KR101973485B1 - Concentrated water treatment system - Google Patents

Abstract

An invention relating to a concentrated water treatment system is disclosed. The disclosed concentrated water treatment system includes a first cooling processing unit that is cooled so that the introduced first concentrated water is discharged to the second concentrated water and ice, and a second cooling processing unit connected to the first cooling processing unit to separate the second concentrated water and the ice 1 separation processing unit, and a condensate water reservoir connected to the first separation processing unit and discharging the synthetic concentrated water when the salt concentration of the synthetic concentrated water including the second concentrated water reaches a set value, And a second separation processing unit connected to the second cooling processing unit and the second cooling processing unit for cooling the incoming synthetic concentrated water to be discharged into the third concentrated water and the ice and the salt and for separating the incoming third concentrated water and the ice and salt, And the third concentrated water generated in the second separation processing section is recycled to the concentrated water storage section.

Description

[0001] CONCENTRATED WATER TREATMENT SYSTEM [0002]

The present invention relates to a concentrated water treatment system, and more particularly, to a concentrated water treatment system capable of improving fresh water recovery rate and energy efficiency of a desalination system by recirculation of concentrated water.

Due to rapid industrialization and environmental pollution, there is a problem of depletion of water resources. To solve this problem, a seawater desalination system is proposed and related technologies are being developed.

In the seawater desalination system using membrane separation method, seawater is separated into fresh water and concentrated water. Fresh water is used for living water or industrial water, and concentrated water is processed or discharged to ocean and river.

It takes a lot of cost to process such concentrated water. When it is discharged, it causes environmental pollution problem. In the method of treating with electricity, toxic byproducts are generated by electric stimulation and affect the environment.

Indirect freezing method and indirect freezing method are used to treat the concentrated water. In case of indirect freezing method, the purity of ice is low and the recovery rate is decreased. In eutectic point freezing method, eutectic point is 23.3% for NaCl, , The temperature is -21 ° C, and the preconditioning step is required in order to satisfy the condition, which causes energy and cost loss.

BACKGROUND ART [0002] The background art of the present invention is disclosed in Korean Patent Registration No. 10-0328026 (registered on Feb.22, 2002, entitled " Concentrated Water Cooling and Scale Removal Method in Membrane System).

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems and it is an object of the present invention to provide a concentrated water treatment system capable of improving the fresh water recovery rate and the energy efficiency of the desalination system without requiring discharge of concentrated water outside the desalination system, The purpose is to provide.

A concentrated water treatment system according to the present invention is characterized by comprising: a first cooling processing unit that is cooled so that the introduced first concentrated water is discharged to the second concentrated water and ice; A first separation processing unit connected to the first cooling processing unit and separating the second concentrated water flowing in and the ice; A condensate water reservoir connected to the first separation processing unit and discharging the synthetic concentrated water when the salt concentration of the synthetic concentrated water including the second concentrated water reaches a set value; A second cooling processing unit connected to the thickened water reservoir and cooled and processed so that the introduced synthetic concentrated water is discharged into the third concentrated water and ice and salt; And a second separation processing unit for separating the third concentrated water and the ice and the salt introduced into the second cooling processing unit from each other, and the third concentrated water generated in the second separation processing unit, And is recycled to the concentrated water storage section.

In the present invention, the concentrated water treatment system may further include a salt storage part for receiving the salt generated in the second separation processing part and connected to the concentrated aqueous solution to supply the salt.

In the present invention, the concentrated water storage part may include: a concentrated water storage tank part storing the synthetic concentrated water; And a concentration sensor part installed in the concentrated water storage tank part and measuring the salt concentration of the synthetic concentrated water.

In the present invention, the concentrated water storage unit may further include a mixer installed inside the concentrated water storage tank and stirring the synthetic concentrated water.

In the present invention, the concentrated water treatment system may further include a first valve part provided between the concentrated water level sensor and the second cooling treatment part for controlling the flow rate of the third concentrated water, the ice and the salt .

