KR101796633B1 - Apparatus for treating water and method for treating water using the same - Google Patents

Abstract

The water treatment apparatus according to the present invention comprises a first water purification unit 10 for transferring the surface water A to the first flow path P1 and processing the water with the water purification unit 10, the mixing / flocculation tank 20, the settling tank 30 and the filtration tank 40 L1); A filter tank (100) for treating the turbidity of the surface water (A); And a reverse osmosis membrane bath (200) for treating the total dissolved solids (TDS) of the surface water (A), wherein the reverse osmosis membrane bath (200) for transporting the surface water (A) from the settling tank (30) (P2); A fourth flow path P4 for transferring the surface water A from the filtration tank 40 to the reverse osmosis membrane tank 200; And a third flow path P3 for transferring the surface water A from the filter tank 100 to the reverse osmosis membrane tank 200. The first purified water line L1 and the disinfection tank for treating the treated water of the reverse osmosis membrane bath 200 50).
According to the present invention, since the water treatment apparatus can be operated by using the conventional general water purification facility, the initial construction cost can be minimized and the surface water treatment can be continuously performed even when the filtration tank is stopped by using the filter tank and the reverse osmosis tank.
Further, according to the present invention, even if the water quality of the surface water is remarkably lowered, the water treatment can be performed.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a water treatment apparatus for treating surface water,

The present invention relates to a water treatment apparatus and a water treatment method, and more particularly, to a water treatment apparatus for treating surface water and a water treatment method using the water treatment apparatus.

In a typical water treatment process, the operating time of the filtration tank is limited by the water quality of the surface water.

That is, depending on the degree of contamination of the filtration tank, it is necessary to clean the filtration tank or to change the filtration facility.

In addition, the water quality of the surface water during the dry season is significantly lowered due to the abnormal climate due to global warming, drought, and water pollution caused by urbanization, so that it is difficult to remove the sediment from the surface water only by the filtration tank.
The prior art Korean Patent No. 10-2011-0040149 'Emergency water treatment device for emergency water area' is a water treatment device installed in the emergency water area, and includes a purified water tank embedded in the ground; A first filtration layer whose lower end is fixed to the bottom of the purified water tank in a state of being separated from the inner wall of the purified water tank; A second filtration layer positioned inside the first filtration layer and having a lower end fixed to the bottom of the purified water tank; A water inflow pipe for supplying the surface water into the first space between the inner wall of the purified water tank and the first filtration layer; And an underwater motor installed in a second space formed inside the second filtration layer to generate a transverse pressure from the first space toward the second space by discharging the filtered water to the outside, And is filtered while passing through the first filtration layer and the second filtration layer by the transverse pressure.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide a water treatment apparatus capable of treating water even when operation of filter paper or surface water contamination is severe, and a water treatment method using the water treatment apparatus.

The water treatment apparatus of the present invention comprises a first water purification unit L1 for transferring the surface water A to the first flow path P1 and processing the water with the water purification unit 10, the mixing / flocculation tank 20, the settling tank 30, ); A filter tank (100) for treating the turbidity of the surface water (A); And a reverse osmosis membrane bath (200) for treating the total dissolved solids (TDS) of the surface water (A), wherein the surface water (A) is transferred from the settling tank (30) A second flow path P2; A fourth flow path (P4) for transferring the surface water (A) from the filtration tank (40) to the reverse osmosis membrane tank (200); And a third flow path P3 for transferring the surface water A from the filter tank 100 to the reverse osmosis membrane tank 200. The first purified water portion L1 and the treated water of the reverse osmosis membrane tank 200 And a disinfecting tank 50 for treating the water.

It is preferable that the filter tank 100 is formed of a combination of one or both of an MF (Micro Filter) tank 110 and a UF (Ultra Filter) tank 120.

The reverse osmosis membrane module 200 may be formed of a BWRO (Brackish Water Reverse Osmosis) tank 220.

The reverse osmosis membrane module 200 is preferably formed by sequentially forming a SWRO (Sea Water Reverse Osmosis) tank 210 and a BWRO (Brackish Water Reverse Osmosis) tank 220 in sequence.

The fourth flow path P4 may be connected to the SWRO (Sea Water Reverse Osmosis) tank 210.

The water treatment method of one embodiment using the water treatment apparatus of the present invention includes an L1 integer step of purifying the surface water (A) by using the first integer part (L1); And a disinfection processing step of transferring the treated water that has been water-treated in the L1 water purification step to the disinfection tank 50 for disposal.

