KR100198386B1 - Blast pipe temperature control method and apparatus of wastewater disposal device - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method and apparatus for controlling the temperature of a blowing pipe of an ozone and wastewater treatment apparatus for purifying sewage and wastewater such as sewage, sewage, manure, livestock wastewater and industrial wastewater. More particularly, And more particularly to a method and an apparatus for controlling the temperature of a blowing pipe of an ozone water treatment apparatus for cooling a blowing tube of an air blower for cooling in summer and heating it in the winter season so as to efficiently purify wastewater.

The method for controlling the temperature of the blowing pipe of the waste water treatment apparatus includes the steps of supplying external air to the inside of the aeration tank and the water collecting tank as a blower to purify the waste water by the reaction of the aerobic microorganism and the organic material, A coolant or a heating material is selectively circulated in accordance with the temperature of the waste water to a predetermined position of the blowing pipe 2 of the blower 1 so that the temperature of the air flowing into the aeration tank and the water collecting tank 5 through the blowing pipe 2 becomes And is introduced into the aeration tank and the water collecting tank (5) in a state of being controlled to be raised and lowered by heat exchange with the coolant or the heating material.

The apparatus for controlling the temperature of the blowing pipe of the waste water treatment apparatus is characterized in that a jetting tube 3 in which a plurality of jetting ports 4 are arranged at regular intervals is inserted into the aeration tank and the water collecting tank 5, Is connected to the blowing pipe 2 of the blower 1 to supply outside air to the inside of the aeration tank and the water collecting tank 5 to purify the waste water by the reaction between the aerobic microorganisms and the organic material The main valve 6 is provided at a predetermined position of the blowing pipe 2 and opens and closes the blowing pipe 2. The main valve 6 is provided at the front and rear of the blowing pipe 2 provided with the main valve 6, And the discharge pipe 8 and the inlet pipe 7 and the discharge pipe 8 in which the coolant or the heating material is supplied to the body 8a in accordance with the temperature of the wastewater, (11) and circulates through the circulation pipes (17a) and (17b) The temperature control is performed so that the air that flows into the inlet pipe 7 and circulates inside the body 11 and then is discharged to the discharge pipe 8 is heat-exchanged by a coolant or a heating material flowing inside the circulation pipes 17a and 17b (10).

Description

Method and apparatus for controlling the temperature of the blowing pipe of the wastewater treatment apparatus

FIG. 1 is a schematic structural view of an apparatus for executing a conventional waste water treatment method. FIG.

FIG. 2 is a configuration diagram of a blowing pipe temperature control apparatus of an ozone / wastewater treatment apparatus according to the present invention; FIG.

FIG. 3 is a cross-sectional view of a blowing pipe temperature control device which is a main device of the present invention.

DESCRIPTION OF THE REFERENCE NUMERALS

1: blower 2: blower

3: Dispenser 4: Dispenser

5: aeration tank and sink tank 6: main valve

7: inlet pipe 7a, 8a: opening / closing valve

8: exhaust pipe 10: temperature control device

11: body 12: inlet

12a: Inflow space part 13: Outlet

13a: discharge space part 14: front bulkhead

15: rear bulkhead 15a:

16: separating wall 17a: circulating pipe on the inflow side

17b: discharge side circulation pipe 18: bypass plate

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method and apparatus for controlling the temperature of a blowing pipe of an ozone and wastewater treatment apparatus for purifying sewage and wastewater such as sewage, sewage, manure, livestock wastewater and industrial wastewater. More particularly, To a method and an apparatus for controlling the temperature of a blowing pipe of an ozone water treatment apparatus, which is capable of cooling a blowing tube of an air blower to be cooled in the summer and heating it in the winter season to efficiently purify the wastewater.

Generally, pollutants such as organic matter, nitrogen, and phosphorus are contained in various sewage and wastewater generated in residential areas, livestock farms, factories and the like. If it is introduced, the productivity of algal growth is excessively increased in the enclosed waters such as lakes and inland waters, and the phenomenon of eutrophication is exacerbated. Therefore, organic matter contained in wastewater and contaminants such as nitrogen and phosphorus must be removed.

Conventional waste water treatment methods include a biological treatment method and a chemical treatment method. A standard activated sludge method, which is a typical method of a biological treatment method, will be described with reference to FIG.

In the standard activated sludge method, which is a typical method of the biological treatment method, first, large impurities and solids in wastewater are removed (pre-treated) by physical treatment by filtration and precipitation in a primary settler, and the supernatant is sent to the aeration tank. At this time, the wastewater flowing into the aeration tank contains suspended solids and dissolved substances and biologically decomposable organic matter in a colloidal state.