In the present invention, the concentrated water treatment system may include: a control unit that receives the electrical signal from the concentration sensor unit and opens the first valve unit when the salt concentration of the synthetic concentrated water measured by the concentration sensor unit reaches a set value; And further comprising:

In the present invention, the concentrated water treatment system may further include a second valve unit disposed between the concentrated water storage unit and the salt storage unit, the second valve unit controlling the flow rate of the salt introduced into the concentrated water storage unit .

In the present invention, the concentrated water treatment system may include: a control unit that receives the electrical signal from the concentration sensor unit and opens the second valve unit when the salt concentration of the synthetic concentrated water measured by the concentration sensor unit is less than a set value; And further comprising:

In the present invention, the concentrated water treatment system may further include: a fresh water storage part connected to the first separation processing part and the second separation processing part and storing the ice separated by the first separation processing part and the second separation processing part, respectively; And a control unit.

The concentrated water treatment system according to the present invention has the effect of preventing the occurrence of environmental problems due to the third concentrated water discharge to the outside of the desalination system because the third concentrated water flows into the concentrated water storage section and is recirculated.

Also, since the third concentrated water is recirculated, it is possible to improve the recovery rate of high-purity water and salt.

Further, the third concentrated water whose temperature has been decreased by the second cooling processing unit due to the recycling of the third concentrated water is supplied again to the second cooling processing unit, and the energy required for reaching the temperature corresponding to the eutectic melting point in the second cooling processing step There is an effect of reducing consumption.

Further, since the temperature of the concentrated water is primarily reduced by the first cooling processing section, there is an effect of reducing the amount of energy consumption required to reach the temperature corresponding to the eutectic point in the second cooling processing step.

In addition, since the salt storage portion supplies the salt to the concentrated water storage portion, the salt concentration of the concentrated water can reach the concentration corresponding to the eutectic point.

In addition, there is an effect that the salt is rapidly mixed with the concentrated water due to the mixer.

1 is a conceptual diagram showing a concentrated water treatment system according to an embodiment of the present invention.
2 is a conceptual diagram illustrating a concentrated water storage unit according to an embodiment of the present invention.
3 is a state diagram showing the recirculation state of the third concentrated water.
4 is a state diagram showing a state in which salt is supplied from the salt storage portion to the thickened water storage portion.
5 is a block diagram illustrating a controller according to an embodiment of the present invention.
FIG. 6 is a flowchart showing the processing steps of the concentrated water treatment system according to an embodiment of the present invention.

Hereinafter, an embodiment of a concentrated water treatment system according to the present invention will be described with reference to the accompanying drawings. In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. Further, terms to be described below are terms defined in consideration of functions in the present invention, which may vary depending on the intention or custom of the user, the operator. Therefore, definitions of these terms should be made based on the contents throughout this specification.

1 is a conceptual diagram showing a concentrated water treatment system according to an embodiment of the present invention. 2 is a conceptual diagram illustrating a concentrated water storage unit according to an embodiment of the present invention. 3 is a state diagram showing the recirculation state of the third concentrated water. 4 is a state diagram showing a state in which salt is supplied from the salt storage portion to the thickened water storage portion. 5 is a block diagram illustrating a controller according to an embodiment of the present invention. FIG. 6 is a flowchart showing the processing steps of the concentrated water treatment system according to an embodiment of the present invention.

1 to 6, a concentrated water treatment system 1 according to an embodiment of the present invention includes a first cooling processing unit 100, a first separation processing unit 200, a condensate water storage unit 300, A first valve unit 700, a second valve unit 750, a control unit 800, and a fresh water storage unit 900. The cooling processing unit 400, the second separation processing unit 500, the salt storage unit 600, the first valve unit 700, do.

