KR101009574B1 - Wastewater effluent by membrane t-n, t-p, color removal recycling system and membrane cleaning system - Google Patents

Abstract

PURPOSE: A system for removing T-N, T-P, and the chromaticity from effluent using a membrane is provided to prevent the generation of damages on the membrane by forming the system capable of controlling the breeding of microorganisms. CONSTITUTION: A system for removing T-N, T-P, and the chromaticity from effluent comprises the following: an effluent storage tank(10) storing the effluent inside a sewage/waste water processing facility(300); a transfer pump(20) transferring the effluent to an A/C filter(30); the A/C filter removing organic materials, the chromaticity, and ionic components from the effluent; a UV sterilizer(40) removing microorganisms from the effluent; a micro-filter(50) removing particulate materials from the effluent; a high-pressure pump(60) supplying the effluent with the high pressure; a membrane(70) removing the T-N, the T-P, and the chromaticity from the effluent; a reusing tank(80) for reusing the effluent; and a reusing water supplying pump(90).

Description

Wastewater Effluent by T-N, T-P, Color Removal Recycling System and Membrane Cleaning System {Wastewater effluent by membrane T-N, T-P, color removal recycling system and membrane cleaning system}

The present invention relates to a system for reuse of sewage and wastewater effluent, and more specifically, to a membrane system including particulate matter, organic matter, and ionic substance such as TN, TP, and chromatic acid contained in the sewage and wastewater treatment plant effluent. The present invention relates to a system for reuse in industrial water after removal by use.

Accordingly, the present invention is a system for reusing effluent from the sewage and wastewater treatment plant, the effluent storage tank for storing the effluent of the sewage and wastewater treatment plant, a transfer pump for transferring the effluent to the A / C filter, the effluent is contained in A / C filter to reduce the load of the aftertreatment facility by removing organic substances, colors and ions, UV sterilization device to reduce the load of the aftertreatment facility by removing bacteria and microorganisms contained in the effluent, 1 ~ 5 of the effluent A micro filter that reduces the load of the post-treatment facility by removing micro particles or more, a high pressure pump that supplies a constant flow rate at a high pressure of 10 kg / cm 2 or more, and a discharge water transferred from the high pressure pump of 10 kg / cm 2 or more. Operating at high pressure to remove the TN, TP, chromaticity membrane contained in the effluent, treated water treated in the membrane Recycled water tank to store and reuse reused water smoothly, and to add NaOCI to control microbial growth and sodium hydroxide (NaOH) to neutralize recycled water, water in the reused water tank The present invention relates to a sewage / wastewater effluent T-N, T-P, a color removal recycling system, and a membrane cleaning method using a membrane, characterized in that it is composed of a recycling feed pump for supplying each to a user.

The conventional sewage and wastewater treatment system employs a system for sedimenting sewage and wastewater to separate microorganisms (sludge) and liquid supernatant.

In addition, the conventional solid-liquid separator for biological treatment using membranes, which is not a conventional gravity sedimentation basin, has a submerged type and an external type, and the submerged type has a precision filter and an ultrafilter, and the external type has a precision filter and an ultrafilter. .

On the other hand, the solid-liquid separator is a device that separates the solid microorganisms (sludge) and the liquid supernatant constituting the waste water, and as the number of days of operation increases, extreme closure occurs due to membrane contamination, and thus permeate (Flux) Frequently it should be cleaned because is reduced.

Existing sewage treatment apparatus uses the membrane module to feed the treatment liquid in the tank to the membrane module using the feed pump, and then filters and discharges it to the membrane solution outlet of the membrane module. In order to stop the supply pump or operate the backwash pump in the operating state, the cleaning liquid in the backwash tank flows into the membrane module to separate and separate foreign substances in the membrane, and then flow into the tank. Washing liquid is recycled into the backwash tank through a separate washing liquid recovery line and reused.