In the water treatment method according to another embodiment using the water treatment apparatus of the present invention, when the occurrence of occlusion-induced algae increases in the filtration tank 40 or when the operation of the filtration tank 40 is stopped for cleaning the filtration tank 40, (A) is treated in the order of the settling tank (10), the admixing / flocculating tank (20) and the settling tank (30) using the first flow path (P1); A P2 transfer step of transferring the treated water of the settling tank 30 to the filter tank 100 using the second flow path P2; A filter adjusting step of treating the treated water transferred to the second flow path (P2) in the filter tank (100); A BW purification step of transferring the purified water to the BWRO (Brackish Water Reverse Osmosis) tank 220 by using the third flow path P3 after the filter adjusting step; And a disinfection processing step of transferring the treated water after the BW integer step to the disinfection tank (50) for disposal processing.

In the water treatment method of another embodiment using the water treatment apparatus of the present invention, when the water quality of the surface water (A) deteriorates or the water quality purification standard is strengthened, the surface water (A) A first integer step; A P4 transfer step of transferring the purified water to the BWRO (Brackish Water Reverse Osmosis) tank 220 using the fourth flow path P4 after the first purification step; A BW purification step for purifying the treated water in the BWRO (Brackish Water Reverse Osmosis) tank 220; And a disinfection processing step of transferring the treated water to the disinfecting tank (50) after the BW water purification step.

The water treatment method of another embodiment using the water treatment apparatus of the present invention includes a reference value setting step of setting a reference value of TDS (Total Dissolved Solid); A first purification step of purifying the mixed water using the first integer part (L1) when seawater is mixed into the surface water (A) and total dissolved solids (TDS) of the mixed water is equal to or greater than a reference value; A P4 transfer step of transferring treated water to the SWRO (Sea Water Reverse Osmosis) tank 210 using the fourth flow path P4 after the first water purification step; An SW-BW purification step of treating the treated water in the order of the SWRO (Sea Water Reverse Osmosis) tank 210 and the BWRO (Brackish Water Reverse Osmosis) tank 220 after the P4 transfer step; And a disinfection processing step of transferring the treated water to the disinfection tank (50) after the SW-BW purification step.

The water treatment method of another embodiment using the water treatment apparatus of the present invention includes a reference value setting step of setting a reference value of TDS (Total Dissolved Solid); When the amount of occluded tidal current increases in the filtration tank 40 and the total dissolved solids (TDS) of the mixed water is less than the reference value by mixing seawater into the surface water A, Flocculating tank (20) and the settling tank (30) in the order of the settling tank (10), the mixing / flocculating tank (20) and the settling tank (30) A P2 transfer step of transferring the treated water of the settling tank 30 to the filter tank 100 using the second flow path P2; A filter adjusting step of treating the treated water transferred to the second flow path (P2) in the filter tank (100); The treated water after the filter adjustment number step is connected to the SWRO (Sea Water Reverse Osmosis) tank 210 and the BWRO (Brackish Water Reverse Osmosis) tank 220 using the third flow path P3 SW-BW integer steps for transferring and processing the data; And a disinfection processing step of transferring the treated water to the disinfection tank (50) after the SW-BW purification step.

The reference value of TDS (Total Dissolved Solid) is preferably 800 to 1200 mg / L.

According to the present invention, since the water treatment apparatus can be operated using the existing general water purification facility, the initial construction cost can be minimized.

According to the present invention, water treatment of surface water can be continuously performed even when the filtration tank is stopped by using the filter tank and the reverse osmosis membrane tank.

Further, according to the present invention, even if the quality of the surface water is significantly deteriorated, the water treatment can be performed.

BRIEF DESCRIPTION OF THE DRAWINGS FIG.
2 is a block diagram of a water treatment apparatus according to a first embodiment of the present invention.
3 is a block diagram of a water treatment apparatus according to a second embodiment of the present invention.
4 is a configuration view of a water treatment apparatus according to a third embodiment of the present invention;
FIG. 5 is a configuration view of a water treatment apparatus according to a fourth embodiment of the present invention. FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT Hereinafter, embodiments of a water treatment apparatus for treating surface water according to the present invention will be described in detail with reference to the accompanying drawings, wherein like reference numerals designate like or corresponding components throughout. And redundant explanations thereof will be omitted.

It is also to be understood that the terms first, second, etc. used hereinafter are merely reference numerals for distinguishing between identical or corresponding components, and the same or corresponding components are defined by terms such as first, second, no.

