KR20000002029A - Filter system for waste water treatment by using chemical treatment method and organic waste water treatment method by using it - Google Patents

Abstract

PURPOSE: A process for treating biologically treated water by using a filter system is provided which gives an effective filtration of fine suspended solids and colloidal particles in treated water. CONSTITUTION: The system comprises the 1st line(10) for flowing in waste water, the 2nd line(20) for supplying a coagulant aid such as aluminium to form a floc to waste water flowing in the 1st line, the 3rd(30) line for supplying a polymer coagulant to waste water flowing in the 1st line, and plural filter mediums(42). Also the system comprises a filter medium layer(40) with a diameter of 2-3mm for filtering a pollutant from waste water flowed in through the 1st line, a fine screen(50) for filtering fine particle and the 4th line(70) for discharging treated water to the outside. A gravel layer may be placed between the fine screen(50) and the 4th line(70).

Description

Wastewater treatment filter system using chemical treatment method and organic wastewater treatment method using same

The present invention relates to a wastewater treatment apparatus and method, and more particularly, to a filter system for wastewater treatment and a method for treating organic wastewater using the same for improving the filtration efficiency of biologically treated wastewater.

Biologically treated organic wastewater has good water quality standards such as BOD (Biochemical Oxygen Demand), COD (Chemical Oxygen Demand), etc., but there are problems in turbidity and chromaticity by Suspended Solids (SS).

Conventionally, in order to solve the above problems, the treated water of biologically treated organic wastewater has been used in the filtration process using sand, the adsorption process using activated carbon, or the process of continuously mixing and mixing these processes.

However, since the SS component remaining in the treated water is very small in size and similar to colloidal particles, the SS component is removed by a physical filtration process using particles such as sand and activated carbon as in the conventional method. There is a limit to doing so. As a result, in many cases, problems such as increased turbidity by SS in biologically treated water are generated.

It is an object of the present invention to provide a filter system capable of efficiently filtering fine SS, colloidal particles and the like in biologically treated organic wastewater.

Another object of the present invention is to provide a wastewater treatment method for efficiently treating biologically treated organic wastewater using the filter system described above.

1 is a view schematically showing a filter system for wastewater treatment according to a preferred embodiment of the present invention.

Figure 2 illustrates the process of forming a floc using aluminum as the flocculent aid.

Figure 3 illustrates the process of floc and polymer aggregates to form floc aggregates.

<Explanation of symbols for main parts of the drawings>

10: first line, 20: second line

30: third line, 40: media layer

42: media, 50: fine screen

60: gravel layer, 70: fourth line

In order to achieve the above object, the wastewater treatment filter system according to the present invention is to form a floc in the first line for introducing the wastewater and the wastewater connected to the first line and flowing through the first line. A second line for supplying a coagulant adjuvant, a third line for supplying a polymer coagulant to the wastewater connected to the first line and flowing through the first line, and a plurality of media, A filter bed for filtering contaminants from the wastewater introduced through the first line, a fine screen for filtering fine particles from the wastewater discharged from the filter bed, and a fourth line for discharging the treated water having completed the wastewater treatment to the outside. Equipped.

The coagulant aid is aluminum.

The plurality of media constituting the media layer is formed of an adhesive material such that the polymer coagulant supplied through the third line may be attached.

The filter system for wastewater treatment according to the present invention may further include a gravel layer formed between the fine screen and the fourth line.

In order to achieve the above another object, in the wastewater treatment method according to the present invention (a) floc is formed by adding a flocculant to the wastewater containing SS (Suspended Solids). (b) A flocculant in which the floc is formed by adding a polymer flocculant to the floc formed wastewater to form floc agglomerates. (c) A plurality of media are used to filter the floc aggregates from the wastewater.

In step (a), organic wastewater which has undergone a biological wastewater treatment process is used as the wastewater.

In step (a), the flocculating aid is aluminum.

In the step (c), the media has a diameter of 2-3 mm each.

In the step (c), the flock aggregates are filtered out using the media layers arranged such that a plurality of media are formed in the gap between each media.

In addition, in the wastewater treatment method according to the present invention, after step (c), (d) a microporous medium layer composed of a plurality of mediums having a polymer layer formed around each medium is prepared. (e) Wastewater from step (c) passes through the microporous media layer.

Each of the media wrapped in the polymer layer in the micro-pore media layer is arranged such that a gap of 0.1 μm is formed between each polymer layer.

In the step (d), the media is made of a tacky material to which a polymer can be attached, and the polymer layer formed around the media is composed of the polymer flocculant added in the step (b).

In the step (d), the fine pore media layer is formed by passing the polymer coagulant through the media layer consisting of the plurality of media.

In addition, in the wastewater treatment method according to the present invention, after the step (e), (f) the wastewater passing through the microporous medium layer passes through the fine screen. Thereafter, (g) may further comprise the step of passing the waste water passing through the micro screen through the gravel layer.

According to the present invention, the fine SS and the colloidal particles contained in the treated water can be filtered smoothly, and the filtering efficiency can be maximized.

Next, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a view schematically showing a filter system for wastewater treatment according to a preferred embodiment of the present invention.

Referring to FIG. 1, a wastewater treatment filter system according to the present invention includes a first line 10 for introducing wastewater and wastewater connected to the first line 10 and flowing through the first line 10. A second line 20 for supplying flocculation aids, for example aluminum, to form flocs in the wastewater, and wastewater connected to the first line 10 and flowing through the first line 10. And a third line 30 for supplying the polymer flocculant. Wastewater flowing into the first line 10 is wastewater that has undergone a biological treatment process, and the wastewater flowing into the first line 10 contains SS (Suspended Solids).

