the sodium thiosulfate in such a liquid at a constant concentration, to prevent precipitation, and to store for a long time, a stirrer and a heating device have been conventionally installed in a vessel.

However, the installation of stirrers and heaters in ships requires a lot of space for stirrers and heaters. In addition, large tanks were needed to store liquid sodium thiosulfate in cargo ships.

Therefore, in order to use the conventional ballast water treatment device, there is a problem that a large amount of space is required for installing not only the ballast water treatment device but also an stirrer and a heating device, and additional equipment such as a large-capacity liquid sodium thiosulfate storage tank.

Embodiments of the present invention are to provide a neutralizer generating device and a ballast water treatment system using the same to make a neutralizer in a liquid state for neutralizing the active material generated in the ballast water treatment apparatus.

In addition, an embodiment of the present invention is to provide a neutralizer generating device that does not require a lot of installation space in the vessel.

According to an aspect of the present invention, a neutralizing tank for storing a neutralizing agent, a neutralizer raw material input unit for injecting a neutralizing agent raw material solid into the neutralizing tank, a fresh water injection unit for injecting fresh water into the neutralizing tank, the injected A neutralizer generating device including a neutralizer raw material grinding unit for pulverizing a neutralizer raw material and a stirrer installed inside the neutralizer tank to mix the crushed neutralizer raw material and the fresh water in the neutralizer tank may be provided.

At this time, the neutralizer raw material grinding unit is a motor installed on one side of the neutralizer tank, a rotating body rotatable in the neutralizer tank by the motor, one side is fixed to the inner surface of the neutralizer tank, the other side is the outer peripheral portion of the rotating body And a stationary body positioned adjacent to each other, wherein the neutralizer raw material may be formed to be pulverized while passing between the rotor and the stationary body.

In addition, the neutralizer raw material input portion is located on the upper side of the neutralizer tank, the neutralizer raw material may be formed to be injected in the direction of gravity.

In addition, the motor is located on the upper side of the neutralizing tank, the rotating shaft for rotating the rotating body may be formed in a direction perpendicular to the bottom surface of the neutralizing tank.

In addition, the stirrer may be located at one end of the rotating shaft of the motor, the lower side of the neutralizer tank.

In addition, the fresh water injection unit is located on the upper side of the neutralizer tank, the fresh water injected from the fresh water injection unit may be formed to contact the neutralizing agent raw material before the neutralizer raw material passes between the rotating body and the fixed body.

In addition, the neutralizing tank may further include a water level sensor installed inside the neutralizing tank to measure the level of the neutralizing agent stored in the neutralizing tank.

The neutralizer raw material grinding unit may be disposed between the rotating body and the stirrer and connected to the rotating shaft of the rotating body and the stirrer, and the transmission may be configured such that the rotating speed of the rotating shaft of the rotating body and the rotating speed of the rotating shaft of the stirrer are different. It may further include.

According to another aspect of the invention, the step of injecting a solid neutralizer raw material into the neutralizing tank, the step of introducing fresh water into the neutralizing tank, the step of pulverizing the solid neutralizer raw material mixed with fresh water in the neutralizing tank; A neutralizer production method may be provided, including stirring the neutralizer raw material of the liquid in the neutralizer tank.

At this time, the grinding and stirring may be performed at the same time.

According to another aspect of the present invention, a storage tank for storing a solid neutralizer raw material, a neutralizer generating device for pulverizing the solid neutralizer raw material and mixed with fresh water to produce a liquid neutralizer and the neutralizer produced in the neutralizer generating device Ballast water comprising a neutralizer injection pump for injecting the neutralizer into the ballast water pipe, pulverizing the solid neutralizer raw material and mixed with fresh water to produce a liquid neutralizer, and neutralizing the active material of the ballast water using the neutralizer Processing systems may be provided.

In this case, the ballast water treatment system may further include an active material measuring sensor for measuring the concentration of the active material of the ballast water.

In addition, the ballast water treatment system may further include an input control unit for adjusting the injection amount of the neutralizer injected into the ballast water pipe by adjusting the speed of the neutralizer injection pump according to the measured concentration of the active substance.