However, as described above, the backwashing method in which the washing solution is injected backward and washes has a problem in that the washing agent does not wash the entire membrane due to gravity and counts.

The present invention for solving the above problems is to put the chemicals in the effluent for reuse of sewage and wastewater effluent, and then to treat the organic matter, inorganic matter, microorganisms and bacteria through the filter to reduce the load on the membrane, the treated water membrane The purpose is to remove TN, TP, chromaticity and ionic substances and supply them to reused water.

In addition, when the treatment efficiency of the membrane is lowered, an automatic CIP system (Clean In Place System, hereinafter referred to as a 'cleaning system') using chemicals such as alkali and acid can be installed to restore treatment efficiency and extend the life of the membrane. It is an object of the present invention to provide sewage and wastewater effluent T-N, T-P, a color removal recycling system, and a membrane cleaning system using a membrane.

The present invention for solving the above problems is a system for reusing the effluent of the sewage and wastewater treatment plant, the discharge water storage tank for storing the effluent of the sewage and wastewater treatment plant, the transfer to transfer the effluent to the A / C filter Pump, A / C filter to reduce organic matter, color, and ions contained in the effluent to reduce the load of the post-treatment facility, UV sterilizer to reduce the load of the post-treatment facility by removing bacteria and microorganisms contained in the effluent A micro filter for reducing the load of the after-treatment facility by removing particulate matter of 1 to 5 microns or more of the discharge water, a high pressure pump for supplying a constant flow rate at a high pressure of 10 kg / cm 2 or more, and a high pressure pump transferred from the high pressure pump. Membrane to remove TN, TP, chromaticity contained in the effluent by operating the effluent at a high pressure of 10㎏ / ㎠ or more, the A recycled water tank that stores treated water in the brain so that it can be smoothly supplied to the user, and a chemical (NaOCI) for inhibiting microbial growth and sodium hydroxide (NaOH) for neutral adjustment of recycled water. The present invention provides a sewage / wastewater effluent T-N, T-P, chromaticity removal reuse system using a membrane, characterized in that it is composed of a reuse feed pump for supplying water in the reuse tank to each user.

Further, in the reuse treatment system of sewage and wastewater effluent using a membrane, the membrane is a membrane using an organic detergent (alkali) input device, an inorganic detergent (acid) input device, and a microbial inhibitor input device when the efficiency of the deposit decreases. The present invention provides a membrane cleaning method comprising a cleaning system for increasing the lifespan and processing efficiency of the membrane.

The present invention is to reduce the load on the membrane by increasing the lifespan and treatment efficiency by going through the pre-treatment process to treat organic matter, inorganic matter, microorganisms and bacteria through the filter after the chemical is put into the effluent for reuse of sewage and wastewater effluent It is effective, and it is effective to restore the membrane's lifespan and treatment efficiency by washing the membrane using automatic cleaning system using alkali and acid chemicals when the membrane's treatment efficiency is lowered. It is possible to prevent the damage of the membrane by the microorganism by establishing a system that can suppress the proliferation.

1 is a process flow diagram of sewage and wastewater effluent T-N, T-P, a color removal recycling system, and a membrane cleaning system using the membrane of the present invention.
Figure 2 is a process chart of the pretreatment section of the sewage and wastewater effluent T-N, T-P, color removal recycling system using the membrane of the present invention.
3 is a schematic diagram of a membrane cleaning system of the present invention.
4 is a process diagram of the membrane cleaning system of the present invention.
5 is a chemical injection system process diagram of the sewage and wastewater effluent T-N, T-P, color removal reuse system and membrane cleaning system using the membrane of the present invention.
6 is a process control diagram of the sewage / wastewater effluent T-N, T-P, a color removal recycling system, and a membrane cleaning system using the membrane of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail with reference to the accompanying drawings.