The principle of removal of the organic substances is as follows. That is, it reacts with oxygen supplied to the aeration tank and aerobic microorganisms to convert the organic material into a stable end product of H ₂ O or CO ₂ , oxidizes and decomposes the organic matter in the wastewater, and produces surplus sludge.

The treated wastewater flows into the final (secondary) settler and is separated into purified water and sludge. The sludge precipitated as microorganisms is returned to the aeration tank for the part of the amount needed to maintain the proper microorganism concentration in the aeration tank, and the rest is discarded as surplus sludge. In addition, the supernatant of the final (secondary) sedimentation tank is discharged to the river as final treated water.

The oxygen supply to the aeration tank as described above generally introduces outside air into the aeration tank using a blower to increase the activity of the aerobic microorganisms by the oxygen in the air to purify the waste water in the aeration tank.

In addition, in the case of the collecting tank, the waste water in the collecting tank is stagnated and the waste water in the collecting tank is corroded to cause eutrophication phenomenon, so that the waste water in the collecting tank is circulated by using a blower to prevent deterioration of the water quality. To prevent deterioration of water quality.

The aerobic microorganisms are most active at 27 ° C to 32 ° C, effectively decomposing organic substances to purify wastewater. Since the temperature of the blowing pipe is as high as 70 ° C to 80 ° C, the effluent can not be efficiently purified There is a problem.

The reason why the temperature of the blowing pipe is as high as 70 ° C to 80 ° C as described above is that the temperature in the aeration tank rises by 10 ° C when the depth of the waste water in the aeration tank is 1m, If the temperature of the waste water in the aeration tank is 40 占 폚, the atmospheric temperature is about 30 占 폚, and the temperature occurring during operation of the blower is about 10 占 폚, the temperature of the blowing pipe is about 80 占 폚 (Based on the summer season.)

When the temperature of the blowing pipe is raised to a high temperature of about 80 캜, the temperature of the aeration tank is raised, and the aerobic microorganisms are hardly activated. Thus, the ability to purify the wastewater is lost, Since the temperature of the air is high of about 80 ° C, the injection port made of synthetic resin or ABS is melted down and air can not be supplied into the aeration tank.

If the air can not be supplied into the aeration tank as described above, the greatest problem is that the wastewater can not be cleaned. Also, since the blower is not operated, the wastewater flows back to the blowing pipe including the blowing pipe, So that the blowing pipe is blocked and the blowing pipe can not be used at all.

On the contrary, in the winter season, since the temperature is greatly lowered to a low temperature, the inside of the aeration tank is also lowered temperature, so that the aerobic microorganisms can not operate and the ozone in the aeration tank can not be purified. The aerobic microorganism can not be activated if the ambient temperature falls below 15 ° C.)

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems of the prior art and it is an object of the present invention to provide a method for controlling the temperature of air supplied to a collecting tank and aeration tank, The present invention is intended to provide a method and an apparatus for controlling the temperature of a blowing pipe of an ozone water treatment apparatus which can maintain the inside of the aeration tank and the water collecting tank always at an appropriate temperature by improving the purification ability of the wastewater.

In order to accomplish the above object, the present invention provides a method for controlling the temperature of a blowing pipe of an ozone depleted wastewater treatment apparatus, comprising the steps of supplying outside air to the inside of the aeration tank and the water collecting tank as a blower, The method according to any one of claims 1 to 3, wherein the temperature of the air flowing into the aeration tank and the water collecting tank (5) through the blowing pipe is controlled by selectively circulating a coolant or a heating material depending on the temperature of the waste water, Is introduced into the aeration tank and the water collecting tank in a state where the water is raised and lowered by heat exchange with the coolant or the heating material.

