KR20160022530A - System and method for treating an organic wastewater using reverse osmosis membrane separation scheme - Google Patents

Abstract

The present invention relates to a system and a method for treating organic wastewater using the reverse osmosis membrane separation scheme. The system comprises: a pre-filtration unit for filtering water supplied from the outside, and then individually supplying the transmitted process water to a first and a second process facility; a first filtration unit for filtering first organic wastewater generated in the first process facility to generate concentrated water, and discharging the generated concentrated water to the outside; and a second filtration unit for gathering production water transmitted through the first filtration unit and second organic wastewater generated in the second process facility, and then filtering the same. The purpose of the present invention is to significantly reduce the cost required for the wastewater treatment process by simplifying the organic wastewater treatment process.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an organic wastewater treatment system and a reverse osmosis membrane separation system,

The present invention relates to a system and a method for treating organic wastewater by reverse osmosis separation, and more particularly, to a system and method for treating organic wastewater by reverse osmosis , Or an organic wastewater treatment system through reverse osmosis separation system in which recycled water can be recycled as process water from a process facility by re-filtering production water permeating through a reverse osmosis membrane by a reverse osmosis membrane method and allowing wastewater to be discharged separately to a final treatment plant ≪ / RTI >

In general, industrial wastewater discharged from the manufacturing process contains highly concentrated polymeric substances intact, which can cause severe environmental pollution problems when discharged. Therefore, there is a problem in that it is legally required to dilute it and discharge it or to provide a separate wastewater treatment facility.

Organic wastewater is produced for each process in a conventional manufacturing process, for example, a casting process, a coating process, a washing process, and a test process. In this case, the organic wastewater produced is a refractory material Since a large amount of m-phenylenediamine (MPD) having a high content of DMF (Dimethylformamide) or COD (Chemical Oxygen Demand) is contained, the wastewater treatment process is very complicated and the process water once used is difficult to be recycled. The processing cost is very high.

Korean Patent Publication No. 10-2013-0101280

DISCLOSURE OF THE INVENTION The present invention has been conceived to solve the above-mentioned problems, and it is an object of the present invention to provide a process for recovering organic wastewater produced by various process facilities through a reverse osmosis membrane system, The recycled water can be recycled as process water from the process facility and the wastewater can be discharged separately to the end treatment plant to simplify the organic wastewater treatment process and thus reduce the cost of the wastewater treatment process. The present invention provides a system and method for treating organic wastewater.

The organic wastewater treatment system through the reverse osmosis separation system according to an embodiment of the present invention may include filtering the water supplied from the outside and supplying the permeated process water to the first and second process facilities, Prefilter; A first filtration unit for producing concentrated water by filtering the first organic wastewater generated in the first processing facility and discharging the generated concentrated water to the outside; And a second filtration unit for collecting production water permeated through the first filtration unit and second organic wastewater generated in the second process facility and then filtering the produced water.

In one embodiment, the first process facility includes at least one casting process facility and at least one coating process facility, and the second process facility may include one or more wash process equipment and one or more test process equipment.

In one embodiment, some of the first organic wastewater produced in the one or more casting process equipment and the first organic wastewater generated in the one or more coating process equipment are filtered through the first filtering unit and discharged to the outside as the concentrated water And another portion of the first organic wastewater generated in the at least one coating process facility may be classified and permeated into the produced water and transferred to the second filtering unit.

In one embodiment, the second organic wastewater produced in the at least one washing process facility is filtered through an additional filtration unit and then delivered to the second filtration unit, and the second organic wastewater produced in the one or more test process units And may be transmitted to the second filter unit.

In one embodiment, the second filtration unit collects the produced water and the second organic wastewater, filters them, and classifies the wastewater into recycled water and wastewater.

In one embodiment, the second filtration unit may include a wastewater reservoir configured to store the wastewater and discharge the wastewater to the final treatment plant.

In one embodiment, the first filtering unit may include a concentrated water purifying unit configured to purify the concentrated water with a chemical substance.

In one embodiment, the pre-filtration unit, the first filtration unit, and the second filtration unit may be reverse osmosis membranes (RO membranes).

According to another aspect of the present invention, there is provided a method for treating organic wastewater through reverse osmosis separation, comprising filtering water supplied from the outside using a reverse osmosis membrane (RO membrane) Supplying the process water to the first and second process equipment, respectively; Filtering the first organic wastewater generated in the first processing facility to produce concentrated water, and discharging the generated concentrated water to the outside; And collecting the produced water to be permeated through the first filtering unit with the second organic wastewater generated in the second processing facility and then filtering the collected organic wastewater.

