KR20140114586A - Sludge and Waste Water Treatment Apparatus of High Density and nitrogen treatment process using the same - Google Patents

Abstract

The present invention relates to an apparatus for treating wastewater of high density, which simplifies composition because not using chemicals and not furnishing a processing means for reprocessing the chemicals, and also processes the wastewater more efficiently, and to a treatment system using the same, and more specifically, an apparatus for treating wastewater of high density, which reduces sludge and phosphorus by processing the wastewater and livestock wastewater of high density without separating solid and liquid and using chemicals, and recycles the processed wastewater by being liquefied, and to a treatment system using the same.

Description

[0001] The present invention relates to a treatment tank for treatment of high concentration waste water and wastewater, and a treatment system using the same.

The present invention relates to a highly efficient wastewater treatment system, and more particularly to a wastewater treatment system which does not require chemicals for the reprocessing of chemicals, thereby simplifying the construction and more efficiently treating wastewater And a treatment system using the treatment tank.

More specifically, the present invention can treat sludge and phosphorus by treating high-concentration waste water and livestock wastewater without using solid-liquid separation, without using chemicals, and can also reduce the amount of processed livestock wastewater to be recycled A treatment tank for treating a high concentration waste water and wastewater, and a treatment system using the same.

Generally, pollution substances contained in wastewater discharged from homes or factories pollute rivers, rivers or oceans, resulting in serious environmental problems such as the death of aquatic organisms and the destruction of ecosystems such as algae and fish due to the deposition of suspended matter . Accordingly, various methods for purifying contaminants of wastewater discharged from the waste water have been proposed and used. Typical examples thereof include various methods such as precipitation, adsorption, ion exchange, neutralization, coagulation, floatation and reverse osmosis The pollutants are removed, and the treated water from which the pollutants have been removed is recycled.

Patent literatures 1 to 4 are known as technologies related to conventional wastewater treatment

Such conventional wastewater treatment system is a means for separating sludge (hereinafter referred to as "sludge"), which is a cause of contamination at the beginning of the introduction of wastewater, on the premise of biological treatment as described above, And a sediment separation means using sedimentation and pore-forming microorganism contact media. However, such filtration membranes and filter media are often clogged by sludge or can not function due to sludge accumulation, so that they must be cleaned from time to time, , There is a problem that the quality of the water quality deteriorates due to weak response due to sludge accumulation. Therefore, the conventional purification facility is provided with an advanced treatment facility at the rear end.

These advanced treatment facilities include anaerobic or anoxic tank, but they do not differ from sedimentation tanks that do not provide oxygen, and even if they provide a fixed microbial contact media, they are not able to cope with excess sludge. Therefore, it is troublesome to perform artificial collection and cleaning for sludge removal. Especially, in the case of livestock wastewater, the amount of accumulated sludge is large, so that the size of the anaerobic tank is inevitably increased. There is a falling problem.

Conventional wastewater treatment plants are equipped with chemicals or additional treatment facilities to treat wastewater. However, when chemicals are used, there is a need to treat the chemical agents again and water is re-contaminated by residual chemicals. In addition, there is a problem that excessive installation costs and maintenance expenses are required when installing additional facilities.

Especially, in the case of livestock farmers, it is necessary to provide a facility for treating livestock wastewater. However, when the facility is complicated, it takes a lot of installation cost and is difficult to maintain.

1. Korea Patent No. 0228571 2. Korean Patent Publication No. 1998-064938 3. Korean Patent Registration No. 1161165 4. Korean Patent No. 1085872

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems of the prior art,

In order to achieve the above object, the present invention provides an anaerobic tank (1) installed in a waste water treatment system for purifying treated water using aerobic bacteria,

The anaerobic tank (1)

A bath main body 10 having a bottom inclined toward the center so that sludge is collected at the center;

A support (11) supported by the support means of the bath main body (10) and providing a habitat environment of anaerobic microorganisms;

A hot air supply pipe (12) for supplying hot air heated by heat generated in a reaction in another tank; And

And conveying means (13) for conveying the sludge collected at the center of the bath main body (10) to a settling tank.

