KR100348500B1 - Biological Nutrient Removal Technology for sewage and wastewater by deep pure oxygen Aeration - Google Patents

Abstract

The present invention relates to a sewage and wastewater treatment apparatus, and has a predetermined width and size, and is treated by microorganisms and oxygen inhabiting the sewage and wastewater introduced into the body, and a reaeration tank 11 is provided on the upper portion of the body. An aerobic tank 10 provided;

Located at one side partitioned to the outside of the aerobic tank 10 at predetermined intervals, the wastewater introduced through the wastewater inlet pipe 21 is mixed with the conveying sludge to release the phosphorus in the nutrient salts. Anaerobic tank 20;

Located in the other side of the anaerobic tank 20, the primary anaerobic tank (30), where the discharge of phosphorus is generated, and the wastewater is mixed with the nitrified internal circulation aeration water to generate a denitrification reaction using the organic material of the influent sewage as a carbon source (30). )Wow;

After the denitrification reaction in the first anaerobic tank 30, the waste water is transferred to the aerobic tank 10 through the transfer pump 60, the organic matter is nitrate nitrogen by the microorganism and oxygen in the aerobic tank (10) A second anoxic tank 40 for removing nitrate nitrogen remaining in the mixed pressure solution oxidized by the endogenous breathing of microorganisms;

After the denitrification reaction in the first anoxic tank 30, the waste water is supplied together in the process of supplying to the aerobic tank 10 to supply the necessary oxygen for the oxidation and nitrification of organic matter, the lower side of the aerobic tank 10 A oxygen generator 70 positioned;

The diffuser which is supplied together with the oxygen supplied from the pure oxygen generator 70 and is provided upward on the lower bottom surface of the aerobic tank 10 so as to supply compressed air for mixing in the aerobic tank 10. A compressed air generator (80) for supplying air to the air;

Located outside the reaeration tank 11 of the aerobic tank 10, after removing the residual nitrate nitrogen in the mixed solution of the waste water, which is transferred by the sequential process in the second anaerobic tank 40 of the aerobic tank 10 After re-aeration in the upper re-aeration tank (11) prevents sludge injuries and re-emission of the sludge by denitrification, sedimentation tank 90 is formed scum discharge port 91 and the treated water discharge pipe 92 to the outside of the body Wow;

In the sedimentation tank (90), the solids are separated and precipitated and the remaining sludge is selectively moved to the anaerobic tank (50) and anaerobic tank (20) to remove nutrients in the sewage and wastewater, of the aerobic tank (10) Consisting of the recirculation pump 100 is located on the outer side, anaerobic tank 20, anoxic tank 50, aerobic tank 10 and the settling tank 90 is composed of one structure, the required site can be significantly reduced, depth This deeper (15-20m) oxygen utilization rate is maximized, and thus power saving efficiency can be expected.

In addition, since the anaerobic tank 50 and the anaerobic tank 20 are located outside the aerobic tank 10 so as to effectively remove nutrients, the entire system can be operated organically.

Therefore, since organic matter and nutrients in wastewater and wastewater can be treated more efficiently, it is a very useful invention that can improve the reliability and work convenience of the product.

Description

Biological Nutrient Removal Technology for sewage and wastewater by deep pure oxygen Aeration}

The present invention relates to a wastewater treatment apparatus, and more particularly, to invent various wastewater and wastewater more efficiently than conventional facilities.

In general, treatment devices such as domestic and factory sewage and organic wastewater are usually injected with chemicals to be treated by chemical reactions.

In recent years, organic materials have been removed using biological treatment methods using aeration methods.

On the other hand, conventionally known aeration method, as in US Patent No. 4,192,740, the air aeration method in which the treatment is carried out in a state in which the aeration tank in which the return sludge and raw water are mixed from the settling tank is opened, and the treatment in the state where the aeration tank is closed There is a pure oxygen aeration method.

In addition, under the applicant's prior application and registered (Patent Registration No. 126422, Patent Registration No. 220189), as in the wastewater treatment apparatus, a technique that improves treatment capacity by increasing the dissolution and utilization of oxygen than the conventional method is proposed. There is a bar.

The conventional sewage and wastewater treatment apparatus configured as described above separates aeration and sedimentation, and thus requires a relatively wide range of required sites, and has a low economic rate of use due to the depth of water (4 to 6 m) being set.

Therefore, there was a problem in that the removal efficiency of nutrients is reduced.

An object of the present invention is to supplement the anaerobic tank and anoxic tank in a single structure sewage and wastewater treatment device to treat organic wastes and nutrients (nitrogen, phosphorus) more efficiently than conventional facilities. To provide.

Another object of the present invention is that anaerobic tank, anaerobic tank, aerobic tank, and sedimentation tank is composed of one structure can significantly reduce the required site, deep (15 ~ 20m) sewage, waste water to maximize oxygen utilization To provide a processing device.