In one embodiment, the step of externally discharging the concentrated water comprises filtering a portion of the first organic wastewater produced in the one or more casting process facilities and the first organic wastewater generated in the one or more coating process facilities through a first filter portion Discharging it as concentrated water; And a step of sorting and transmitting another part of the first organic wastewater generated in the at least one coating process facility with the generated water and delivering it to the second filtering part.

In one embodiment, the step of discharging the concentrated water to the outside includes filtering the second organic wastewater generated in the at least one washing process facility through the additional filtration unit and transferring the second organic wastewater to the second filtration unit. And transferring the second organic wastewater generated in the one or more test process facilities to the second filtration unit.

In one embodiment, the collecting and filtering step may include collecting the produced water and the second organic wastewater, filtering the collected water, and classifying the wastewater into recycled water and wastewater.

In one embodiment, classification into recycled water and wastewater may include storing the wastewater in the wastewater reservoir for a specific period of time and discharging the wastewater to a final treatment plant.

In one embodiment, the step of discharging the concentrated water may include the step of purifying the concentrated water with a chemical through the concentrated water purification unit.

The present invention has the effect of supplying pure water into the various process facilities as process water by filtering foreign matter contained in the water by pre-filtering the water supplied from the outside through a reverse osmosis membrane.

In addition, the present invention can produce concentrated water by filtering organic wastewater having a high foreign matter content concentration in organic wastewater, and can purify the concentrated wastewater, convert it into a chemical substance, and recycle it.

In addition, the present invention separates organic wastewater into recycled water and wastewater, recycles the recycled water back to the process water, drastically reduces the process water usage cost, and simplifies the organic wastewater treatment process, It has an advantage that the cost of wastewater treatment can be drastically reduced.

1 is a block diagram schematically illustrating the configuration of an organic wastewater treatment system 100 through a reverse osmosis separation system according to an embodiment of the present invention.
FIG. 2 is a view sequentially showing organic wastewater treatment steps through an organic wastewater treatment system 100 through a reverse osmosis separation system according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in order to facilitate understanding of the present invention. However, the following examples are provided only for the purpose of easier understanding of the present invention, and the present invention is not limited by the examples.

FIG. 1 is a block diagram schematically showing a configuration of an organic wastewater treatment system 100 according to an embodiment of the present invention. FIG. 2 is a schematic view of a reverse osmosis separation system 100 according to an embodiment of the present invention. And the organic wastewater treatment system 100 through the organic wastewater treatment system 100 shown in Fig.

1 and 2, an organic wastewater treatment system 100 according to the present invention includes a pre-filtration unit 110, a first filtration unit 120, and a second filtration unit 130 And may further include an additional filtration unit 140, a wastewater storage unit 150, and a concentrated water purification unit 160.

First, the prefilter 110 filters the water supplied from the outside, and supplies the filtered process water to the first process facility (one or more casting process facility 101 and one or more (Including the coating process facility 102) and a second process facility (including one or more cleaning process facilities 103 and one or more test process facilities 104).

Herein, the term "water" refers to water supplied to a process facility, and the term "water" is interpreted as meaning that pure water is permeated without separating foreign matter in the water, and foreign matter is separated and separated. .

At this time, organic wastewater containing a large amount of refractory DMF (Dimethylformamide) is generated in one or more casting process facilities 101. The organic wastewater has CODmn, CODmr, and TN Corresponding to 619 ppm, 12330 ppm and 2250 ppm, respectively, or 299 ppm, 1856 ppm and 355 ppm, respectively.

Further, in the case of one or more coating process facilities 102, organic wastewater containing a large amount of m-phenylenediamine (MPD) having a high chemical oxygen demand (COD) is generated. In this case, The values of CODmn, CODmr and total nitrogen (TN) can correspond to 614 ppm, 4113 ppm and 104 ppm, respectively.

The pre-filtration unit 110 performing this role can filter the water using a Reverse Osmosis Membrane (RO Membrane) separation method. Since the reverse osmosis membrane separation method used at this time uses a known technique, A description thereof will be omitted.

The prefiltration unit 110 can separate foreign matter from the water and separate and discharge it, and only pure water can be supplied to the first and second process facilities.

However, the present invention is not limited to the reverse osmosis membrane separation method. It is not limited to the reverse osmosis membrane separation method, and may be applied to filtration of the pre-filtration unit 110 as long as the water can be filtered. Note that the scheme is not limited.