The method according to claim 1,

The conveying means (13) comprises an underwater pump (P) installed at the bottom center of the bath main body (10);

And a transfer line (L) for transferring the sludge pumped by the submerged pump (P) to the sedimentation tank.

An aerobic tank (2) installed in a waste water treatment system for purifying treated water by using aerobic bacteria,

The aerobic tank (2)

A bath main body 20 in which process water containing sludge is stored;

A support (21) supported by the support means inside the tank (20) and providing a habitat environment of aerobic microorganisms;

A V-shaped structure 22 having a downward slope toward the center so that sludge at the bottom of the bath main body 20 is collected at the center;

A pumping means (23) for lifting the organic sludge and treated water, which are loaded in the center of the bath main body (20), up to the upper side and dropping the treated organic sludge into the microorganism contacting carrier (21);

And a flow-through water end (24) for preventing the treatment water drawn upward by the above-mentioned water-pumping means from flowing into the adjacent treatment bath and feeding it to the lower end of the next treatment bath.

The method of claim 3,

The pumping means (23) includes a pumping pipe (211) installed at the center of the bath main body (20);

An air tube 212 which is provided at the center of the water pipe 211 and has a plurality of air holes 212h at the lower end thereof and supplies the air pumped by the air pump 21p to the lower end of the water pipe 21, ;

A reflection plate 213 installed at the lower end of the air tube 212 to reflect the air supplied through the vent hole 212h to the upper side and allowing the process water flowing into the lower end of the pumping pipe 211 to flow over the upper end of the pumping pipe, And a control unit for controlling the operation of the control unit.

The method of claim 3,

Further comprising conveying means (25) for conveying the collected sludge to the sedimentation tank at the center of the bath main body (20)

The conveying means (25) includes an underwater pump (P) installed at the bottom center of the bath main body (20);

And a transfer line (L) for transferring the sludge pumped by the submerged pump (P) to the sedimentation tank.

The method according to claim 1 or 3,

(BW) for spraying high-pressure water to the bottom of the carrier (11, 21) and separating the sludge of the hole formed in the carrier, and the backwashing means (BW) And a plurality of high-pressure spray nozzles (BN) for spraying air.

In the filter material (3) provided in the water treatment tank of the waste water treatment system to provide an environment in which microorganisms are inhabited,

Wherein the filter medium (3) is a tube body (3p) having a plurality of corrugations (3w) formed on the side wall and widening a contact area with the treated water.

In the filter material (3) provided in the water treatment tank of the waste water treatment system to provide an environment in which microorganisms are inhabited,

Wherein the filter medium (3) is formed by connecting the corrugated tubes (3p) to each other, and at least three or more corrugated tubes (3p) are connected to each other at equal angles.

A filter medium (3 ') provided in a water treatment tank of a waste water treatment system to provide an environment in which microorganisms are inhabited,

Wherein the filter medium (3) has hollow tubes (3p) connected to each other, and at least three or more of the hollow tubes (3p) are connected to each other at an equal angle.

A wastewater treatment system for purifying wastewater or livestock wastewater by using the treatment tank and the filter material according to any one of claims 1 to 8,

A treated water collecting tank 1c in which wastewater is self-cleaning;

An organic matter decomposition tank 1d for introducing a predetermined amount of wastewater and livestock wastewater separated and precipitated with an inorganic substance and a polymer in the water collecting tank 1c and decomposing the organic matter using oxygen and heat generated in the following disinfection / disinfection tank;

A first anaerobic tank (1 ₁ ) provided with a support (3, 3 ') for providing a habitat environment of the anaerobic microorganisms therein, and for precipitating and denitrifying the treated water treated in the first organic decomposition tank (1d);

A first aerobic tank (2 ₁ ) provided with a support (3, 3 ') for providing a habitat environment of aerobic microorganisms therein, for dispersing and decomposing the polymer organic matter treated in the anaerobic tank ( ₁ );