The neutralizer generating device according to an embodiment of the present invention may immediately grind a solid neutralizer raw material whenever necessary to generate a neutralizer in a liquid state.

In addition, the neutralizing agent generating device according to an embodiment of the present invention does not require a large capacity for storing a large amount of liquid sodium thiosulfate because the neutralizing agent raw material storage space does not require much, and thus the installation space of the neutralizing agent generating device Can save.

1 is a schematic configuration diagram of a neutralizer generating device according to an embodiment of the present invention.
Figure 2 is a schematic configuration diagram including a transmission in the neutralizer raw material grinding unit of the neutralizer generating apparatus according to an embodiment of the present invention.
3 is a flowchart of a neutralizer generation method using the neutralizer generating device according to an embodiment of the present invention.
4 is a schematic configuration diagram of a ballast water treatment system including a neutralizer generating device according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, configurations and operations of embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic configuration diagram of a neutralizer generating device according to an embodiment of the present invention. Figure 2 is a schematic configuration diagram including a transmission in the neutralizer raw material grinding unit of the neutralizer generating apparatus according to an embodiment of the present invention.

1, the neutralizer generating apparatus according to an embodiment of the present invention, the neutralizer tank 170, the neutralizer raw material input unit 140, fresh water injection unit 150, neutralizer raw material grinding unit 120, agitator 110 ), The water level sensor 130, and a controller (not shown).

The neutralizing tank 170 stores the generated neutralizing agent. Referring to Figure 1, the neutralizer tank 170 is a hollow cylindrical shape. The neutralizer generating device according to an embodiment of the present invention stores the neutralizer generated in the empty space inside the neutralizer tank 170 and then sends the neutralizer out of the neutralizer tank 170 through the outlet.

The neutralizer raw material input unit 140 injects a solid neutralizer raw material into the neutralizer tank 170. In an embodiment of the present invention, the neutralizer raw material input unit 140 is located on the upper side of the neutralizer tank 170. Accordingly, the neutralizer raw material is introduced into the neutralizer tank from the upper side to the lower side as seen in FIG. 1 in the gravity direction.
Solid sodium thiosulfate can be used as a solid neutralizer raw material.

Referring to FIG. 1, the neutralizer raw material input unit 140 is open at an upper portion thereof, and a lower portion thereof is connected to an upper portion of the neutralizer tank 170. Although not shown in the figure, the neutralizer raw material input unit 140 may further include a tank (not shown) storing the neutralizer raw material. The tank may be installed higher than the neutralizer tank 170 by a support (not shown) so that the neutralizer raw material may be introduced in the gravity direction. According to an embodiment of the present invention, the neutralizer raw material injection unit 140 is installed on the upper portion of the neutralizer tank 170, but the neutralizer raw material injection unit 140 is located at a position higher than the neutralizer raw material grinding unit 120. It will be possible to change the position freely within the range that can be practiced by those skilled in the art. For example, the neutralizer raw material input unit 140 may be located on the side of the neutralizer tank 170 and may be formed higher than the neutralizer raw material grinding unit 120.

The reason why the neutralizer raw material input unit 140 is located at a position higher than the neutralizer raw material grinding unit 120 is that when the neutralizer raw material is introduced into the neutralizer raw material grinding unit 120 using gravity, no other power source is required. This is because the neutralizer raw material can be efficiently introduced into the neutralizer raw material grinding unit 120.

On the other hand, the neutralizer raw material input unit 140 may include a known opening and closing means for adjusting the amount of the neutralizer raw material to be injected into the neutralizer tank 170. For example, a neutralizer control valve may be installed under the neutralizer raw material input unit 140 to adjust the amount of neutralizer raw material introduced into the neutralizer tank 170.