In addition, the term " coupled " is used not only in the case of direct physical contact between the respective constituent elements in the contact relation between the constituent elements, but also means that other constituent elements are interposed between the constituent elements, Use them as a concept to cover each contact.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a water treatment apparatus for treating surface water and sea water according to an embodiment of the present invention and a water treatment method using the same will be described in detail with reference to the accompanying drawings.

The water treatment apparatus according to the present invention comprises a first water purification unit 10 for transferring the surface water A to the first flow path P1 and processing the water with the water purification unit 10, the mixing / flocculation tank 20, the settling tank 30 and the filtration tank 40 L1); A filter tank (100) for treating the turbidity of the surface water (A); And a reverse osmosis membrane bath (200) for treating the total dissolved solids (TDS) of the surface water (A), wherein the reverse osmosis membrane bath (200) for transporting the surface water (A) from the settling tank (30) (P2); A fourth flow path P4 for transferring the surface water A from the filtration tank 40 to the reverse osmosis membrane tank 200; And a third flow path P3 for transferring the surface water A from the filter tank 100 to the reverse osmosis membrane tank 200. The first purified water line L1 and the disinfection tank for treating the treated water of the reverse osmosis membrane bath 200 50).

When the operation of the filtration tank is stopped using the water treatment apparatus of the present invention, the filter tank 100 and the reverse osmosis membrane tank 200 are operated even when the water quality of the surface water is deteriorated and the water quality standard is strengthened, So that constant constants are possible.

It is preferable that the filter tank 100 is formed of a combination of one or both of MF (Micro Filter) 110 and UF (Ultra Filter) 120.

In this case, since the filter group is formed by combining one or two of MF (Micro Filter) and UF (Ultra Filter), the filter tank can be efficiently operated according to the degree of contamination of the surface water.

The reverse osmosis membrane 200 is preferably formed of a BWRO (Brackish Water Reverse Osmosis) tank 220.

In this case, the surface water can be purified by operating the BWRO (Brackish Water Reverse Osmosis) tank 220 according to the degree of contamination of the surface water.

It is preferable that the reverse osmosis membrane 200 is formed by sequentially forming a SWRO (Sea Water Reverse Osmosis) tank 210 and a BWRO (Brackish Water Reverse Osmosis) tank 220 in sequence.

In this case, since the RO membranes are formed of a SWRO (Sea Water Reverse Osmosis) tank 210 and a BWRO (Brackish Water Reverse Osmosis) tank 220, the total dissolved solids (TDS) It is possible to efficiently operate the reverse osmosis membrane according to the concentration of the solid material).

The fourth flow path P4 is preferably connected to the SWRO (Sea Water Reverse Osmosis) tank 210.

In this case, the treated water treated in the filtration tank can be transferred to the SWRO tank 210 using the fourth flow path P4 in accordance with the degree of contamination of the surface water.

The water treatment method of the embodiment using the water treatment apparatus of the present invention includes an L1 integer step of clearing the surface water (A) by using the first integer part (L1); And a disinfection processing step of transferring the treated water that has been water-treated in the L1 water purification step to the disinfection tank 50 for treatment.

In this case, surface water is treated in a settling tank, mixing / coagulating tank, settling tank, filtration tank and disinfection tank.

As a water treatment method of another embodiment using the water treatment apparatus of the present invention, the water treatment method in the case where the occurrence of occlusion induced tide in the filtration tank 40 increases or the operation of the filtration tank 40 is stopped for cleaning the filtration tank 40, A) in the order of the settling tank (10), the mixing / coagulating tank (20) and the settling tank (30) using the first flow path (P1); A P2 transfer step of transferring the treated water of the sedimentation tank 30 to the filter tank 100 using the second flow path P2; A filter adjustment step of processing the treated water transferred to the second flow path (P2) in the filter tank (100); A BW purification step of transferring the purified water to a Brackish Water Reverse Osmosis (BWRO) tank 220 using a third flow path P3 after the filter adjusting step; And a disinfection processing step of transferring the treated water after the BW constant step to the disinfection tank 50 and processing the treated water.

In this case, since the surface water is transported to the filter tank 100, the BWRO (Brackish Water Reverse Osmosis) tank 220 and the disinfection tank 50 for treatment, the water can be continuously treated even when the filtration tank is stopped .