A second anaerobic tank (1 ₂ ) for settling and denitrifying the treated water treated in the aerobic tank (2); a support (3, 3 ') for providing a habitat environment of the anaerobic microorganism inside;

A carrier (3, 3 ') to provide a habitat of the aerobic microorganisms on the inside is provided, the second the second aerobic tank for decomposing and dispersing the polymeric retention untreated organic matter in anaerobic _{(12) (22);}

A sedimentation tank 4 for sedimentation of treated water and surplus sludge treated in the second aquarium basin 2 ₂ ;

An advanced treatment tank 5 capable of removing untreated nitrogen compounds and phosphorus from the sedimentation tank 4; And a sterilizing / disinfecting tank (6) for removing sterilization and fine molecules in the sludge remaining in the treated water in the advanced treatment tank (5) and electrolyzing the treated water to sterilize the bacteria High concentration waste water treatment system.

Waste water and livestock wastewater can be treated at a high concentration without using solid-liquid separation and without the use of chemicals, whereby sludge and phosphorus can be reduced, and the treated livestock wastewater can be recycled by liquefaction.

Fig. 1 is a cross-

In an anaerobic tank (1) installed in a wastewater treatment system for purifying treated water using aerobic bacteria,

The anaerobic tank (1)

A bath main body 10 having a bottom inclined toward the center so that sludge is collected at the center;

A support (11) supported by the support means of the bath main body (10) and providing a habitat environment of anaerobic microorganisms;

A hot air supply pipe (12) for supplying hot air heated by heat generated in a reaction in another tank; And

And conveying means (13) for conveying the sludge collected at the center of the bath main body (10) to a settling tank.

The method according to claim 1,

The conveying means (13) comprises an underwater pump (P) installed at the bottom center of the bath main body (10);

And a transfer line (L) for transferring the sludge pumped by the submerged pump (P) to the sedimentation tank.

An aerobic tank (2) installed in a waste water treatment system for purifying treated water by using aerobic bacteria,

The aerobic tank (2)

A bath main body 20 in which process water containing sludge is stored;

A support (21) supported by the support means inside the tank (20) and providing a habitat environment of aerobic microorganisms;

A V-shaped structure 22 having a downward slope toward the center so that sludge at the bottom of the bath main body 20 is collected at the center;

A pumping means (23) for lifting the organic sludge and treated water, which are loaded in the center of the bath main body (20), up to the upper side and dropping the treated organic sludge into the microorganism contacting carrier (21);

And a flow-through water end (24) for preventing the treatment water drawn upward by the above-mentioned water-pumping means from flowing into the adjacent treatment bath and feeding it to the lower end of the next treatment bath.

The method of claim 3,

The pumping means (23) includes a pumping pipe (211) installed at the center of the bath main body (20);

An air tube 212 which is provided at the center of the water pipe 211 and has a plurality of air holes 212h at the lower end thereof and supplies the air pumped by the air pump 21p to the lower end of the water pipe 21, ;

A reflection plate 213 installed at the lower end of the air tube 212 to reflect the air supplied through the vent hole 212h to the upper side and allowing the process water flowing into the lower end of the pumping pipe 211 to flow over the upper end of the pumping pipe, And a control unit for controlling the operation of the control unit.

The method of claim 3,

Further comprising conveying means (25) for conveying the collected sludge to the sedimentation tank at the center of the bath main body (20)

The conveying means (25) includes an underwater pump (P) installed at the bottom center of the bath main body (20);

And a transfer line (L) for transferring the sludge pumped by the submerged pump (P) to the sedimentation tank.

The method according to claim 1 or 3,

(BW) for spraying high-pressure water to the bottom of the carrier (11, 21) and separating the sludge of the hole formed in the carrier, and the backwashing means (BW) And a plurality of high-pressure spray nozzles (BN) for spraying air.