Next, the first filtration unit 120 filters the first organic wastewater generated in at least one casting process facility 101 and at least one coating process facility 102 to produce concentrated water, As shown in FIG.

The first organic wastewater can be filtered by using the reverse osmosis membrane separation method like the pre-filtration unit 110. Here, the first organic wastewater refers to one or more castings It will be understood that the various casting wastewater discharged from one or more casting process facility 101 and one or more coating process facility 102 together with the process water supplied in process facility 101 and one or more coating process facility 102 means a diluted by- can do.

The first filtering unit 120 performs the function of filtering the foreign matter in the first organic wastewater and discharging it separately. The water component removed from the first organic wastewater can be passed through the first filtering unit 120, They can be classified as water and recycled again. Accordingly, the first filtration unit 120 can supply the produced water to the second filtration unit 130, which will be described later.

In one embodiment, a portion of the first organic wastewater produced in the one or more casting process facilities 101 and the first organic wastewater generated in the one or more coating process facilities 102 is passed through the first filtration section 120 described above And the other part of the first organic wastewater generated in the at least one coating process facility 101 may be classified into the production water and may be classified into the production water and the second filtration And may be directly supplied to the unit 130.

In another embodiment, the first organic wastewater generated in one or more casting process facilities 101 or one or more coating process facilities 102 is fed directly to the second filtration unit 130, rather than to the first filtration unit 120 It can be.

In one embodiment, the first filtration section 120 may comprise a concentrated water purification section 160 capable of purifying the filtered concentrated water with a chemical, and such purified chemical is reusable The waste water treatment cost can be further reduced.

Next, the second filtration unit 130 is connected to the second organic wastewater generated in the at least one washing process facility 103 and at least one of the test process facilities 104, and the second organic wastewater produced in the first filtration unit 120 The water can be collected and filtered to separate the recyclable water and wastewater that can be recycled.

The second filtration unit 130 performing such a role can use a reverse osmosis membrane separation method like the pre-filtration unit 110 and the first filtration unit 120, and a detailed description of the separation scheme will be omitted.

In one embodiment, at least one of the at least one cleaning process facility 103 or at least one of the at least one test process facility 104 may be provided with an additional filtration device 140, May be filtered once through the second filter unit 140 and then transferred to the second filter unit 130.

On the other hand, the recycled water separated through the second filtration unit 130 can be recycled to the process water, and the wastewater can be stored in the wastewater storage unit 150 and then transferred to the end-treatment plant through the wastewater collecting tank.

The CODmn and the CODmr of the wastewater are adjusted to the inflow criterion in order to match the inflow criterion of the second filtration unit 130. In this case, Filtration can be performed.

The organic wastewater treatment method using the organic wastewater treatment system 100 through the reverse osmosis separation system will be described below in order.

First, the water supplied from the outside is filtered by the pre-filtration unit 110 using the reverse osmosis membrane separation method, and then the process water that is not filtered is supplied to the first and second process facilities, respectively.

Thereafter, the first organic wastewater generated in the first process facility is filtered in the first filtration unit 120 to generate concentrated water. The concentrated water thus generated is discharged to the outside, and is discharged to the concentrated water purification unit 160, ≪ / RTI > and converted to a chemical and reused. At this time, the water component which is not filtered but filtered by the first filtration unit 120 is classified into production water and supplied to the second filtration unit 130.

Next, the second organic wastewater generated in the second process facility and the produced water permeated in the first filtration unit 120 are collected and filtered together in the second filtration unit 130, and the second filtration unit 130 The recycled water and the waste water are separated.

Since the recycled water can be reused as the process water, it can be re-supplied to the first and second process facilities, and the wastewater can be stored in the wastewater storage unit 150 and then transferred to the final treatment plant through the wastewater collection tank .

As described above, the system and method for treating organic wastewater through the reverse osmotic pressure separation system according to the present invention filters out foreign matter contained in the water by pre-filtering the water supplied from the outside through the pre- The organic wastewater can be purified to produce concentrated water, which can be purified and reused as a chemical substance. Therefore, it is advantageous in that an incidental income source is generated, It is possible to remarkably reduce the cost of using the process water and to simplify the organic wastewater treatment process, thereby greatly reducing the cost of the organic wastewater treatment process You can have an advantage.