1 is a process flow diagram of sewage and wastewater effluent T-N, T-P, a color removal recycling system and a membrane cleaning system using the membrane of the present invention, and FIG. 2 is a wastewater effluent T-N using the membrane of the present invention. T-P, process diagram of the pretreatment unit of the color removal recycling system, FIG. 3 is a configuration diagram of the membrane cleaning system of the present invention, FIG. 4 is a process diagram of the membrane cleaning system of the present invention, and FIG. Wastewater effluent T-N, T-P, chemical removal system process diagram of color removal recycling system and membrane cleaning system, Figure 6 shows the wastewater effluent T-N, T-P, color removal reuse using membrane of the present invention. Process control diagram of the system and membrane cleaning system.

1 is a process flow diagram of sewage and wastewater effluent T-N, T-P, a color removal recycling system, and a membrane cleaning system using the membrane of the present invention;

Discharge water storage tank 10 for storing the discharge water of the sewage and wastewater treatment plant 300, a transfer pump 20 for transferring the discharge water to the A / C filter 30, organic substances, chromaticity, ionic components contained in the discharge water A / C filter 30 to reduce the load of the aftertreatment facility by removing, UV sterilizer 40 to reduce the load of the aftertreatment by removing the bacteria and microorganisms contained in the effluent, 1 ~ 5 micro or more of the effluent Micro filter 50 to reduce the load of the post-treatment facility by removing particulate matter, a high pressure pump 60 for supplying a constant flow rate at a high pressure of 10kg / ㎠ or more, transferred from the high pressure pump 60 The discharged water is operated at a high pressure of 10㎏ / ㎠ or more to store the membrane 70, which removes the TN, TP, and chromaticity contained in the discharged water, and the treated water treated in the membrane 70 to supply the reused water smoothly. To help And supplying the water in the reuse tank (80) to the reuse tank (80) for injecting a chemical (NaOCI) for inhibiting microbial propagation and sodium hydroxide (NaOH) for adjusting the reuse water to neutrality. It is composed of a recycle water supply pump (90).

The effluent storage tank 10 is a concrete structure for storing the effluent of the sewage and wastewater treatment plant 300, and is configured to smooth the post treatment by minimizing the effluent water quality and quantity change.

The transfer pump 20 uniformly transfers the discharged water of the sewage and wastewater treatment plant 300 to an activated carbon filter (hereinafter referred to as 'A / C filter 30') at a pressure of 3㎏ / ㎠ and uniformly A / The C filter 30 serves as a backwash pump to remove foreign substances.

The A / C filter 30 gives the load of the post-treatment facility by removing organic substances, colors, and ions contained in the effluent, and removes the components that cause bio fouling. Protection of the membrane 70.

In addition, the front end of the A / C filter 30 is installed NaOCI Dosing System (NaOCI Dosing System) 200 as a chemical injection system is characterized in that to remove the microorganisms and bacteria contained in the sewage, wastewater effluent by the chemicals It is done.

The UV sterilizer 40 (UV Sterilizer) is configured to control the bio fouling of the membrane 70 by removing bacteria and microorganisms contained in the effluent.

The micro filter 50 removes 1 to 5 micro particles or more of particulate matter so that the membrane 70 can be stably operated.

In addition, an anti-scalant dosing system 204, which is a chemical injection system, is installed at the front end of the micro filter 50 to control the hardness of substances contained in the sewage and wastewater effluent. It is possible to suppress fouling, and to install the SBS dosing system 202 to inject a reducing agent to prevent damage of the membrane 70 by the oxidizing agent, and by the H ₂ SO ₄ dosing system 208 The pH of the sewage and wastewater effluent is adjusted to suppress scale fouling of the membrane 70.

The drug injection system is configured to be able to finely adjust the dosage by using a metering pump.

In addition, the chemical injection system is automatically inputted by the measuring sensors 211, 212, 213 installed at the rear of the A / C filter 30, UV sterilizer 40, micro filter 50, respectively. It is controlled and controlled by PLC and PC depending on storage tank level sensor and operation system.