Still another object of the present invention is to provide a wastewater treatment system for maximizing oxygen utilization, thereby maximizing power saving efficiency.

Still another object of the present invention is to provide a waste water treatment apparatus for placing an anaerobic tank and anaerobic tank outside of an aerobic tank (aeration tank) so that the entire system can be operated organically.

1 is a schematic configuration diagram showing the shape of the waste water treatment apparatus of the present invention.

Figure 2 is a process diagram of the present invention wastewater treatment apparatus.

Figure 3 is a front view of the waste water treatment apparatus of the present invention.

Figure 4 is an enlarged plan view of the main part of the present inventors wastewater treatment apparatus.

5 is a plan view of the wastewater treatment apparatus of the present invention.

* Description of the symbols for the main parts of the drawings *

10-Aerobic 11-Reaeration

20-anaerobic tank 21-wastewater intake pipe

30-1st anaerobic tank 40-2nd anaerobic tank

50-Anaerobic Tank 60-Transfer Pump

70-Oxygen Generator 80-Compressed Air Generator

81-Diffuser 90-Settler

91-Scum outlet 92-Treatment water discharge pipe

93-Sludge Waste Disposal 94-Valve

95-Skimmer 96-Scraper

100-recirculation pump 200-bottom, wastewater treatment system

300-Underwater Mixer

An object of the present invention, is formed having a predetermined width and size, treated by microorganisms and oxygen inhabiting the wastewater introduced into the body, the aerobic tank having a re-aeration tank (11) at the top of the body ( 10);

Located at one side partitioned to the outside of the aerobic tank 10 at predetermined intervals, the wastewater introduced through the wastewater inlet pipe 21 is mixed with the conveying sludge to release the phosphorus in the nutrient salts. Anaerobic tank 20;

Located in the other side of the anaerobic tank 20, the primary anaerobic tank (30), where the discharge of phosphorus is generated, and the wastewater is mixed with the nitrified internal circulation aeration water to generate a denitrification reaction using the organic material of the influent sewage as a carbon source (30). )Wow;

After the denitrification reaction in the first anaerobic tank 30, the waste water is transferred to the aerobic tank 10 through the transfer pump 60, the organic matter is nitrate nitrogen by the microorganism and oxygen in the aerobic tank (10) A second anoxic tank 40 for removing nitrate nitrogen remaining in the mixed pressure solution oxidized by the endogenous breathing of microorganisms;

After the denitrification reaction in the first anoxic tank 30, the waste water is supplied together in the process of supplying to the aerobic tank 10 to supply the necessary oxygen for the oxidation and nitrification of organic matter, the lower side of the aerobic tank 10 A oxygen generator 70 positioned;

The diffuser which is supplied together with the oxygen supplied from the pure oxygen generator 70 and is provided upward on the lower bottom surface of the aerobic tank 10 so as to supply compressed air for mixing in the aerobic tank 10. A compressed air generator (80) for supplying air to the air;

Located outside the reaeration tank 11 of the aerobic tank 10, after removing the residual nitrate nitrogen in the mixed solution of the waste water, which is transferred by the sequential process in the second anaerobic tank 40 of the aerobic tank 10 After re-aeration in the upper re-aeration tank (11) to prevent the re-release of the sludge injured wine due to denitrification, sedimentation tank 90 is formed scum discharge port 91 and the treated water discharge pipe 92 to the outside of the body )Wow;

In the sedimentation tank (90), the solids are separated and precipitated and the remaining sludge is selectively moved to the anaerobic tank (50) and anaerobic tank (20) to remove nutrients in the sewage and wastewater, of the aerobic tank (10) It consists of a recirculation pump 100 located on the outer side.

Therefore, the present inventors waste water treatment apparatus 200 is anaerobic tank 20, anoxic tank 50, aerobic tank 10 and the settling tank 90 is composed of a single structure, the required site can be significantly reduced, depth This deeper (15-20m) oxygen utilization rate is maximized, and thus power saving efficiency can be expected.

In addition, since the anaerobic tank 50 and the anaerobic tank 20 are located outside the aerobic tank 10 so as to effectively remove nutrients, the entire system can be operated organically.

Therefore, since organic matter and nutrients in wastewater and wastewater can be treated more efficiently, product reliability and work convenience can be improved.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 1 is a schematic block diagram showing the shape of the waste water treatment apparatus according to the present invention.

2 is a process diagram of the waste water treatment apparatus of the present invention.

3 is a front view of the waste water treatment apparatus of the present invention.

Figure 4 is an enlarged plan view of the main portion of the waste water treatment apparatus of the present invention.

Figure 5 shows the waste water treatment apparatus of the present invention in a plan view.