Further, in the apparatus for controlling the temperature of the blowing pipe of the waste water treatment apparatus according to the present invention, a spraying tube having a plurality of jetting ports arranged at regular intervals is inserted into the aeration tank and the water collecting tank, A waste water purification apparatus for purifying wastewater by supplying air to the inside of an aeration tank and a collection tank to purify wastewater by a reaction between an aerobic microorganism and an organic material, the apparatus comprising: a main valve installed at a predetermined position of the blowing pipe to open / close a blowing pipe; The inlet pipe and the outlet pipe are respectively installed at the front and rear sides of the blowing pipe provided with the valve. The inlet pipe and the outlet pipe are respectively provided with open / close valves. The coolant or the heating material is supplied to the inside of the body selectively according to the temperature of the wastewater. And circulates through the circulation pipe, flows into the inlet pipe, circulates inside the body, God the air discharged into the tube such that the heat exchange achieved by a coolant or heated material flowing inside the circulation pipe is characterized in comprising a temperature control device.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of a method and an apparatus for controlling a blowing pipe temperature of an ozone water treatment apparatus according to the present invention will be described in detail with reference to the accompanying drawings. As shown in FIG. 2 and FIG. 3, in the waste water treatment apparatus of the present invention, the method of controlling the temperature of the aeration tank and the blowing pipe 2 for supplying the outside air to the inside of the water collecting tank 5 is as follows Respectively.

That is to say, the temperature of the air flowing into the aeration tank and the water collecting tank (5) through the blowing pipe (2) by selectively circulating the coolant or the heating material depending on the temperature of the wastewater at a predetermined position of the blowing pipe Is introduced into the aeration tank and the water collecting tank (5) in a state of being controlled to be raised and lowered by heat exchange with the coolant or the heating material.

The apparatus for controlling the temperature of the blowing pipe of the waste water treatment apparatus according to the present invention is characterized in that a jetting tube 3 in which a plurality of jetting ports 4 are arranged at regular intervals is inserted into the aeration tank and the water collecting tank 5, The blowing pipe 2 of the blower 1 is connected to the capillary tube 3 so as to supply the outside air to the inside of the aeration tank and the water collecting tank 5. The blowing tube 2 is opened and closed at a predetermined position of the blowing tube 2 A main valve 6 for blocking or passing the flow of outside air flowing inside the blowing pipe 2 is provided.

An inflow pipe 7 and a discharge pipe 8 each provided with open / close valves 7a and 8a are respectively provided in the front and rear of the blowing pipe 2 in which the main valve 6 is installed, (8) is provided with a temperature control device (10) for controlling the rising and falling temperature of the outside air supplied to the aeration tank and the water collecting tank (5) through the blowing pipe (2).

3, the temperature control device 10 includes an inlet 12 and an outlet 12 for selectively introducing and discharging the coolant or the heating material to one side of the tubular body 11 according to the temperature of the waste water, 13 and front and rear partition walls 14 and 15 are provided on the front and rear sides of the inside of the body 11. The front partition wall 14 is provided with a separation wall 16 for separating the inflow side and the discharge side, Respectively.

A plurality of inlet side circulation pipes 17a and exhaust side circulation pipes 17b are connected to each other so as to communicate with each other between the front and rear walls 14 and 15 so that the coolant flowing into the inlet 12, The ash is introduced into the inflow space portion 12a formed by the partition wall 16 and the rear space portion 15a-the discharge side circulation pipe 17b-discharge space portion 13a through the plurality of inflow side circulation pipes 17a ), And is discharged through the discharge portion 13.

In addition, a plurality of bypass plates 18 are installed inside the body 11 in a zigzag fashion so that the external air introduced into the inlet pipe 7 can be extended in the body 11 and the flow path can be elongated. Respectively.

The coolant is mainly used in the summer and when the temperature of the wastewater is high. The coolant can use ground water, tap water, and refrigerant. In the present invention, it is most economical and efficient to use ground water or tap water. The heating material is used to blow hot air when the temperature of the wastewater is low and the activity of the microorganism is weak due to low temperature in the winter season, and steam, hot water, or a heater can be used, but it is most economical and preferable to use hot water.

The operation and effect of the present invention will be described below.

First, the case of the summer season in which the temperature of the wastewater is high will be described. The main valve 6 provided at a predetermined position of the air blowing pipe 2 is closed and the air is sucked into the inflow pipe 7 and the discharge pipe 8 in order to supply air at a temperature suitable for activating the microorganisms into the aeration tank and the water collecting tank 5 The respective open / close valves 7a and 8a installed in the respective openings inflow coolant such as ground water or tap water into the inlet 12 of the temperature control device 10 in an opened state.

When the coolant such as ground water or tap water flows into the inlet 12 as described above, the coolant flows into the inlet space 12a and flows into the rear space 15a through the plurality of inlet-side circulation pipes 17a And then discharged to the outside through the discharge space portion 13a and the discharge port 13 via the discharge side circulation pipe 17b.

The temperature of the circulating pipes 17a and 17b inside the body 11 is lowered while being introduced into the inlet 12 and discharged to the outlet 13 as described above. When the temperature of the circulation pipes 17a and 17b inside the body 11 is lowered, the blower 1 is operated to supply hot air to the blowing pipe 2, 11).