Referring to FIG. 1, the first cooling processing unit 100 is configured such that the first concentrated water flows into the first inlet line L10 connected to the front end thereof and is cooled by heat exchange. As a result, And is discharged to the rear end through the first outflow line L20. In the present specification, the front end means the inflow side and the rear end means the discharge side.

In the present invention, the first concentrated water corresponds to the concentrated water that has undergone the reverse osmosis process from the raw water such as wastewater. However, the present invention is not limited to this, and various modifications such as a reverse osmosis process, a solution requiring separation into concentrated water and desalinated ice in a membrane-based seawater desalination system and the like are possible.

Referring to FIG. 1, the first cooling processing part 100 included in part A is processed by an indirect freezing process. The indirect freezing process is a treatment method in which the direct contact between the refrigerant and the first concentrated water is avoided and the rate of contamination by the refrigerant of the first concentrated water can be lowered.

In the present invention, the indirect cooling method is used in the first cooling processing unit 100, but the present invention is not limited thereto. Various modifications may be made within the technical idea of separating the first concentrated water into the second concentrated water and the fresh water It is possible.

1 and 2, a first separation processing unit 200 according to an embodiment of the present invention has a front end connected to a rear end of the first cooling processing unit 100, The second concentrated water is separated from the ice. The second concentrated water is concentrated at a relatively high concentration as compared with the first concentrated water.

In the present invention, the second concentrated water and the ice are separated according to their weight by a reduced pressure separation method. However, the present invention is not limited thereto, and various modifications such as centrifugal separation, electrolysis, separation using a membrane or the like can be performed to separate the second concentrated water containing the salt and the fresh water.

Referring to FIG. 1, the second concentrated water and the desalinated ice separated by the first separation processing unit 200 are respectively flowed into the concentrated water storage unit 300 and the fresh water storage unit 900.

The second concentrated water flows into the concentrated water storage tank 300 through the second outflow line L40 from the rear end of the first separation processing unit 200 and the fresh water is passed through the first fresh water outflow line L30 to the fresh water storage (900). ≪ / RTI >

 Referring to FIGS. 1 and 2, the concentrated water storage tank 300 according to an embodiment of the present invention is connected to the rear end of the first separation processing unit 200 and is stored in the concentrated water storage tank, 310, a concentration sensor unit 320, and a mixer 330. [

The synthetic concentrated water stored in the concentrated water main body 300 according to an embodiment of the present invention includes a second concentrated water and is produced through a second cooling processing unit 400 and a second separation processing unit 500 to be described later The third concentrated water, and the salt discharged from the salt storage part 600. [

When the concentration of the synthetic concentrated water containing the second concentrated water reaches the set value, the concentrated water main body 300 discharges the synthetic concentrated water to the rear end. Concretely, the synthetic concentrated water flows into the second cooling processing unit 400 through the third inflow line L50 connected to the rear end of the concentrated water basin 300. [

1 and 2, a concentrated water storage tank unit 310 according to an embodiment of the present invention stores synthetic concentrated water and is connected to a rear end of the first separation processing unit 200 and a second outflow line L40 And is connected to the rear end of the second separation processing unit 500 through a recirculation line L80 and is connected to the rear end of the salt storage unit 600 through a salt outflow line L100.

1 and 2, the concentration sensor unit 320 according to the embodiment of the present invention is installed in the concentrated water storage tank unit 310, and specifically, the concentration sensor unit 320 is disposed in the concentrated water storage tank unit 310 .

The concentration sensor unit 320 measures the salt concentration of the synthetic concentrated water stored in the concentrated water storage tank unit 310. The concentration sensor 320 measures the salt concentration of the synthetic concentrated water in real time and transmits it to the controller 800 as an electrical signal.

In the present invention, the concentration sensor 320 measures the concentration of the salt in the synthetic concentrated water using the electrical conductivity, but it is not limited thereto, and various modifications such as using an electromagnetic field induction device are possible.