The fresh water injection unit 150 is a component for introducing fresh water into the neutralizer tank 170. Referring to FIG. 1, in one embodiment of the present invention, the fresh water injection unit 150 is formed to be located on the right side of the upper portion of the neutralizer tank. At this time, the fresh water injection unit 150 may be located at any position if the upper side of the neutralizer raw material grinding unit 120, that is, the fresh water can be supplied to the neutralizer raw material grinding unit 120 when viewed in the raw material flow direction. will be. However, when the neutralizer raw material grinding unit is located on the upper side as in the embodiment of the present invention, the fresh water may freely fall into the neutralizer raw material grinding unit 120 to be described later. Can be added easily.

On the other hand, when the fresh water injected through the fresh water injection unit 150 meets the solid neutralizer raw material, the solid neutralizer raw material melts while heat is generated in the solid neutralizer raw material. When the solid neutralizer raw material melts while generating heat, the strength of the solid neutralizer raw material is weakened. Therefore, the neutralizer raw material of the weakened hardness is more quickly pulverized by the neutralizer raw material grinding unit 120 to be described later.

Although not shown, the fresh water injection unit 150 is a fresh water storage unit for storing fresh water, a fresh water supply pump for supplying fresh water from the fresh water storage unit, and a neutralizer tank to adjust the amount of fresh water supplied by the fresh water supply pump. It may include a fresh water inlet control valve installed on one side of the. In this case, the amount of fresh water introduced into the neutralizer tank may be adjusted in consideration of the amount of the neutralizer raw material input from the neutralizer raw material input unit.

On the other hand, the neutralizer generating apparatus according to an embodiment of the present invention has the same position as the fresh water injection portion and the neutralizer raw material injection portion, the fresh water injection portion 150 is located below the neutralizer raw material injection portion 140. can do. In such a configuration, first, the neutralizing agent raw material is freely dropped from the neutralizer raw material input unit 140, and then charged into the neutralizing tank. Then, the fresh water is freely dropped from the fresh water injection unit 150 and supplied to the neutralizing tank. As a result, it may be supplied to the neutralizer raw material grinding unit 120 to be described later in a solid neutralizer raw material and the fresh water mixed state. As described above, when the solid neutralizer raw material and the solid neutralizer raw material are mixed and mixed with fresh water before the solid neutralizer raw material and the fresh water are introduced into the neutralizer raw material pulverization unit 120 described later, the solid neutralizer raw material is dissolved by the fresh water to obtain the neutralizer raw material. Strength is weakened. Accordingly, the neutralizer raw material may be more easily crushed by the neutralizer raw material grinding unit 120 described later.

The neutralizer raw material grinding unit 120 grinds the solid neutralizer raw material into powder. Referring to FIG. 1, the neutralizer raw material grinding unit 120 of the neutralizer generating device according to an embodiment of the present invention may include a motor 123, a rotating body 122, a fixing body 121, and a rotating shaft 124. Can be.

Referring to Figure 1, the motor 123 is installed in the central portion of the upper side of the neutralizer tank. The motor 123 is connected to the rotating shaft 124 to rotate the rotating shaft 124. The rotating shaft is formed to extend in the downward direction inside the neutralizer tank. The rotating body 122 is installed on the rotating shaft. When the motor 123 rotates the rotating shaft 124, the rotating body installed on the rotating shaft rotates. The rotating body may be formed to have, for example, a circular cross section, but is not limited thereto. The fixing body 121 is fixed to the inner side of the neutralizing tank 170, the other side is positioned adjacent to the outer peripheral portion of the rotating body 122 is engaged with the rotating body 122 while the solid neutralizer raw material as a fine powder Make. To this end, the fixture may be formed in a structure having a ring-shaped cross section surrounding the outer circumference of the rotating body, but is not limited thereto.

Neutralizer raw material grinding unit 120 of the neutralizer generating device according to an embodiment of the present invention is configured such that the motor 123 for rotating the rotating body is located on the upper side of the neutralizing tank 170, the rotating body ( A rotating shaft 124 for rotating 122 extends into the neutralizer tank, and is formed in a direction perpendicular to the bottom surface of the neutralizer tank 170. However, the location of the neutralizer raw material grinding unit of the neutralizer generating device is exemplary. It is just that, if the neutralizing raw material and fresh water supplied to the position where the neutralizing raw material can be pulverized it may be located at any position. For example, the rotating shaft to which the rotating body is connected is not formed perpendicular to the neutralizer tank 170, but the rotating shaft for rotating the rotating body may be formed to be horizontal with the bottom surface of the neutralizing tank 170.

