KR100470215B1 - A method for sewage treatment - Google Patents

Abstract

The present invention relates to a method of using a disinfectant in a sewage treatment plant, and more particularly, by administering sodium hypochlorite to an inlet of the final settler, a sewage treatment method capable of treating sewage without placing a separate disinfecting contact sheet (chlorine contact sheet). It is about.

The present invention is a series of processes for precipitating activated sludge in the first settling basin, aeration tank for blowing air into the sewage from which suspended matter is removed from the first settling basin, and the final sedimentation basin into which the sewage treated by aeration in the aeration tank flows into the aeration tank. A sewage treatment method comprising: a first supplying step of supplying sodium hypochlorite from a sodium hypochlorite storage tank to sewage flowing into the final sedimentation basin for disinfecting the aerated sewage; A second supply step of supplying sodium hypochlorite from the sodium hypochlorite storage tank to the returned activated sludge when bulking of the activated sludge to be returned to the aeration tank occurs; A third supply step of supplying sodium hypochlorite from the sodium hypochlorite storage tank to the recycled water to disinfect the recycled water discharged from the final sedimentation basin and discharged through a filter; It is characterized by including.

Description

Sewage treatment method

The present invention relates to a method for using a disinfectant in a sewage treatment plant, and more specifically, by administering sodium hypochlorite (NaOCl, Sodium Hypochloride) to the final settling inlet, the sewage treatment is performed without placing a separate disinfecting contact paper (chlorine contact paper). It relates to a sewage treatment method that can be.

Sewage from business sites such as residential areas and factories flows to sewage pipes through drainage facilities, and is sent to the terminal treatment plant. There are three types of sewage treatment: high grade, intermediate grade, and simple treatment. The degree of treatment is determined by the conditions of the discharged river.

There are various advanced treatments, such as the activated sludge method and the water spraying method.

As shown in FIG. 1, for example, sewage treatment by the activated sludge method removes 25 to 40% of suspended solids of organic and inorganic substances in sewage introduced from the initial sedimentation basin 1.

Thereafter, the sewage is moved to the aeration tank (2, 曝氣 槽) to blow air, and breed oxygenous microorganisms and bacteria to decompose organic matter to produce sludge solids containing microorganisms and bacteria.

When the activated sludge is precipitated in the final sedimentation basin (3), the supernatant water (上 澄 水) is purified to 90 to 96% compared to the first introduced sewage.

In this case, a method of improving efficiency by partially conveying the activated sludge settled in the final settling basin 3 to the aeration tank 2 through the activated sludge return pipe 9 is called an activated sludge method.

In the activated sludge process, a part of the activated sludge that has settled in the final settling basin (3) is removed and returned to the aeration tank (2) as described above. Generally the sludge return rate is 10-15%, 25% in sewage with high suspended solids and 5-10% in sewage with low suspended solids.

As shown in FIG. 1, the symbol water finally treated in the final sedimentation basin (3) is sodium hypochlorite prepared in the sodium hypochlorite generator (6) and stored in the sodium hypochlorite storage tank (7) through a pipe line. Supplied to disinfect the treated water.

Thereafter, the sterilized treated water as described above is chlorine sterilized in the chlorine contact paper 4 to be discharged into the river or the sea.

Sludge precipitated in the final settling basin (3) is extracted and disposed of separately. The sludge disposal method according to the prior art is a method of decomposing organic matter in sludge into water and gas by maintaining the sludge concentration tank 5 at 30 ° C. for about 30 days. At this time, the generated methane gas is used as a heat source, and the remaining sludge is used as a fertilizer by removing moisture as much as possible.

However, in the prior art as described above, while the microorganisms grow in the aeration tank 2, the purified water is advanced by ingesting and degrading the sewage in the sewage, which is its nutrient source, and the pollutants are removed. As active sludge grows as much as possible, a lot of surplus sludge occurs, causing social problems such as waste disposal cost and shortage of waste disposal facilities, and technically perfecting bulking phenomenon. There was a problem that it could not be prevented.

Therefore, the malignant effluent including sludge outflow (惡性 妨 流水) has a problem that can have a fatal effect on farmland or fish farms.

As a prior art for solving the above problems, a high concentration treatment method in an activated sludge method such as Japanese Patent Laid-Open No. 63-310698 (December 19, 1988) has been proposed.

In the above high concentration treatment method, the sludge propagated in the aeration tank is forcibly floated by the pressure flotation method before being discharged and returned to the aeration tank, and the treated water is treated at low load in the second aeration tank and sent to the sedimentation tank so as to reach the final sedimentation tank. The principle is that not many will not be injured.

However, in the above method, the concentration of the activated sludge microorganisms in the first aeration tank is 8000 to 20,000 ppm, but in actual application, the concentration of the activated sludge microorganisms in the first aeration tank cannot be more than 5,000 ppm. There is a problem that the volume of the final settling tank must be increased.

For this reason, the conventional activated sludge treatment method requires a large land for the construction of a sewage treatment plant, and it is difficult to simplify the treatment process and reduce the size of the treatment equipment. Therefore, a considerable cost is required for the construction of the sewage treatment plant. This is following.

The present invention was devised to solve the above problems, and does not leave a separate chlorine contact by putting the disinfectant into the final sedimentation inlet, and when the bulking occurs due to abnormal breeding of filamentous fungi, such as activated sludge return tube The purpose is to provide a sewage treatment method that can control the bulking by adding sodium hypochlorite to the.

1 is a flow diagram of a sewage treatment method by an activated sludge method according to the prior art.