1 and 2, the mixer 330 according to an exemplary embodiment of the present invention is installed in the concentrated water storage tank unit 310 and includes a second Agitation is performed on the synthetic concentrated water in which the concentrated water, the third concentrated water, and the salt are mixed.

Stirring herein means to make two or more materials having different physical or chemical properties into a uniform mixture state by using external mechanical energy.

In the present invention, the mixer 330 is installed on the bottom surface of the concentrated water storage tank portion 310 (see FIG. 2) to stir the mixed concentrated water, but the installation position of the mixer 330 is not limited.

The mixer 330 according to an embodiment of the present invention may be formed in a rotational driving manner by receiving power from the outside.

Referring to FIG. 1, the second cooling processing unit 400 according to an embodiment of the present invention is connected to the rear end of the thickened water level holder 300 to introduce synthetic concentrated water. Cooled to the corresponding set temperature, and flows out to the rear end as the third concentrated water, ice and salt.

Specifically, the second cooling processing unit 400 has a front end connected to the rear end of the condensed water storage unit 300 and a third inflow line L50, and the mixed concentrated water flows in. The rear end of the second cooling processing unit 400 is connected to the second separation processing unit 500 And is connected to the front end and the third outflow line L60 to discharge the third concentrated water, salt, and ice.

Referring to FIG. 1, the second cooling processing part 400 included in the part B is cooled by the eutectic point freezing method. The eutectic point freezing method refers to a specific concentration of eutectic point (EUTECTIC POINT) capable of crystallizing both solute and solvent in a solvent and the corresponding temperature and the corresponding temperature.

Specifically, when the concentration of the concentrated concentrated water stored in the concentrated water storage tank unit 310 is measured by the concentration sensor unit 320 and the salt concentration of the concentrated concentrated water reaches the set value, the second cooling processing unit 400 measures the eutectic The temperature is cooled to below the temperature corresponding to the salt concentration set value.

As a result, the ice and the salt are solidified and precipitated at the eutectic point, and the remainder is separated into the third concentrated water.

The salt contains various kinds of substances (NaCl, Na ₂ SO ₄ and the like), but the eutectic point is set on the basis of the NaCl having the highest content, the concentration sensor unit 320 measures the concentration corresponding thereto, And cooled to a temperature corresponding to the concentration at the corresponding eutectic point.

Referring to FIG. 1, the second separation processing unit 500 according to an embodiment of the present invention is connected to the rear end of the second cooling processing unit 400, and the third concentrated processing unit 400 receives the third concentrated water, Separate the salt.

The front end of the second separation processing unit 500 is connected to the rear end of the second cooling processing unit 400 through the third outflow line L60 and the mixed concentrate is cooled through the third outflow line L60, 3 Concentrated water, ice and salt are introduced.

The second separation processing unit 500 according to an embodiment of the present invention may be separated into third concentrated water, ice, and salt according to the weight by a centrifugal separation method, but the present invention is not limited thereto, , Ice, salt and so on.

1, a second separation processing unit 500 according to an embodiment of the present invention is connected to a third outflow line L60 at the front end thereof and a second fresh water outflow line L70, a recirculation line L80 ) And a salt inflow line (L90).

The fresh water separated from the second separation processing unit 500 flows into the fresh water outlet line L70 and flows into the fresh water storage unit 900 and flows into the second separation processing unit 500 ) Is transferred.

3, in particular, the recirculation line L80 is connected to the enriched water storage tank 300 so that the third concentrated water generated in the second separation processing unit 500 flows into the concentrated water storage tank 300 again, The second concentrated water flowing from the separation processing unit 200, and the salt introduced from the salt storage unit 600, together with the mixed concentrated water.

Thereby, the third concentrated water is discharged to the outside of the desalination system or the third concentrated water is recycled without requiring a separate process for treating the third concentrated water, so that it can be recycled to secure ice, that is, fresh water .