The high pressure pump 60 is configured to pass the effluent through the filters to the membrane 70 at a constant flow rate at a high pressure of 10 kg / cm 2 or more.

In addition, the high pressure pump 60 is automatically stopped according to the set value of the pressure switch installed at the front and rear end to prevent damage due to the pump idling and damage due to abnormal high-pressure operation on the membrane 70, and the membrane ( Through measurement sensors installed at the front and rear of 70), all data such as pressure rise, flow rate decrease and operation time are accumulated and analyzed to control the operation stably and efficiently.

The membrane 70 is a reverse osmosis membrane 70 made of a polyamide of spiral wound type, and the treated water passing through the pretreatment unit 400 is 10 kg using the high pressure pump 60. Passed through the membrane 70 at a high pressure of / cm 2 or more to remove TN, TP, pigments and other ionic substances and to be supplied to the recycled water.

The reuse tank 80 stores the treated water in the membrane 70 so that the reuse water can be smoothly supplied to the user, and sterilizing chemicals are added to inhibit microbial propagation and sodium hydroxide (NaOH) is added to neutralize the recycled water. It consists of adjusting and supplying.

The reuse water supply pump 90 is characterized in that for supplying the water in the reuse tank (80) to each destination.

Figure 2 is a process diagram of the pre-treatment part of the sewage and wastewater effluent T-N, T-P, color removal recycling system using the membrane of the present invention,

The sewage and wastewater discharged water collected in the discharge water storage tank 10 is transferred to the A / C filter 30 using the transfer pump 20 to remove and remove organic and ionic substances contained in the discharged water by filtration and adsorption treatment. Done.

The transfer pump 20 is automatically operated according to the change of the water level using a level sensor installed in the discharge water storage tank 10, and the filter is automatically replaced and operated according to the setting of the pressure switch installed at the rear end of the micro filter 50. It is characteristic.

The effluent passing through the A / C filter 30 passes the UV sterilizer 40 to kill bacteria and microorganisms through sterilization, thereby inhibiting fouling of the membrane 70 at the rear end.

The treated water that has passed through the UV sterilizer 40 is transferred to a micro filter to remove particulate matter from 1 to 5 microns or more to be transferred to the high pressure pump 60 at the rear stage.

The above-described process of the pretreatment unit 400 may decrease the load ratio on the membrane 70 and increase the reuse rate of the effluent along with the life extension of the membrane 70.

3 is a block diagram of the membrane cleaning system of the present invention, Figure 4 is a process diagram of the membrane cleaning system of the present invention, the membrane 70 in order to solve the efficiency degradation or life problems that may occur during long time operation of the membrane 70 Will be described.

The cleaning system 100 is an organic detergent (alkali) input device 102, inorganic detergent (acid) input device 104, microbial inhibitor input device 106, cleaning tank 109, cleaning pump 108, CIP It consists of a micro filter (110).

When the organic detergent (alkali) input device 102 is contaminated with organic (microbial) fouling of the membrane 70, the organic detergent (alkali) is removed by using an alkali detergent to remove the organic substances that adversely affect the membrane 70. It will increase the life span and increase the processing efficiency.

The inorganic detergent (acid) injector 104 may extend the life of the membrane 70 by removing the inorganic substances that adversely affect the membrane 70 by using acid cleaning chemicals when contaminated with inorganic fouling of the membrane 70. It will increase the processing efficiency.

The microbial inhibitor injector 106 is configured to prevent damage to the membrane 70 by microbial propagation by introducing a chemical when the membrane 70 system is stopped for a long time operation.

Chemicals are injected into the cleaning tank 109 connected to each of the above-described input devices to increase the cleaning efficiency of the membrane 70 at a constant pressure and flow rate of 4 kg / cm 2, and the cleaning tank 109. It is automatically operated according to the water level change by the level sensor installed in the), and the pressure switch is installed to prevent idling of the pump.