In the filter material (3) provided in the water treatment tank of the waste water treatment system to provide an environment in which microorganisms are inhabited,

Wherein the filter medium (3) is a tube body (3p) having a plurality of corrugations (3w) formed on the side wall and widening a contact area with the treated water.

In the filter material (3) provided in the water treatment tank of the waste water treatment system to provide an environment in which microorganisms are inhabited,

Wherein the filter medium (3) is formed by connecting the corrugated tubes (3p) to each other, and at least three or more corrugated tubes (3p) are connected to each other at equal angles.

A filter medium (3 ') provided in a water treatment tank of a waste water treatment system to provide an environment in which microorganisms are inhabited,

Wherein the filter medium (3) has hollow tubes (3p) connected to each other, and at least three or more of the hollow tubes (3p) are connected to each other at an equal angle.

A wastewater treatment system for purifying wastewater or livestock wastewater by using the treatment tank and the filter material according to any one of claims 1 to 8,

A treated water collecting tank 1c in which wastewater is self-cleaning;

An organic matter decomposition tank 1d for introducing a predetermined amount of wastewater and livestock wastewater separated and precipitated with an inorganic substance and a polymer in the water collecting tank 1c and decomposing the organic matter using oxygen and heat generated in the following disinfection / disinfection tank;

A first anaerobic tank (1 ₁ ) provided with a support (3, 3 ') for providing a habitat environment of the anaerobic microorganisms therein, and for precipitating and denitrifying the treated water treated in the first organic decomposition tank (1d);

A first aerobic tank (2 ₁ ) provided with a support (3, 3 ') for providing a habitat environment of aerobic microorganisms therein, for dispersing and decomposing the polymer organic matter treated in the anaerobic tank ( ₁ );

A second anaerobic tank (1 ₂ ) for settling and denitrifying the treated water treated in the aerobic tank (2); a support (3, 3 ') for providing a habitat environment of the anaerobic microorganism inside;

A carrier (3, 3 ') to provide a habitat of the aerobic microorganisms on the inside is provided, the second the second aerobic tank for decomposing and dispersing the polymeric retention untreated organic matter in anaerobic _{(12) (22);}

A sedimentation tank 4 for sedimentation of treated water and surplus sludge treated in the second aquarium basin 2 ₂ ;

An advanced treatment tank 5 capable of removing untreated nitrogen compounds and phosphorus from the sedimentation tank 4; And

And a sterilizing / disinfecting tank (6) for removing sterilization and fine molecules in the sludge remaining in the treated water in the advanced treatment tank (5) and electrolyzing the treated water to sterilize the bacteria. Wastewater treatment system.

Claims (9)