Referring to FIGS. 1 and 4, the salt storage unit 600 according to an embodiment of the present invention includes a first separation unit 500, a second separation unit 500, Thereby providing a salt.

More specifically, the salt storage unit 600 has a front end connected to the second separation processing unit 500 and the salt inflow line L90, and a rear end connected to the concentrated water basin unit 300 and the salt outflow line L100.

Referring to FIGS. 4 and 5, when the concentration of the mixed concentrated water in the concentration sensor 320 according to an embodiment of the present invention is less than a predetermined value, the controller 800 transmits an electrical signal to the controller 800, Transfers an electrical signal to the second valve unit 750 to be described later and opens the second valve unit 750 so that the salt is supplied from the salt storage unit 600 to the concentrated water storage unit 300.

Referring to FIGS. 1 and 5, a first valve unit 700 according to an embodiment of the present invention is installed between a condensed water storage tank 300 and a second cooling processing unit 400, Adjust the flow of ice and salt.

Specifically, the first valve unit 700 receives an electrical signal from the control unit 800, and when the concentration sensor unit 320 reaches the set concentration of the concentrated water in the concentrated water reservoir 300, the first valve unit 700 is opened, The third concentrated water, the ice and the salt are caused to flow to the second separation processing unit 500.

Referring to FIGS. 1, 4 and 5, the second valve unit 750 according to an embodiment of the present invention is installed between the thickened water storage tank 300 and the salt storage unit 600, 300). ≪ / RTI >

The second valve unit 750 receives an electrical signal from the control unit 800 and is opened when the concentration of the mixed concentrated water in the concentrated water main body 300 is lower than the predetermined value, (300).

1 and 5, the controller 800 receives an electrical signal from the concentration sensor 320 when the salt concentration of the synthetic concentrated water reaches a preset value, (700).

The control unit 800 receives the electrical signal from the concentration sensor unit 320 and opens the second valve unit 750 when the salt concentration of the synthetic concentrated water is less than the predetermined value.

1, a fresh water storage unit 900 according to an embodiment of the present invention is connected to a first separation processing unit 200 and a second separation processing unit 500. The fresh water storage unit 900 includes a first separation processing unit 200, The ice separated from the second separation processing unit 500 is stored.

In the present invention, the ice stored in the fresh water storage unit 900 means that the fresh water is desalinated from the raw water through the desalination system.

Hereinafter, the operation principle and effect of the concentrated water treatment system 1 according to an embodiment of the present invention will be described.

1 to 6, a concentrated water treatment system 1 according to an embodiment of the present invention includes a first cooling processing unit 100, a second cooling processing unit 400, a condensate water storage unit 300, A first valve unit 700, a second valve unit 750, a control unit 800, and a fresh water storage unit 900. The cooling processing unit 400, the second separation processing unit 500, the salt storage unit 600, the first valve unit 700, do.

The concentrated water treatment system (1) means treatment of concentrated water produced in a desalination system for desalinating raw water such as wastewater containing sea water or salt water and supplying it as water.

In the present invention, the first concentrated water flowing into the first inflow line L10 means the concentrated water generated in the reverse osmosis process of the desalination system, but it is not limited to this, but the concentrated water desalination system for desalination, As shown in FIG.

1 and 6, a first cooling processing step in which the first concentrated water flows into the first cooling processing part 100 through the first inflow line L10 and the first concentrated water is cooled in the first cooling processing part 100 (S1).

The solidified ice and the second concentrated water are generated through the first cooling processing step (S1) and flowed to the first separation processing unit (200). The first separation processing unit 200 performs a first separation processing step S2 in which the second concentrated water and the ice are separated using a centrifugal separation method or the like.

The second concentrated water separated in the first separation processing step S2 flows into the concentrated water storage tank 300 through the second outflow line L40 and the fresh water is discharged through the first fresh water discharge line L30 to the fresh water storage As shown in FIG.