In the water treatment method according to another embodiment using the water treatment apparatus of the present invention, the water treatment method according to the degree of contamination of the surface water (A) includes a first purification step of purifying the surface water (A) using the first purified water portion (L1); A P4 transfer step of transferring the purified water to the BWRO (Brackish Water Reverse Osmosis) tank 220 using the fourth flow path P4 after the first purification step; A BW purification step for purifying the treated water in the BWRO (Brackish Water Reverse Osmosis) tank 220; And a disinfection processing step of transferring the treated water to the disinfecting tank (50) after the BW water purification step.

In this case, depending on the degree of contamination of the surface water A, the treated water may be further treated in the BWRO (Brackish Water Reverse Osmosis) tank 220 after the water treatment of the first purified water portion to purify the surface water.

The water treatment method of another embodiment using the water treatment apparatus of the present invention includes a reference value setting step of setting a reference value of TDS (Total Dissolved Solid); A first purification step for purifying the mixed water using the first water purification unit (L1) when seawater is mixed into the surface water (A) and the total dissolved solids (TDS) of the mixed water is equal to or greater than a reference value; A P4 transfer step of transferring the treated water to the SWRO (Sea Water Reverse Osmosis) tank 210 using the fourth flow path P4 after the first water purification step; An SW-BW purification step of treating the treated water in the order of the SWRO (Sea Water Reverse Osmosis) tank 210 and the BWRO (Brackish Water Reverse Osmosis) tank 220 after the P4 transfer step; And a disinfection processing step of transferring the treated water to the disinfecting tank 50 after the SW-BW water purification step.

In this case, when the seawater intrudes into the surface water, or when the insufficient water amount of the fresh water is replenished by mixing the seawater, the mixed water is mixed with the first purified water, SWRO (Sea Water Reverse Osmosis) tank 210 and BWRO Water reverse osmosis (ODS) tank 220, as shown in FIG.

The water treatment method of another embodiment using the water treatment apparatus of the present invention includes a reference value setting step of setting a reference value of TDS (Total Dissolved Solid); When the amount of the occluded tidal current increases in the filtration tank 40 and the sea water is mixed into the surface water A and the total dissolved solids (TDS) of the mixed water is less than the reference value, A sedimentation tank purification step of treating the sedimentation tank 10, the admixture / flocculation tank 20 and the sedimentation tank 30 in order; A P2 transfer step of transferring the treated water of the sedimentation tank 30 to the filter tank 100 using the second flow path P2; A filter adjustment step of processing the treated water transferred to the second flow path (P2) in the urea filter tank (100); The treated water after the filter adjusting step is transferred in the order of the SWRO (Sea Water Reverse Osmosis) tank 210 and the BWRO (Brackish Water Reverse Osmosis) tank 220 by using the third flow path P3, SW-BW integer step; And a disinfection processing step of transferring the treated water to the disinfecting tank 50 after the SW-BW water purification step.

In this case, even when the filter paper can not be used or the seawater intrudes into the surface water, the mixed water is mixed with the first purified water, SWRO (Sea Water Reverse Osmosis) tank 210 and Brackish Water Reverse Osmosis (BWRO) It is possible to perform the purification treatment using the bath 220.

The reference value of TDS (Total Dissolved Solid) during water treatment using the water treatment apparatus of the present invention is preferably 800 to 1200 mg / L.

In this case, the reference value of TDS (Total Dissolved Solid) of the mixed water is determined, and it is determined according to the concentration of TDS (Total Dissolved Solid) which can indirectly measure the degree of salt content of the mixed water And the mixed water is transferred to the third flow path P3 and the fourth flow path P4.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It is to be understood that both the technical idea and the technical spirit of the invention are included in the scope of the present invention.

A: Surface water P1: 1st flow
P2: second flow path P3: third flow path
P4: SW channel L1: first integer part
10: Heading 20: Mixing / Coagulation
30: Precipitation 40: Filtration tank
50: disinfection tank 100: filter tank
110: MF group 120: UF group
200: Reverse osmosis membrane tank 210: SWRO tank
220: BWRO group

Claims (11)