That is, as shown in Figs. 1 to 5, the anaerobic tank 20 and the anaerobic tank 50 are positioned outside the aerobic tank 10 of the wastewater treatment apparatus of the present invention to be partitioned at a predetermined interval.

The anaerobic tank 20 is located at one side partitioned to the outside of the aerobic tank 10 at predetermined intervals, the wastewater introduced through the wastewater inlet pipe 21 is mixed with the conveying sludge, nutrient salt Release of phosphorus plays a role.

In addition, the anaerobic tank 20 is an underwater mixer 300 so that the return sludge and the lower and waste water are supplied to the anaerobic tank 20 again through the recirculation pump 100 in the settling tank 90 which will be described later. use.

In addition, in the anaerobic tank 20, since the phosphorus release of the microorganism is the most important thing, it is preferable to check using a DO meter from time to time because the DO concentration should be operated close to the minimum value.

On the other hand, the wastewater is introduced into the anaerobic tank 20, the release of phosphorus, the wastewater is transported to the primary anaerobic tank (30).

The first anaerobic tank 30 is located on the other side of the anaerobic tank 20, and the discharge of phosphorus is carried out, and the wastewater is mixed with the nitrified internal circulation aeration water to denitrify the organic material of the influent sewage as a carbon source. It creates a role.

In addition, the first anaerobic tank 30 also mixes the inflow water evenly using the underwater mixer (300).

In addition, in the primary anoxic tank 30, nitrate nitrogen, which has been nitrified, is reduced to nitrogen gas, collected at the top, and discharged to the atmosphere.

On the other hand, the inflow water undergoing denitrification in the first anaerobic tank 30 is moved to the lower portion of the aerobic tank 10 through the transfer pump (60).

The aerobic tank 10 is formed to have a predetermined width and size, and is processed by microorganisms and oxygen that inhabit wastewater and wastewater introduced into the body, and a reaeration tank 11 is provided at the top of the body.

In addition, the aerobic tank 10 is processed by the microorganisms and oxygen inhabiting the waste water, and at the same time the phosphorus is removed due to the excess intake of phosphorus (LUXURY UPTAKE).

In addition, ammonia nitrogen in nutrient salts is combined with oxygen by microorganisms and oxidized to nitrate nitrogen.

Then, the lower side of the aerobic tank 10 is subjected to denitrification in the first oxygen-free tank 30, the waste water is supplied together in the process of being supplied to the aerobic tank 10 through the transfer pump 60 to oxidize organic matter and In order to supply necessary oxygen for nitrification, the pure oxygen generator 70 is provided.

That is, the pure oxygen generator 70 passes through the denitrification tank in the primary anoxic tank 30, and then flows into the aerobic tank 10 by the transfer pump 60. PURE OXYGEN) can be supplied to improve the treatment capacity of sewage and wastewater.

In addition, the bottom surface inside the body of the aerobic tank 10 is supplied with oxygen supplied from the oxygen generator 70, so as to supply compressed air for mixing the inside of the aerobic tank 10, toward the upper side A compressed air generator 80 for supplying air to the diffuser 81 is provided.

In addition, the nitrogen component (NO ₃ ) oxidized in the aerobic tank (10) is circulated to the primary anoxic tank (30), and the nitrogen gas (N ₂ ) through the reduction process is collected to the oxygen-free tank 50, the nitrogen gas It is released into the atmosphere through the outlet.

Therefore, the lower part of the body of the aerobic tank 10 undergoes a denitrification reaction in the first anoxic tank 30, and the waste water is moved to the aerobic tank 10 to oxidize organic matter using oxygen, and at the same time, excess phosphorus. In order to facilitate the removal of phosphorus due to the intake, since the pure oxygen generator 70 and the compressed air generator 80 is installed, the contact between organic matter and microorganisms will be smoother than the conventional, can improve the treatment capacity of waste water. It is.

On the other hand, the mixed liquid treated as described above in the aerobic tank 10 is transferred to the secondary anaerobic tank (40).

The role of the secondary anoxic tank 40 serves to remove nitrate nitrogen remaining in the aerobic tank 10 by the endogenous breathing of microorganisms.

In addition, the secondary anaerobic tank 40 also mixes the mixed solution introduced evenly using the underwater mixer 300.

In addition, after removing the nitrate nitrogen remaining in the secondary anaerobic tank 40, it is moved to the reaeration tank 11 provided on the upper portion of the aerobic tank 10 through the transfer pump 60 and re-aerated.

The reaeration tank 11 is a process for preventing the flotation of the sludge caused by denitrification and the re-release of phosphorus in the final settling tank 90 described below.

Then, the outer aeration tank (11) to the outside of the re-aeration tank (10) after removing the residual nitrate nitrogen in the mixed liquid of the waste water, which is transferred by the sequential process in the secondary anoxic tank (40) After reaeration in 11) prevents sludge injuries and re-emission of phosphorus by denitrification, and outside the body is located the scum discharge port 91 and the settling tank 90 in which the treated water discharge pipe 92 is formed.