Referring to FIGS. 1 and 6, in a concentrated water tank 300 according to an embodiment of the present invention, a mixed solution (S3) is prepared by mixing a second concentrated water, a third concentrated water, Is stored in the concentrated water storage tank unit 310 as synthetic concentrated water.

2, 5 and 6, in the concentration measuring step S4, the concentration sensor unit 320 is installed in the concentrated water storage tank unit 310, and the concentration sensor unit 320 is disposed in the mixed concentrated water The concentration of the salt contained in the solution is measured.

When the concentration of the salt measured by the concentration sensor 320 reaches a set value, the control unit 800 receives the electrical signal from the concentration sensor unit 320 to open the first valve unit 700, And flows into the second cooling processing unit 400 through the third inflow line L50.

Referring to FIGS. 2, 5 and 6, when the measured salt concentration value in the concentration measuring step S4 is lower than the set value, the salt stored in the salt storage unit 600 flows through the salt discharge line L100, A salt supply step (S6) for supplying the salt to the holding portion 300 is performed.

More specifically, the concentration sensor unit 320 transmits an electrical signal to the control unit 800 and the control unit 800 opens the second valve unit 750 so that the salt flows from the salt storage unit 600 to the salt outflow line L100 To increase the salt concentration of the synthetic concentrated water stored in the concentrated water basin 300 so as to reach the set concentration value corresponding to the eutectic point.

In the second cooling processing section (400), a second cooling processing step (S5) is carried out in which the cooling is performed at a set temperature corresponding to the set concentration corresponding to the eutectic point, and ice and salt of the mixed and concentrated water are precipitated at the eutectic point.

Referring to FIG. 1, the third concentrated water, ice, and salt cooled in the second cooling processing unit 400 flows into the second separation processing unit 500 through the third outflow line L60.

A second separation processing step S7 in which the third concentrated water, ice, and salt are separated is performed in the second separation processing unit 500. In the second separation processing unit 500 according to an embodiment of the present invention, The third concentrated water, ice, and salt are separated according to weight.

The separated third concentrated water is reintroduced into the concentrated water storage tank 300 through the recirculation line L80 in the recirculation step S8. Thus, the concentrated water produced in the desalination system is recycled without being discharged to the outside of the system or the ocean, thereby reducing the cost of the concentrated water treatment and reducing the environmental load due to the discharge of the concentrated water.

The separated ice is flowed from the ice storage step S10 to the fresh water storage line 900 via the second fresh water discharge line L70 and the separated salt is discharged through the salt inflow line L90 in the salt storage step S9 And flows to the storage unit 600.

Referring to FIG. 1, a second cooling processing step (corresponding to part B) through a first cooling processing step (S1) of a first cooling processing step (S1) corresponding to part A and a second separation processing step (S7) The energy required in the second cooling processing step S5 can be reduced because the mixed concentrate water is preferentially cooled before the mixed concentrated water is introduced into the second cooling processing step S5 of the second separation processing step S6 It is effective.

In other words, in the second cooling processing step (S5), the energy consumption for cooling to the temperature corresponding to the eutectic point can be reduced.

Referring to FIG. 4, when the salt concentration of the mixed concentrated water is lower than the concentration corresponding to the eutectic point in the concentrated water tank 300, the salt concentration of the mixed concentrated water is adjusted to the corresponding eutectic There is an effect of reaching the point.

Referring to FIG. 1, only the first cooling processing part 100 and the first separation processing part 200 corresponding to part A are formed by the second cooling processing part 400 and the second separation processing part 500 corresponding to part B, It is possible to recover more desalted ice compared to the process in which the desalination process is performed, thereby improving the efficiency of the desalination system.

In addition, the salt of high purity can be recovered by the first separation processing unit 200 and the second separation processing unit 500, and the salt concentration of the concentrated concentrated water in the concentrated water basin 300 can be regulated by recycling the salts, There is an effect that the salt concentration can reach the concentration corresponding to the eutectic point.