In an anaerobic tank (1) installed in a wastewater treatment system for purifying treated water using aerobic bacteria,
The anaerobic tank (1)
A bath main body 10 having a bottom inclined toward the center so that sludge is collected at the center;
A support (11) supported by the support means of the bath main body (10) and providing a habitat environment of anaerobic microorganisms;
A hot air supply pipe (12) for supplying hot air heated by heat generated in a reaction in another tank; And
And conveying means (13) for conveying the sludge collected at the center of the bath main body (10) to a settling tank. An aerobic tank (2) installed in a waste water treatment system for purifying treated water by using aerobic bacteria,
The aerobic tank (2)
A bath main body 20 in which process water containing sludge is stored;
A support (21) supported by the support means inside the tank (20) and providing a habitat environment of aerobic microorganisms;
A V-shaped structure 22 having a downward slope toward the center so that sludge at the bottom of the bath main body 20 is collected at the center;
A pumping means (23) for lifting the organic sludge and treated water, which are loaded in the center of the bath main body (20), up to the upper side and dropping the treated organic sludge into the microorganism contacting carrier (21); And
And a flow-through water end (24) for preventing the treatment water drawn upward by the above-mentioned water-pumping means from flowing into the adjacent treatment bath and feeding it to the lower end of the next treatment bath. 3. The method of claim 2,
The pumping means (23) includes a pumping pipe (211) installed at the center of the bath main body (20);
An air tube 212 which is provided at the center of the water pipe 211 and has a plurality of air holes 212h at the lower end thereof and supplies the air pumped by the air pump 21p to the lower end of the water pipe 21, ;
A reflection plate 213 installed at the lower end of the air tube 212 to reflect the air supplied through the vent hole 212h to the upper side and allowing the process water flowing into the lower end of the pumping pipe 211 to flow over the upper end of the pumping pipe, And a control unit for controlling the operation of the control unit. The method of claim 3,
Further comprising conveying means (25) for conveying the collected sludge to the sedimentation tank at the center of the bath main body (20)
The conveying means 25 comprises an underwater pump P provided at the center of the bottom of the bath main body 20 and a conveying line L for conveying the sludge pumped by the underwater pump P to the settling tank Aeration tank for treatment of high concentration waste water and wastewater. The method according to claim 1 or 3,
(BW) for spraying high-pressure water to the bottom of the carrier (11, 21) and separating the sludge of the hole formed in the carrier, and the backwashing means (BW) And a plurality of high-pressure spray nozzles (BN) for spraying air.
In the filter material (3) provided in the water treatment tank of the waste water treatment system to provide an environment in which microorganisms are inhabited,
Wherein the filter medium (3) is a tube body (3p) having a plurality of corrugations (3w) formed on the side wall and widening a contact area with the treated water. In the filter material (3) provided in the water treatment tank of the waste water treatment system to provide an environment in which microorganisms are inhabited,
Wherein the filter medium (3) is formed by connecting the corrugated tubes (3p) to each other, and at least three or more corrugated tubes (3p) are connected to each other at equal angles. A filter medium (3 ') provided in a water treatment tank of a waste water treatment system to provide an environment in which microorganisms are inhabited,
Wherein the filter medium (3) has hollow tubes (3p) connected to each other, and at least three or more of the hollow tubes (3p) are connected to each other at an equal angle.
A wastewater treatment system for purifying wastewater or livestock wastewater by using the treatment tank and the filter material according to any one of claims 1 to 8,
A treated water collecting tank 1c in which wastewater is self-cleaning;
An organic matter decomposition tank 1d for introducing a predetermined amount of wastewater and livestock wastewater separated and precipitated with an inorganic substance and a polymer in the water collecting tank 1c and decomposing the organic matter using oxygen and heat generated in the following disinfection / disinfection tank;
A first anaerobic tank (1 ₁ ) provided with a support (3, 3 ') for providing a habitat environment of the anaerobic microorganisms therein, and for precipitating and denitrifying the treated water treated in the first organic decomposition tank (1d);
A first aerobic tank (2 ₁ ) provided with a support (3, 3 ') for providing a habitat environment of aerobic microorganisms therein, for dispersing and decomposing the polymer organic matter treated in the anaerobic tank ( ₁ );
A second anaerobic tank (1 ₂ ) for settling and denitrifying the treated water treated in the aerobic tank (2); a support (3, 3 ') for providing a habitat environment of the anaerobic microorganism inside;
A carrier (3, 3 ') to provide a habitat of the aerobic microorganisms on the inside is provided, the second the second aerobic tank for decomposing and dispersing the polymeric retention untreated organic matter in anaerobic _{(12) (22);}
A sedimentation tank 4 for sedimentation of treated water and surplus sludge treated in the second aquarium basin 2 ₂ ;
An advanced treatment tank 5 capable of removing untreated nitrogen compounds and phosphorus from the sedimentation tank 4;
A disinfection / disinfection unit 6 for removing sterilization and fine molecules in the sludge remaining in the treated water treated in the advanced treatment tank 5 by electrolyzing the treated water to sterilize the bacteria; And

And a high-concentration waste water treatment system.
A wastewater treatment system for purifying wastewater or livestock wastewater by using the treatment tank and the filter material according to any one of claims 1 to 8,

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