In addition, the filter system for wastewater treatment according to the present invention is composed of a plurality of filter media (42), the filter media layer (40) for filtering contaminants from wastewater introduced through the first line (10), and the filter media A fine screen 50 for filtering fine particles from the wastewater discharged from the layer 40 and a fourth line 70 for discharging the treated water having completed the wastewater treatment to the outside are provided.

The plurality of media 42 constituting the media layer 40 is formed of an adhesive material so that the polymer coagulant supplied through the third line 30 may be attached.

In addition, the filter system for wastewater treatment according to the present invention further includes a gravel layer 60 formed between the fine screen 50 and the fourth line 70.

The wastewater treatment method according to the method of the present invention using the wastewater treatment filter system according to the present invention configured as described above will be described with reference to FIG. 1.

First, a second line is supplied to the wastewater flowing through the first line 10 while supplying wastewater containing SS (Suspended Solids) as a biological wastewater treatment process into the filter system through the first line 10. Through 20, flocculation aids such as aluminum are added to form flocs.

Figure 2 illustrates the process of forming a floc using aluminum as the flocculent aid.

A flocculant is formed by aggregating flocs in the wastewater by adding a polymer flocculant to the floc-formed wastewater through the third line 30.

Figure 3 illustrates the process of floc and polymer aggregates to form floc aggregates.

When the floc aggregates are formed as described above, the floc aggregates are filtered out from the wastewater by using a plurality of filter media 42. At this time, the filter medium 42 has a diameter of 2 to 3mm, respectively, the plurality of filter medium 42 constitutes a filter layer 40 is arranged so that a gap of 0.1mm is formed between each filter medium, and The floc aggregate is filtered using the filter medium layer 40 configured as described above.

Subsequently, by forming a polymer layer around each of the filter media 42 constituting the filter media layer 40, a microporous filter media layer composed of a plurality of filter media having a polymer layer formed thereon is prepared. Such a micro void medial layer is formed by passing the polymer coagulant through the media layer 40 composed of the plurality of media. Each of the media wrapped in the polymer layer in the micro-pore media layer thus formed is arranged such that a gap of 0.1 μm is formed between the polymer layers.

After the wastewater passes through the microporous medium layer, the wastewater passes through the fine screen 50, passes through the gravel layer 60, and is discharged through the fourth line 70.

As described above, according to the present invention, since the first biologically treated wastewater is treated using a filter system using a chemical treatment method, the fine SS and colloidal particles contained in the treated water are smoothly filtered. In addition, the filtering efficiency can be maximized by inserting a pretreatment process that greatly increases the fine SS in the form of floc aggregates before the filtering process by the filter medium.

The present invention has been described in detail with reference to preferred embodiments, but the present invention is not limited to the above embodiments, and various modifications can be made by those skilled in the art within the scope of the technical idea of the present invention. Do.

Claims (15)

A first line for introducing wastewater, A second line connected to the first line for supplying flocculation aids capable of forming flocs in the wastewater flowing through the first line; A third line connected to the first line for supplying a polymer flocculant to the wastewater flowing through the first line; A filter media layer composed of a plurality of filter media and filtering contaminants from wastewater introduced through the first line, A fine screen for filtering fine particles from the wastewater discharged from the media layer, And a fourth line for discharging the treated water having completed the wastewater treatment to the outside. The filter system of claim 1, wherein said coagulant aid is aluminum. The filter system for wastewater treatment as claimed in claim 1, wherein the plurality of media forming the medial layer is formed of an adhesive material such that the polymer coagulant supplied through the third line is attached thereto. The filter system for wastewater treatment as claimed in claim 1, further comprising a gravel layer formed between the fine screen and the fourth line. (a) adding flocculation aids to wastewater comprising Suspended Solids to form flocs, (b) adding a flocculant to the floc formed wastewater to agglomerate the flocs in the wastewater to form floc agglomerates, (c) filtering the floc aggregates from the wastewater using a plurality of media. The wastewater treatment method according to claim 5, wherein the wastewater in step (a) is organic wastewater which has undergone a biological wastewater treatment process. The method of claim 5, wherein the flocculating aid in step (a) is aluminum. The wastewater treatment method according to claim 5, wherein in the step (c), the media has a diameter of 2 to 3 mm, respectively. 6. The wastewater treatment method according to claim 5, wherein in said step (c), said flock aggregate is filtered using a filter bed layer in which said plurality of filter media is arranged such that a gap of 0.1 mm is formed between each filter medium. The method of claim 5, wherein after step (c) (d) preparing a microporous media layer composed of a plurality of media media having a polymer layer formed around each media media, (e) the wastewater treatment method further comprising the step of passing the wastewater having passed through the step (c) through the microporous medium layer. The wastewater treatment method according to claim 10, wherein each of the media wrapped in the polymer layer in the microporous media layer is arranged such that an air gap of 0.1 mu m is formed between the polymer layers. The method of claim 10, wherein the media in the step (d) is made of a tacky material to which the polymer can be attached, and the polymer layer formed around the media is composed of the polymer flocculant applied in the step (b). Wastewater treatment method. The method of claim 12, wherein in the step (d), the microporous media layer is formed by passing the polymer coagulant through the media layer formed of the plurality of media. The method of claim 10, wherein after step (e) (f) the wastewater treatment method further comprising the step of passing the wastewater that has passed through the microporous medium layer through the microscreen. The method of claim 14, wherein after step (f) (g) wastewater treatment method further comprising the step of passing through the gravel layer of the wastewater passing through the fine screen.