In addition, the automatic heating system 210 is installed in the cleaning tank 109 to maintain the temperature of the cleaning tank 109 30 ~ 40 ℃ characterized in that to increase the cleaning efficiency of the membrane (70).

Each input device of the cleaning system 100 is selectively and independently circulated and repeatedly operated, and is controlled using an automatic valve, and the system is configured to be automatically controlled by a PLC and a PC.

The CIP micro filter 110 is configured to remove particulate foreign matter generated when the membrane 70 is cleaned.

5 is a chemical injection system process diagram of sewage and wastewater effluent T-N, T-P, color removal reuse system and membrane cleaning system using the membrane of the present invention,

NaOCI dosing system 200 can be finely adjusted the input amount using the NaOCI pump 201, the input amount is automatically adjusted by the measuring sensor 211 installed in the rear of the A / C filter 30, storage tank level sensor And it is configured to be automatically controlled by the PLC, PC according to the operation of the operating system.

SBS dosing system 202 can be finely adjusted the input amount using the SBS pump 203, the input amount is automatically adjusted by the measuring sensor 212 installed at the rear end of the micro filter 50, storage tank level sensor and operation It is composed of automatic control by PLC and PC according to system operation status.

The H ₂ SO ₄ dosing system 208 can finely adjust the dose by using the H ₂ SO ₄ pump 209, the dose is automatically adjusted by a measuring sensor installed at the rear of the micro filter 50, the storage tank level It is composed of automatic control by PLC and PC according to sensor and operation system.

The antiscalant dosing system 204 can finely adjust the dose by using the antiscatant pump 205, the dose is automatically adjusted by the measuring sensor 213 installed at the rear of the micro filter 50, and the storage tank It is composed of automatic control by PLC and PC depending on the level sensor and operating system.

The NaOH dosing system 206 can be finely controlled by the NaOH pump 207, the dose is automatically adjusted by a pH sensor installed at the rear of the membrane 70, the storage tank level sensor and operation It is composed of automatic control by PLC and PC according to system operation status.

The cleaning pump 108 of the organic detergent (alkali) input device 102 and the inorganic detergent (acid) input device 104 and the microbial inhibitor input device 106 is omitted in the description of the CIP system of FIG. 4.

6 is a process control diagram of the sewage / wastewater effluent T-N, T-P, color removal recycling system and membrane cleaning system using the membrane of the present invention;

The present invention consists in operating with an automation and monitoring system of the whole process.

The transfer pump 20 is characterized in that the water level is adjusted by the level sensor installed in the discharge water storage tank 10 and the alkali tank 80 is automatically operated.

The NaOCI dosing system 200, the SBS dosing system 202, and the anti-scaling dosing system 204 are configured to automatically adjust the dosage by interlocking control of each transmitter.

The organic detergent (alkali) input pump 103 and the inorganic detergent (acid) input pump 105 of the cleaning system 100 are interlocked and controlled by a pH transmitter, and the chemicals are introduced, and the microbial inhibitor input pump 107 is a timer control. When the operation of the membrane 70 is stopped by the medicine is injected, the heating system 210 is controlled by the temperature transmitter to maintain the temperature of the cleaning tank at 30 ~ 40 ℃.

The valve connected to the membrane 70 is configured to be open when the transfer pump 20 is operated, and when the cleaning system 100 is operated, and close when the high pressure pump 60 is operated.

The present invention is a system for reusing effluent from the sewage and wastewater treatment plant 300, the effluent storage tank 10 for storing the effluent of the sewage and wastewater treatment plant 300, the effluent is transferred to the A / C filter 30 Transfer pump 20, A / C filter 30 to remove the organic material, chromaticity, ionic components contained in the effluent water, UV sterilizer 40 to remove bacteria and microorganisms contained in the discharge water, the effluent water Micro filter 50 for removing particulate matter of 1 to 5 micro or more, high pressure pump 60 for supplying a constant flow rate of the discharge water at a high pressure of 10kg / ㎠ or more, effluent water transferred from the high pressure pump 60 To operate at a high pressure of 10㎏ / ㎠ or more to store the treated water from the membrane 70, the membrane 70 to remove the TN, TP, chromaticity contained in the effluent water, can be smoothly supplied to the place of reuse And microbial propagation It consists of a recycle water tank (80) to inject sodium hydroxide (NaOH) to adjust the chemicals and recycled water to neutral, and a reuse water supply pump (90) for supplying the water in the recycle water tank (80) to each user It provides a sewage and wastewater effluent T-N, T-P, chromaticity removal reuse system using the membrane.