Specifically, the rotating shaft 134 is formed in a direction parallel to the bottom surface of the neutralizing tank 170, the rotating body 122 formed on the rotating shaft in a direction parallel to the bottom surface of the neutralizing tank 170. Can be formed. In addition, the fixing body 121 may also be formed in a direction parallel to the bottom surface of the neutralizer tank 170 corresponding to the rotating body. In this state, when the solid neutralizer raw material and the fresh water free fall by gravity force and are supplied to the neutralizer raw material grinding unit, the rotating body of the neutralizer raw material grinding unit in which the free fall solid neutralizer raw material is formed parallel to the bottom surface of the neutralizer tank ( 122 may be crushed between the fixture 121.

On the other hand, the neutralizer raw material pulverized in the neutralizer raw material pulverization portion is melted by fresh water, that is, falls to the lower side inside the neutralizer tank in a liquid state. As such, the neutralizing agent in the liquid state dropped to the inside of the neutralizing tank is stored in the neutralizing tank, and is formed to be mixed by the stirrer 110 at this time.

Referring to FIG. 1, the stirrer 110 of the neutralizer generating device according to an embodiment of the present invention is located at one end of the rotation shaft 124 of the motor 123, and the lower side inside the neutralizer tank 170. Located in And the rotation axis of the stirrer 170 is formed in a direction perpendicular to the bottom surface of the neutralizer tank 170.

The stirrer 110 of the neutralizer generating device according to an embodiment of the present invention may include a plurality of blades. A plurality of blades may be coupled to the rotating shaft while being symmetrical about the rotating shaft 124. When the rotating shaft 124 is rotated by a motor, the blade coupled around the rotating shaft 124 is rotated to mix the neutralizing raw material of the liquid and fresh water to make the concentration of the neutralizing agent homogeneous.

On the other hand, the rotation axis of the stirrer of the neutralizer generating device of the embodiment of the present invention is formed perpendicular to the bottom surface of the neutralizer tank, in contrast, the rotation axis of the stirrer 110 is horizontal to the bottom surface of the neutralizer tank 170 Can be installed as. Although not shown in the figure, in this case, it can be configured using two motors. For example, one motor can be used as a power source for rotating the neutralizer raw material grinding unit 120. The other motor may be used as a power source for rotating the stirrer 110. Here, the motor for rotating the stirrer may be installed on the side of the neutralizer tank 170 so that the rotating shaft of the stirrer 110 may be installed in a horizontal direction on the bottom surface of the neutralizer tank 170. In addition, another motor for rotating the stirrer may be installed on the lower surface of the neutralizer tank 170 to rotate the stirrer 110. In this case, the rotating shaft of the stirrer is formed perpendicular to the bottom surface of the neutralizer tank, and the motor for rotating the neutralizer raw material grinding unit may be separately located on one side of the neutralizer tank.

On the other hand, the neutralizer generating device according to an embodiment of the present invention, since the rotating body and the stirrer is configured to rotate by the same rotary shaft, the stirrer for stirring the rotational speed and the neutralizing agent of the rotating body for pulverizing the solid neutralizer raw material The rotational speed of is configured to be the same. However, by installing a device such as a known transmission so that the rotational speed of the rotating body and the stirrer can be adjusted differently on the rotating shaft, the rotating speed of the rotating body and the stirrer connected to the rotating shaft may be configured differently.

Referring to FIG. 2, the transmission 180 may be located between the rotating body 122 and the stirrer 110 and may be connected to the rotating shaft of the rotating body 122 and the stirrer 110. The transmission 180 may include a plurality of gears having different gear ratios in order to vary the rotation speed of the rotating body 122 and the rotation speed of the stirrer 110. At this time, although not shown in the drawing, when the small gear is connected to the rotating shaft of the rotating body and the large gear is connected to the rotating shaft of the stirrer, the rotation speed of the rotating shaft connected to the stirrer may be lower than the rotation speed of the rotating shaft connected to the rotating body. Thereby, the stirrer rotates at a low speed, and the rotating body can rotate at a higher speed than the stirrer.