A first water purification unit L1 for transferring the surface water A to the first flow path P1 and processing the water with the water purification unit 10, the mixing / flocculation tank 20, the sedimentation tank 30 and the filtration tank 40;
A filter tank (100) for treating the turbidity of the surface water (A);
And a reverse osmosis membrane bath (200) for treating TDS (Total Dissolved Solid) of the surface water (A)
A second flow path (P2) for transferring the surface water (A) from the settling tank (30) to the filter tank (100);
A fourth flow path (P4) for transferring the surface water (A) from the filtration tank (40) to the reverse osmosis membrane tank (200);
And a third flow path (P3) for transferring the surface water (A) from the filter tank (100) to the reverse osmosis membrane tank (200)
And a disinfection unit (50) for treating the treated water of the first purified water portion (L1) and the reverse osmosis membrane bath (200).
The method according to claim 1,
Wherein the filter tank (100) is formed of a combination of one or both of an MF (Micro Filter) tank (110) and a UF (Ultra Filter) tank (120).
3. The method of claim 2,
The reverse osmosis membrane bath (200)
And a BWRO (Brackish Water Reverse Osmosis) tank (220).
The method of claim 3,
The reverse osmosis membrane bath (200)
Wherein a SWRO (Sea Water Reverse Osmosis) tank 210 and a BWRO (Brackish Water Reverse Osmosis) tank 220 are sequentially formed.
5. The method of claim 4,
And the fourth flow path (P4) is connected to the SWRO (Sea Water Reverse Osmosis) tank (210).
A water treatment method using the water treatment apparatus according to claim 1,
An L1 integer step of rectifying the surface water (A) by using the first integer part (L1);
And a disinfection treatment step of transferring the treatment water treated in the L1 purification stage to the disinfection tank (50).
A water treatment method using the water treatment apparatus of claim 3,
When the flow of the obstruction-induced current increases in the filtration tank 40 or the operation of the filtration tank 40 is stopped to clean the filtration tank 40,
An initial purification step of treating the surface water (A) in the order of the settling tank (10), the mixing / flocculating tank (20) and the settling tank (30) using the first flow path (P1);
A P2 transfer step of transferring the treated water of the settling tank 30 to the filter tank 100 using the second flow path P2;
A filter adjusting step of treating the treated water transferred to the second flow path (P2) in the filter tank (100);
A BW purification step of transferring the purified water to the BWRO (Brackish Water Reverse Osmosis) tank 220 by using the third flow path P3 after the filter adjusting step;
And a disinfection processing step of transferring the treated water after the BW water purification step to the disinfection tank (50).
A water treatment method using the water treatment apparatus of claim 3,
Depending on the degree of contamination of the surface water (A)
A first integer step of rectifying the surface water (A) using the first integer part (L1);
A P4 transfer step of transferring the purified water to the BWRO (Brackish Water Reverse Osmosis) tank 220 using the fourth flow path P4 after the first purification step;
A BW purification step for purifying the treated water in the BWRO (Brackish Water Reverse Osmosis) tank 220;
And a disinfection processing step of transferring treated water to the disinfecting tank (50) after the BW water purification step.
A water treatment method using the water treatment apparatus of claim 5,
A reference value setting step of setting a reference value of TDS (Total Dissolved Solid);
When the sea water is mixed into the surface water (A) and the total dissolved solids (TDS) of the mixed water is equal to or higher than the reference value,
A first purification step of purifying the mixed water using the first integer part (L1);
A P4 transfer step of transferring treated water to the SWRO (Sea Water Reverse Osmosis) tank 210 using the fourth flow path P4 after the first water purification step;
An SW-BW purification step of treating the treated water in the order of the SWRO (Sea Water Reverse Osmosis) tank 210 and the BWRO (Brackish Water Reverse Osmosis) tank 220 after the P4 transfer step;
And a disinfection processing step of transferring treated water to the disinfecting tank (50) after the SW-BW water purification step.
A water treatment method using the water treatment apparatus of claim 5,
A reference value setting step of setting a reference value of TDS (Total Dissolved Solid);
When the amount of occluded tidal current increases in the filtration tank 40 and the total dissolved solids (TDS) of the mixed water is below the reference value due to the seawater mixed in the surface water A,
A sedimentation tank purification step of treating the mixed water in the order of the settling tank (10), the admixing / flocculating tank (20) and the settling tank (30) using the first flow path (P1);
A P2 transfer step of transferring the treated water of the settling tank 30 to the filter tank 100 using the second flow path P2;
A filter adjusting step of treating the treated water transferred to the second flow path (P2) in the filter tank (100);
The treated water after the filter adjustment number step is connected to the SWRO (Sea Water Reverse Osmosis) tank 210 and the BWRO (Brackish Water Reverse Osmosis) tank 220 using the third flow path P3 SW-BW integer steps for transferring and processing the data;
And a disinfection processing step of transferring treated water to the disinfecting tank (50) after the SW-BW water purification step.
11. The method according to any one of claims 9 to 10,
Wherein the reference value of the TDS (Total Dissolved Solid) is 800 to 1200 mg / L.

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