In addition, the A / C filter 30 is to remove the microorganisms and bacteria contained in the effluent by the chemical input by the NaOCI dosing system 200 in the front end, to remove the organic substances, chromaticity, ions contained in the effluent water It provides a sewage and wastewater effluent T-N, T-P, color removal recycling system using the membrane.

In addition, the UV sterilizer 40 provides sewage and wastewater effluent T-N, T-P, color removal recycling system using a membrane, characterized in that to remove bacteria, microorganisms contained in the effluent.

In addition, the micro filter 50 removes the hardness material contained in the effluent by chemical injection by the anti-scaling dosing system 204 at the front end and installs the SBS dosing system 202 to prevent the membrane 70 from being oxidized. The present invention provides a sewage / wastewater effluent T-N, T-P, color removal recycling system using a membrane, wherein the reducing agent is added to prevent damage, and then 1-5 micro particles or more are removed.

In the reuse treatment system of sewage and wastewater effluent using the membrane 70, the membrane 70 is an organic detergent (alkali) input device 102, inorganic detergent (acid) input device ( 104) provides a membrane cleaning method comprising a cleaning system 100 for increasing the lifespan and processing efficiency of the membrane 70 by cleaning the membrane using the microbial inhibitor injector 106.

When the organic detergent (alkali) injector 102 is contaminated with organic deposits on the membrane 70, an alkaline detergent is added to remove organic substances from the membrane 70, thereby increasing the lifespan and processing efficiency of the membrane 70. By providing a membrane cleaning method characterized in that the drug is added to the interlocking control by the pH transmitter.

When the inorganic detergent (acid) injector 104 is contaminated with an inorganic scale deposit on the membrane 70, an acid detergent is added to remove the inorganic material from the membrane 70, thereby extending the lifespan and processing efficiency of the membrane 70. The present invention provides a membrane cleaning method characterized in that the chemicals are introduced by interlocking control by a pH transmitter.

The microbial inhibitor injector 106 prevents damage to the membrane 70 due to the propagation of microorganisms by injecting chemicals when the membrane 70 system is stopped for a long time, thereby controlling timers when the membrane 70 is stopped. It provides a and a membrane cleaning method characterized in that the drug is injected by.

The cleaning system 100 is selectively and independently circulated and repeatedly cleaned, increasing the cleaning efficiency of the membrane 70 at a pressure and a flow rate of 4 kg / cm 2, and changing the water level by a level sensor installed in the cleaning tank 109. It operates automatically, prevents the pump idling by installing a pressure switch, and maintains the temperature of the cleaning tank 109 at 30 ~ 40 ℃ by the heating system 210 controlled by a temperature transmitter to increase the cleaning efficiency It provides a membrane cleaning method.

The cleaning system 100 provides a membrane cleaning method further comprising a CIP micro filter 110 for removing particulate matter generated during cleaning of the membrane 70.

As described above, the present invention reduces the load on the membrane by applying a chemical to the effluent for reuse of sewage and wastewater effluent, and then, through the filter, pretreatment process for treating organic matter, inorganic matter, microorganisms and bacteria. It has the effect of increasing the treatment efficiency, and it is effective to restore the membrane's lifespan and treatment efficiency by washing the membrane using the automatic cleaning system using the chemicals such as alkali and acid when the treatment efficiency of the membrane is lowered. It is possible to prevent damage to the membrane by microorganisms by constructing a system that can suppress the growth of microorganisms during non-operation.