On the other hand, the water level sensor 130 is located on one side inside the neutralizer tank. The water level sensor 130 measures the level of the neutralizer, which is a mixture of the neutralizer raw material and the fresh water of the liquid in the neutralizer tank 170. According to an embodiment of the present invention, the water level sensor of the neutralizer generating device is installed on the side of the interior of the neutralizer tank 170.

Meanwhile, according to one embodiment of the present invention, a control unit may be provided to adjust the level of the neutralizer in the neutralizer tank measured from the water level sensor. The controller (not shown) may receive the level of the neutralizing agent from the water level sensor 130 to maintain the amount of the neutralizing agent present in the neutralizing tank 170 between the lowest amount and the highest amount.

When the water level of the neutralizer falls below the lowest water level, the control unit transmits an input signal to the neutralizer raw material input unit 140 and the fresh water injection unit 150. The neutralizer raw material input unit 140 and the fresh water injection unit 150 receiving the input signal may be controlled to supply the neutralizer raw material and the fresh water into the neutralizer tank 170.

And when the level of the neutralizing agent rises above the highest water level, the control unit transmits the input blocking signal to the neutralizer raw material injection unit 140 and the fresh water injection unit 150. The neutralizer raw material input unit 140 and the fresh water injection unit 150 which have received the input stop signal may be controlled to stop the supply of the neutralizer raw material and the fresh water into the neutralizer tank 170.

Hereinafter, a neutralizing agent generating method using the neutralizing agent generating device as described above will be described.

Figure 3 is a flow chart of the neutralizer production method using a neutralizer production apparatus according to an embodiment of the present invention.

Referring to FIG. 3, when a neutralizing agent is to be generated by using the neutralizing agent generating device according to an embodiment of the present invention, first, a solid neutralizing agent raw material is introduced into the neutralizing tank (S110). Then fresh water is put into the neutralizer tank (S120). As described above, the solid neutralizer raw material and the fresh water may be introduced in the direction of gravity.

Next, the neutralizer raw material of the solid mixed with fresh water in the neutralizer tank is pulverized (S130). When fresh water and a solid neutralizer raw material are mixed, the solid neutralizer raw material is melted while generating heat.

While the solid neutralizer raw material and the fresh water are mixed and the solid neutralizer raw material melts while heating, the solid neutralizer raw material is pulverized into fine powder. As the solid neutralizing agent raw material is pulverized into fine powder, the surface area where the neutralizing raw material and the fresh water react is gradually reduced. As the surface area of solid neutralizing agent reacts with fresh water, the solid neutralizing agent raw material dissolves faster in fresh water.

After that, the liquefied neutralizing agent is stored in the neutralizing tank, and stirred by the stirrer (S140). In the neutralizer generating method using the neutralizer generating device according to an embodiment of the present invention, although the neutralizer raw material and the fresh water were stirred using the stirrer 110 having a vertical height fixed, in order to make the concentration of the neutralizing agent more homogeneous, The stirrer which stirs the liquid neutralizer raw material and the fresh water may be moved upward and downward. By moving the stirrer in the up and down direction inside the neutralizing tank, the liquid neutralizing agent can be maintained homogeneously.

On the other hand, since the rotating body and the stirrer are connected to one rotating shaft so that the rotating body and the stirrer rotate at the same time, the neutralizing agent generating method using the neutralizing agent generating apparatus according to an embodiment of the present invention is the step of grinding and stirring Can be done simultaneously.

On the other hand, the neutralizer fresh growth value according to an embodiment of the present invention can be used in the ballast water treatment system 200 in which the active material is generated when treating the ballast water. 4 is a schematic diagram of a ballast water treatment system including a neutralizer generating device according to an embodiment of the present invention. 4, the ballast water treatment system 200 including the neutralizer generating device according to an embodiment of the present invention includes a neutralizer generating device 220, a storage tank 210, a neutralizer injection pump 240, and a ballast water. The pipe 250, the active material measuring sensor 260 and the input control unit 230 may be configured.