Referring to FIG. 2, the mixer 330 according to an embodiment of the present invention has an effect of rapidly dissolving the salt in the concentrated water in the concentrated water storage tank unit 310.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. I will understand. Accordingly, the true scope of protection of the present invention should be defined by the following claims.

1: concentrated water treatment system L10: first inflow line
L20: first outflow line L30: first freshwater outflow line
L40: Second outflow line L50: Third inflow line
L60: Third outflow line L70: Second freshwater outflow line
L80: recirculation line L90: salt inflow line
L100: salt outflow line 100: first cooling processing section
200: first separation processing unit 300:
310: concentrated water storage tank unit 320: concentration sensor unit
330: mixer 400: second cooling processor
500: second separation processing section 600: salt storage section
700: first valve unit 750: second valve unit
800: controller 900: fresh water storage
S1: first cooling processing step S2: first separation processing step
S3: concentrated water mixing step S4: concentration measuring step
S5: second cooling processing step S6: salt supply step
S7: Second Separation Treatment Step S8: Recirculation Step
S9: Salt storage step S10: Ice storage step

Claims (9)

A first cooling processing unit that is cooled so that the introduced first concentrated water is discharged to the second concentrated water and ice;
A first separation processing unit connected to the first cooling processing unit and separating the second concentrated water flowing in and the ice;
A condensate water reservoir connected to the first separation processing unit and discharging the synthetic concentrated water when the salt concentration of the synthetic concentrated water including the second concentrated water reaches a set value;
A second cooling processing unit connected to the thickened water reservoir and cooled and processed so that the introduced synthetic concentrated water is discharged to the third concentrated water and ice and salt;
A second separation processing unit which is connected to the second cooling processing unit and into which the third concentrated water and the ice and the salt are separated;
A recirculation line in which the third concentrated water generated by the second separation processing unit is recycled to the concentrated water storage unit;
A salt inflow line through which the salt generated in the second separation processing unit is moved;
A salt storage part connected to the salt inflow line to receive the salt generated in the second separation processing part, and connected to the thickened water reservoir part to supply the salt;
A salt discharge line through which the salt stored in the salt storage portion is supplied to the concentrated water storage portion;
A first valve unit disposed between the thickened water main body and the second cooling processing unit for adjusting a flow rate of the synthetic concentrated water flowing into the second cooling processing unit;
A second valve unit installed in the salt outflow line for adjusting a flow rate of the salt introduced into the concentrated water storage unit; And
And a control unit which opens the first valve unit when the concentration of the synthetic concentrated water reaches a set value and opens the second valve unit when the salt concentration of the synthetic concentrated water is less than a predetermined value Concentrated water treatment system.
delete The method according to claim 1,
Wherein the concentrated water storage portion comprises:
A concentrated water storage tank portion in which the synthetic concentrated water is stored; And
And a concentration sensor unit installed in the concentrated water storage tank unit for measuring the salt concentration of the synthetic concentrated water.
The method of claim 3,
Wherein the concentrated water storage portion comprises:
And a mixer installed in the concentrated water storage tank to stir the synthetic concentrated water.
delete The method of claim 3,
Wherein,
Wherein the concentration sensor unit receives the electrical signal from the concentration sensor unit and opens the first valve unit when the salt concentration of the synthetic concentrated water measured by the concentration sensor unit reaches a set value.
delete The method of claim 3,
Wherein,
Wherein when the salt concentration of the synthetic concentrated water measured by the concentration sensor unit is lower than a set value, the concentration sensor unit receives the electrical signal from the concentration sensor unit and opens the second valve unit.
The method according to any one of claims 1, 3, 4, 6, and 8,
And a fresh water storage unit connected to the first separation processing unit and the second separation processing unit and storing the ice separated by the first separation processing unit and the second separation processing unit, system.

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