The hot outside air flowing into the body 11 is heat-exchanged while passing through the plurality of circulating pipes 17a and 17b in a state where the temperature is lowered by the coolant, The cold air having a lower temperature is supplied to the spray pipe 3 through the discharge pipe 8 and the cold air supplied up to the spray pipe 3 is supplied to the aeration tank 4 through the plurality of injection holes 4, And is sprayed with wastewater.

Particularly, in the body 11, a plurality of bypass plates 18 for extending the flow path of the external air introduced into the inflow pipe 7 while extending the stagnation time in the body 11 are formed in a vertically zigzag fashion And the temperature of the air passing through the inside of the body 11 is further lowered.

As the air cooled by the temperature control device 10 is supplied into the aeration tank 5 and the aeration tank 5 as described above, the active force of the microorganisms contained inside the aeration tank and the wastewater inside the water collection tank 5 becomes active, The oxygen in the air supplied to the reactor can react with the aerobic microorganisms and effectively purify the wastewater.

When the temperature of the outside air is low and the temperature of the wastewater reaches a temperature suitable for the microorganisms to act, the respective open / close valves 7a and 8a installed in the inflow pipe 7 and the discharge pipe 8 The cold external air is directly supplied into the aeration tank and the water collecting tank 5 through the blowing pipe 2 and the spray pipe 3 when the main valve 6 is locked and the operation of the temperature control device 10 is stopped.

On the other hand, in the case where the temperature of the outside air falls below freezing temperature in the winter season, similar to the method of circulating the coolant to the temperature control device 10 during the summer season described above, the opening / closing valves 7a And the heating device is circulated and supplied to the temperature control device 10 so that hot air is blown into the aeration tank and the water collecting tank 5 to actively activate the microorganisms so that the wastewater can be cleanly cleaned even during the winter season.

As described above, the method and the apparatus for controlling the temperature of the blowing pipe of the waste water treatment apparatus according to the present invention are characterized in that, in the process of supplying outside air to the aeration tank and the water collection tank of the wastewater treatment apparatus, , The cold and hot air can be easily supplied according to the temperature of the wastewater, so that the microorganisms can actively act in all four seasons, and the wastewater can be effectively purified.

In addition, since the installation cost of the blowing pipe temperature control device of the waste water treatment apparatus of the present invention is low, it can be easily installed and used even in a very small workplace such as a domestic craftwork, so that there is a very useful effect that can lead to environmental protection.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art to which the invention pertains. It is therefore intended that such variations and modifications fall within the scope of the appended claims.

Claims (3)

A jetting tube 3 in which a plurality of jetting ports 4 are arranged at regular intervals is inserted into an aeration tank and a water collecting tank 5 and a blowing tube 2 of a blower 1 is connected to the jetting tube 3, A waste water purification apparatus for purifying waste water by supplying air into an aeration tank and a water collecting tank (5) to purify waste water by a reaction between an aerobic microorganism and an organic material, the apparatus comprising: a blowing pipe A main valve 6 that opens and closes the main valve 6 and an inlet pipe 7 and a discharge pipe 8 which are provided in front of and behind the blowing pipe 2 in which the main valve 6 is installed are provided with open / close valves 7a and 8a, The cooling water or the heating material is supplied to the inside of the body 11 selectively according to the temperature of the wastewater so that the circulation pipes 17a and 17b Flows into the inlet pipe (7) and circulates inside the body (11), and then discharged And a temperature control device (10) for allowing the air discharged from the circulation pipe (8) to be heat-exchanged by a coolant or a heating material flowing inside the circulation pipes (17a) and (17b) Control device. The apparatus according to claim 1, wherein the temperature control device (10) comprises an inlet (12) and a discharge port (13) for selectively introducing and discharging the coolant or the heating material to one side of the tubular body Front and rear barrier ribs 14 and 15 are provided on the front and rear sides of the inside of the body 11 and a separation wall 16 for blocking the inlet side and the discharge side is provided in the front barrier rib 14 And a plurality of inlet side circulation pipes 17a and a discharge side circulation pipe 17b are connected to each other so as to communicate with each other between the front and rear walls 14 and 15. The inlet pipe 7 are provided in a vertically zigzag manner so as to extend the stagnation time and elongate the flow path of the outside air in the body 11, Device. The apparatus according to claim 1, wherein the coolant is ground water or tap water, and the heating material is hot water or steam.