In more detail, the neutralizer generator 220 grinds the solid neutralizer raw material into powder and stirs with fresh water to produce a neutralizer of the liquid. Since the neutralizer generating device has been described above, a detailed description thereof will be omitted.

Storage tank 210 stores a solid neutralizer raw material. Referring to FIG. 4, the storage tank 210 is located above the neutralizer generating device 220. The reason why the storage tank 210 is located above the neutralizer generator 220 is because, without adding additional components to the ballast water treatment system, the solid neutralizer raw material is freely dropped by gravity to efficiently neutralize the generator. Because it is put into.

The neutralizing agent injection pump 240 is introduced into the ballast water pipe 250 to be described later to the neutralizing agent of the liquid generated by the neutralizer generating device.

The ballast water pipe 250 flows the ballast water containing the active material. The ballast water containing the active substance flowing in the ballast water pipe 250 is mixed with the neutralizing agent of the liquid introduced into the ballast water pipe 250.

The active material measuring sensor 260 measures the concentration of the active material contained in the ballast water. The active material measuring sensor 260 is installed inside the ballast water pipe 250.

The input control unit 230 receives the concentration of the active material from the active material measuring sensor 260 and adjusts the speed of the neutralizer injection pump 240 according to the concentration value of the active material into the ballast water pipe 250 The amount of neutralizing agent to be adjusted can be controlled.

When the ballast water containing the active substance is discharged through the ballast water pipe 250, the ballast water treatment system including the neutralizer generating device according to an embodiment of the present invention is injected with a neutralizing agent generated in the neutralizer generating device 220 It is injected into the ballast water pipe 250 through the pump 240.

Accordingly, the neutralizer reacts with the active material to change the active material into a stable material. Thereafter, the active material measuring sensor 260 measures the concentration of the active material contained in the ballast water flowing in the ballast water pipe 250 and delivers it to the input control unit 230. The neutralizer injection amount is adjusted by adjusting the speed of the neutralizer injection pump 240 according to the concentration value of the active substance measured by the input control unit 230.

On the other hand, when the neutralizing agent is introduced into the ballast pipe 250, sodium thiosulfate dissolved in the neutralizing agent reacts with the active material (Cl, OCl, HOCl, NH ₄ Cl) in the ballast water. The reaction scheme of sodium thiosulfate and active substance is shown below.

① Na ₂ S ₂ O ₃ + 4 Cl ₂ + 5H ₂ O → 2NaCl + 2H ₂ SO ₄ + 6 HCl

② Na ₂ S ₂ O ₃ + 4OCl + H ₂ O → 2NaCl + 2SO ₄ + 2HCl

③ Na ₂ S ₂ O ₃ + 4HOCl + H ₂ O → 2NaHSO ₄ + 4HCl

④ Na ₂ S ₂ O ₃ + HOCl → Na ₂ SO ₄ + S + HCl

⑤ 2Na ₂ S ₂ O ₃ + HOCl → Na ₂ S ₄ O ₆ + NaCl + NaOH

⑥ Na ₂ S ₂ O ₃ + 4NH ₂ Cl + 5H ₂ O → 2NaHSO ₄ + 4NH ₄ Cl

According to the above reaction formula, the active substance in the ballast water reacts with the sodium thiosulfate of the liquid in the neutralizing agent to be converted into a stable substance and is discharged.

On the other hand, in one embodiment of the present invention has been described as using sodium thiosulfate as a neutralizer raw material, but is not limited thereto.

The neutralizer generating device as described above has been described as being used for the purpose of generating a liquefied neutralizer by pulverizing the neutralizer raw material in the previous embodiment, but is not necessarily limited to this, various uses depending on the raw material to be added It can be used as a solution generating device of. In this case, the solution generating device may grind the solid solute into powder and react the powder with a solvent to generate a liquid solution.