In addition, the supernatant separated from the solid and liquid in the settling tank 90 is discharged or transferred to the next process through the treated water discharge pipe 92, and because the precipitated sludge contains a large amount of phosphorus, part of the sludge waste pipe ( 93) to remove phosphorus.

As a result, since a large amount of phosphorus is contained in the fine sludge in the treated water in the inner portion of the settling tank 90, the mixed liquid which rises to the inner wall of the settling tank 90 is a prevention plate 94, a skimmer 95, a scraper 96 ) To be completely removed, and by controlling the amount of sludge to be discarded, it is possible to maintain the optimum microbial concentration of the aerobic tank (10), anoxic tank (50) and anaerobic tank (20).

On the other hand, in the outer portion of the settling tank 90, the solid and liquid separation sediment and remaining sludge is selectively moved to the anaerobic tank 50 and anaerobic tank 20 to remove nutrients in the wastewater, recirculation pump, 100 is located.

Therefore, the present inventors, the wastewater treatment apparatus 200 complements the anaerobic tank 20 and the anaerobic tank 50 to a single structured wastewater treatment apparatus, and various kinds of wastewater, organic matter and nutrients (nitrogen, Can be processed more efficiently.

According to the configuration of the present invention as described above, the organic matter of the sewage, waste water has a high organic matter removal efficiency and excellent sedimentation of sludge by the use of high oxygen transfer rate and pure oxygen in the aerobic tank 10 according to the depth of water more efficient Wastewater can be treated with

In addition, phosphorus is removed by the microbial characteristics of the release of phosphorus in the anaerobic tank 20 and the excessive intake of phosphorus in the aerobic tank 10, and is finally discharged by sludge disposal.

In addition, the nitrogen is nitrified by the microorganisms in the aerobic tank 10, and then can be removed by being released into the atmosphere as nitrogen gas through the reduction process in the first anoxic tank 30, the remaining nitrate nitrogen is secondary oxygen-free tank Removed by endogenous denitrification at 40, reaeration to prevent sludge injuries and re-emission of phosphorus in the settling tank (90).

Therefore, since organic matter and nutrients in wastewater and wastewater can be treated more efficiently, it is a very useful invention that can improve the reliability and convenience of work.

Claims (1)

It is formed having a predetermined width and size, the aerobic tank (10) which is processed by the microorganism and oxygen inhabiting the waste water introduced into the body, the re-aeration tank (11) is provided on the upper portion of the body; Located at one side partitioned to the outside of the aerobic tank 10 at predetermined intervals, the wastewater introduced through the wastewater inlet pipe 21 is mixed with the conveying sludge to release the phosphorus in the nutrient salts. Anaerobic tank 20; Located in the other side of the anaerobic tank 20, the primary anaerobic tank (30), where the discharge of phosphorus is generated, and the wastewater is mixed with the nitrified internal circulation aeration water to generate a denitrification reaction using the organic material of the influent sewage as a carbon source (30). )Wow; After the denitrification reaction in the first anaerobic tank 30, the waste water is transferred to the aerobic tank 10 through the transfer pump 60, the organic matter is nitrate nitrogen by the microorganism and oxygen in the aerobic tank (10) A second anoxic tank 40 for removing nitrate nitrogen remaining in the mixed pressure solution oxidized by the endogenous breathing of microorganisms; After the denitrification reaction in the first anoxic tank 30, the waste water is supplied together in the process of supplying to the aerobic tank 10 to supply the necessary oxygen for the oxidation and nitrification of organic matter, the lower side of the aerobic tank 10 A oxygen generator 70 positioned; The diffuser which is supplied together with the oxygen supplied from the pure oxygen generator 70 and is provided upward on the lower bottom surface of the aerobic tank 10 so as to supply compressed air for mixing in the aerobic tank 10. A compressed air generator (80) for supplying air to the air; Located outside the reaeration tank 11 of the aerobic tank 10, after removing the residual nitrate nitrogen in the mixed solution of the waste water, which is transferred by the sequential process in the second anaerobic tank 40 of the aerobic tank 10 After re-aeration in the upper re-aeration tank (11) prevents sludge injuries and re-emission of the sludge by denitrification, sedimentation tank 90 is formed scum discharge port 91 and the treated water discharge pipe 92 to the outside of the body Wow; In the sedimentation tank (90), the solids are separated and precipitated and the remaining sludge is selectively moved to the anaerobic tank (50) and anaerobic tank (20) to remove nutrients in the sewage and wastewater, of the aerobic tank (10) Waste water treatment apparatus, characterized in that consisting of a recirculation pump (100) located on the outside.