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 present invention as defined by the following claims It can be understood that

100: Organic wastewater treatment system using reverse osmosis separation system
101: casting process equipment
102: Coating process equipment
103: Cleaning process equipment
104: Test process facility
110: prefilter
120: first filter section
130: Second filtration part
140: weight and filtration device
150: Wastewater storage section
160: concentrated water purification unit

Claims (14)

A prefilter for filtering the water supplied from the outside and supplying the process water to the first and second process equipment, respectively;
A first filtration unit for producing concentrated water by filtering the first organic wastewater generated in the first processing facility and discharging the generated concentrated water to the outside; And
And a second filtration unit for collecting the product water permeated by the first filtration unit and the second organic wastewater generated in the second process facility and then filtering the product water.
Organic waste water treatment system through reverse osmosis separation system.
The method according to claim 1,
Wherein the first process facility comprises:
One or more casting process equipment and one or more coating process equipment, and
The second process facility includes:
At least one cleaning process facility and at least one test process facility.
Organic waste water treatment system through reverse osmosis separation system.
3. The method of claim 2,
Wherein the first organic wastewater generated in the one or more casting process facilities and a portion of the first organic wastewater generated in the one or more coating process facilities are filtered through the first filtering unit and discharged to the outside as the concentrated water,
Wherein a portion of the first organic wastewater generated in the at least one coating process facility is sorted and permeated into the product water and transferred to the second filtration unit.
Organic waste water treatment system through reverse osmosis separation system.
3. The method of claim 2,
The second organic wastewater generated in the at least one washing process facility is filtered through an additional filtration device and then delivered to the second filtration section,
Wherein the second organic wastewater generated in the at least one test process facility is transferred to the second filtration unit.
Organic waste water treatment system through reverse osmosis separation system.
The method according to claim 1,
The second filtering unit may include:
Collecting the produced water and the second organic wastewater, collecting the collected organic wastewater, filtering the collected organic wastewater, separating the wastewater into recycled water and waste water,
Organic waste water treatment system through reverse osmosis separation system.
6. The method of claim 5,
The second filtering unit may include:
And a waste water reservoir configured to store the waste water and discharge the waste water to a terminal treatment plant.
Organic waste water treatment system through reverse osmosis separation system.
The method according to claim 1,
Wherein the first filtering unit comprises:
And a concentrated water purifying unit configured to purify the concentrated water with a chemical substance.
Organic waste water treatment system through reverse osmosis separation system.
The method according to claim 1,
The pre-filtration unit, the first filtration unit, and the second filtration unit,
Characterized in that a reverse osmosis membrane (RO membrane) separation method is used,
Organic waste water treatment system through reverse osmosis separation system.
A step of filtering the water supplied from the outside using a reverse osmosis membrane (RO membrane) separation method and supplying the permeated process water to the first and second process facilities, respectively;
Filtering the first organic wastewater generated in the first processing facility to produce concentrated water, and discharging the generated concentrated water to the outside; And
And collecting the produced water permeated by the first filtering unit with the second organic wastewater generated in the second processing facility and then filtering the collected organic wastewater.
A method of organic wastewater treatment by reverse osmosis separation.
10. The method of claim 9,
Wherein the step of discharging the concentrated water to the outside comprises:
Filtering a portion of the first organic wastewater produced in the at least one casting process facility and the first organic wastewater generated in the at least one coating process facility through a first filter and discharging the first organic wastewater externally with concentrated water; And
And separating and transmitting another part of the first organic wastewater generated in the at least one coating process facility to the second filtering unit.
A method of organic wastewater treatment by reverse osmosis separation.
10. The method of claim 9,
Wherein the step of discharging the concentrated water to the outside comprises:
Filtering the second organic wastewater generated in the at least one washing process facility through the additional filtration unit and transferring the filtered second organic wastewater to the second filtration unit; And
And transferring the second organic wastewater produced in the at least one test process facility to the second filtration unit.
A method of organic wastewater treatment by reverse osmosis separation.
10. The method of claim 9,
After collecting and filtering,
Collecting the produced water and the second organic wastewater, filtering and sorting the wastewater into recycled water and wastewater.
A method of organic wastewater treatment by reverse osmosis separation.
13. The method of claim 12,
The step of classifying into recycled water and wastewater comprises:
And storing the wastewater in the wastewater storage unit for a specific period of time and discharging the wastewater to the final treatment plant.
A method of organic wastewater treatment by reverse osmosis separation.
10. The method of claim 9,
Wherein the step of discharging the concentrated water to the outside comprises:
And purifying the concentrated water with a chemical substance through a concentrated water purification unit.
A method of organic wastewater treatment by reverse osmosis separation.

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