Such a solution generating device, as an example, may be applied to an onshore water treatment system that supplies a constant water to a home, and may be replaced with a solution generating device for the injection facility of a liquid chemical in the water treatment system. . In such a solution generating device, the solid coagulant and the slaked lime may be configured to be made into a liquid solution and injected into the mixed paper.

Further, as another embodiment, the solution generating device may be applied to the purified water and sterilized water production system. The purified water and sterilized water production system is configured to remove suspended solids, organic matter and residual chlorine components in the feed water. And to supply the sterilizing water production system. As described above, the configuration of the neutralizing agent generating device according to an embodiment of the present invention may be used for any purpose as long as it is not only for generating the neutralizing agent but also for the purpose of pulverizing and liquefying a solid raw material. The use may be applied in various ways.

Although the embodiments of the present invention have been described above with reference to the accompanying drawings, those skilled in the art may implement the present invention in other specific forms without changing the technical spirit or essential features of the present invention. You will understand that. The embodiments described above are therefore to be considered in all respects as illustrative and not restrictive.

100: neutralizer generating device 110: agitator
120: neutralizer raw material grinding unit 121: fixed body
122: rotating body 123: motor
124: rotation axis 130: water level sensor
140: neutralizer raw material injection unit 150: fresh water injection unit
170: neutralizing tank 180: transmission
200: ballast water treatment system 210: storage tank
220: neutralizer generating device 230: input control unit
240: neutralizer injection pump 250: ballast water pipe
260: active substance measuring sensor

Claims (9)

A neutralizing tank for storing the neutralizing agent;
A neutralizer raw material input unit for introducing a neutralizer raw material into the neutralizer tank;
Fresh water injection unit for injecting fresh water into the neutralizer tank;
A neutralizer raw material pulverizing unit for grinding the injected neutralizing agent raw material; And
An agitator installed inside the neutralizer tank to mix the pulverized neutralizer raw material and the fresh water in the neutralizer tank.
Comprising a neutralizer generating device.
The method of claim 1,
The neutralizer raw material grinding unit motor installed on one side of the neutralizer tank;
A rotating body rotatable in the neutralizer tank by the motor;
One side is fixed to the inner surface of the neutralizer tank, and the other side includes a fixture positioned to be adjacent to the outer peripheral portion of the rotating body,
And the neutralizer raw material is pulverized while passing between the rotating body and the fixed body.
The method of claim 2,
The fresh water injection unit is located on the upper side of the neutralizing tank, the fresh water injected from the fresh water injection unit is formed to contact the neutralizing agent raw material before the neutralizing agent raw material passes between the rotating body and the fixed body.
The method of claim 1,
And a water level sensor installed in the neutralizer tank and measuring a level of the neutralizer stored in the neutralizer tank.
The method of claim 4, wherein
And a control unit for controlling at least one of the neutralizer raw material injection unit and the fresh water injection unit according to the measured water level.
The method of claim 2,
The neutralizer raw material grinding unit is disposed between the rotating body and the stirrer and connected to the rotating shaft of the rotating body and the stirrer, and further comprising a transmission such that the rotating speed of the rotating shaft of the rotating body and the rotating shaft of the stirrer are formed differently. Neutralizer generator. In the ballast water treatment system,
A storage tank for storing the neutralizer raw material;
The neutralizer generating device according to any one of claims 1 to 6, wherein the neutralizer raw material is pulverized and mixed with fresh water to produce a liquid neutralizer. And
Neutralizer injection pump for injecting the neutralizer produced in the neutralizer generating device into the ballast water pipe
Including,
Ballast water treatment system for neutralizing the active material of the ballast water using the neutralizing agent.
8. The method of claim 7,
The ballast water treatment system,
Ballast water treatment system further comprises an active material measuring sensor for measuring the concentration of the active material of the ballast water.
The method of claim 8,
The ballast water treatment system,
The ballast water treatment system further comprises an input control unit for controlling the amount of neutralizer injected into the ballast water pipe by adjusting the speed of the neutralizer injection pump according to the measured concentration of the active substance.

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