The foregoing description of the present invention is intended for illustration, and it will be understood by those skilled in the art that the present invention may be easily modified in other specific forms without changing the technical spirit or essential features of the present invention. will be.

Therefore, it should be understood that the embodiments described above are exemplary in all respects and not restrictive. For example, each component described as a single type may be implemented in a distributed manner, and similarly, components described as distributed may be implemented in a combined form.

The scope of the present invention is shown by the following claims rather than the detailed description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the present invention.

10: discharged water storage tank 20: transfer pump
30: A / C filter 40: UV sterilizer
50: micro filter 60: high pressure pump
70: membrane 80: reuse tank
90: reused water supply pump 100: cleaning system
102: organic detergent (alkali) input device 103: organic detergent (alkali) input pump
104: inorganic detergent (acid) input device 105: inorganic detergent (acid) injection pump
106: microbial inhibitor input device 107: microbial inhibitor input pump
108: cleaning pump 109: cleaning tank
110: CIP micro filter 200: NaOCI dosing system
201: NaOCI pump 202: SBS dosing system
203: SBS Pump 204: Anti-Scalant Dosing System
205: anti-scalant pump 206: NaOH dosing system
207: NaOH pump 208: H ₂ SO ₄ Dosing system
209: H ₂ SO ₄ pump 210: Heating system
211, 212, 213: Measuring sensor 300: Sewage and wastewater treatment plant
400: preprocessing unit

Claims (10)

In the system for reusing the effluent of the sewage and wastewater treatment plant 300 using the membrane 70,
Discharge water storage tank 10 for storing the discharge water of the sewage and waste water treatment plant 300;
A transfer pump 20 for transferring the discharge water to the A / C filter 30;
An A / C filter 30 for removing organic substances, chromaticities, and ions contained in the discharged water;
UV sterilizer 40 for removing bacteria and microorganisms contained in the discharge water;
A micro filter 50 for removing 1 to 5 micro particles or more of the discharged water;
A high pressure pump 60 for supplying the discharge water at a constant pressure of 10 kg / cm 2 or more at a constant flow rate;
Membrane 70 for removing the TN, TP, chromaticity contained in the effluent by operating the discharge water transferred from the high-pressure pump 60 at a high pressure of 10kg / ㎠ or more;
By storing the treated water treated in the membrane 70, it is possible to supply the reused water smoothly to the place of use, and chemicals (NaOCI) for inhibiting microbial propagation and sodium hydroxide (NaOH) for neutrally adjusting the recycled water. Re-use tank 80 to put;
Recycling water supply pump (90) for supplying the water in the reuse tank (80) to each user; sewage and wastewater effluent using the membrane T-N, T-P, color removal recycling system. The method of claim 1,
The A / C filter 30 removes the microorganisms and bacteria contained in the effluent by the chemical input by the NaOCI dosing system 200 at the front end, and then removes organic substances, colors, ions contained in the effluent. Sewage and wastewater effluent T-N, T-P, chromaticity removal reuse system using membrane. The method of claim 1,
The UV sterilizer 40 is a sewage and wastewater effluent T-N, T-P, using a membrane, characterized in that to remove the bacteria, microorganisms contained in the effluent water, color removal recycling system. The method of claim 1,
The micro filter 50 removes the hardness material contained in the effluent by chemical injection by the anti-scaling dosing system 204 at the front end and installs the SBS dosing system 202 to prevent damage of the membrane 70 by the oxidant. In order to prevent this, a reducing agent is introduced, and the H ₂ SO ₄ dosing system 208 adjusts the pH of the sewage and wastewater effluent to suppress scale fouling of the membrane 70, thereby removing 1-5 micro particles or more of particulate matter. A sewage / wastewater effluent T-N, T-P, chromaticity removal reuse system using a membrane, characterized in that. delete delete delete delete delete delete

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