2 is a schematic diagram of a sewage treatment method according to the present invention.

Description of the main parts of the drawing

1: initial settling tank 2: aeration tank

3: final sedimentation tank 4: chlorine contacting tank

5: sludge concentration tank 6: sodium hypochlorite generator

7: sodium hypochlorite storage tank 8: filter

9: activated sludge return pipe 11: first supply pipe

12: second supply pipe 13: third supply pipe

14: four-way valve 15: three-way valve

In order to achieve the above object, the present invention provides an initial sedimentation basin for removing sedimentary suspended solids contained in sewage, an aeration tank for blowing air into the sewage from which the suspended solids are removed from the initial sedimentation basin, and the sewage treated in the aeration tank. A sewage treatment method comprising a series of processes for depositing activated sludge from an incoming final sedimentation basin and returning it to the aeration tank, comprising: sodium hypochlorite storage tank in sewage flowing into the final sedimentation basin to disinfect the aerated sewage. A first supplying step of supplying sodium hypochlorite from; A second supply step of supplying sodium hypochlorite from the sodium hypochlorite storage tank to the returned activated sludge when bulking of the activated sludge to be returned to the aeration tank occurs; A third supply step of supplying sodium hypochlorite from the sodium hypochlorite storage tank to the recycled water to disinfect the recycled water discharged from the final sedimentation basin and discharged through a filter; It provides a sewage treatment method comprising the.

The concentration of sodium hypochlorite supplied in the first to third supply process is characterized in that 1 pi.

When the bulking phenomenon occurs, the second supply process is characterized in that three times a day.

In addition, the sodium hypochlorite concentration supplied from the sodium hypochlorite generator to the sodium hypochlorite storage tank is characterized in that 2 pim.

The first to third supply process is characterized in that the control via the four-way valve to the sodium hypochlorite supply pipe connected to the sodium hypochlorite storage tank.

The technical idea of the present invention is a sewage treatment method including the use of a disinfectant (sodium hypochlorite) used in sewage treatment plants. The components added to implement such a sewage treatment method are briefly mentioned below.

In order to solve the problem according to the prior art, the components added in the present invention, as shown in Figure 2, the first supply pipe 11, the second supply pipe 12, the pipe including a third supply pipe (13) Pipe Flow System), and four-way valve (14, 4-way valve), three-way valve (15, 3-way valve) and the like that can operate the pipe is provided as additional components.

In order to realize the technical idea of the sewage treatment method according to the present invention, various conditions such as a control facility or a control panel that operate the above components are also easily implemented by those skilled in the art.

In addition, it is apparent that other components may be added by those skilled in the art to implement not only the above-mentioned components but also the technical idea of the sewage treatment method according to the present invention.

Hereinafter, the sewage treatment method according to the present invention will be described in more detail with reference to FIG. 2.

The main point of the present invention is a sewage treatment method for disinfecting sewage using sodium hypochlorite. The function and action of sodium hypochlorite will be briefly described below.

Sodium hypochlorite

Sewage disinfection treatment using sodium hypochlorite is a water purification treatment performed by oxidation or sterilization of chlorine or chlorine compounds, and is a disinfection treatment method applied to facilities such as water, sewage, industrial water, and industrial wastewater.

The chlorine addition operation performed for the purpose of sterilization, iron or manganese removal, ammonia removal, etc. as the initial process in the water purification treatment is called prechlorination, and is added for the purpose of preserving and maintaining residual chlorine in the faucet immediately before water supply. Post-chlorination. In a conventional sewage treatment plant, sodium hypochlorite was introduced before discharge and discharged through a chlorine contact tank (see 4, Fig. 1).

The functions of sodium hypochlorite include chlorine disinfection and organic matter removal in water and sewage treatment plants, plankton and algae in sedimentation tanks, sterilization of manure septic tanks, prevention of growth of bacteria in various industrial waters and removal of manganese, and removal of cyanide in wastewater. .

Among these, chlorine disinfection is an operation to be harmless by using chlorine sterilization after the water treatment such as precipitation filtration, and also used for water treatment and sewage treatment. Sodium hypochlorite input from sewage is strongly influenced by the quality of the sewage and should be taken into consideration.

Hereinafter, the sewage treatment method of the present invention using the sodium hypochlorite will be described in detail. The sewage treatment method according to the present invention including the disinfection treatment of sewage using sodium hypochlorite comprises a first supplying step, a second supplying step, and a third supplying step of sodium hypochlorite.

As shown in FIG. 2, the first supply process, the second supply process, and the third supply process remove about 25 to 40% of the organic and inorganic precipitated suspended solids contained in the incoming sewage from the initial settling tank (1). A first step of doing; A second step of breeding microorganisms and bacteria in the aeration tank 2 to decompose organic matters, and to generate sludge solids to generate activated sludge which is easy to settle; A third step of precipitating activated sludge in the final settling tank (3); A fourth step of conveying the activated sludge from the final settling tank 3 to the inlet of the aeration tank 2 through the active sludge return pipe 9; Applied to sewage treatment methods, including.

Each supply process of sodium hypochlorite is demonstrated.

[First Supply Process]

In the first supply process of sodium hypochlorite, sodium hypochlorite generated in the sodium hypochlorite generator 6 is stored in the sodium hypochlorite storage tank 7, and hypochlorous acid in the activated sludge generated in the second step mentioned above. It is a process to add sodium.

As shown in FIG. 2, sodium hypochlorite is sucked and discharged by a pump connected to the sodium hypochlorite storage tank 7 and is introduced into the activated sludge through the first supply pipe 11.

The concentration of the sodium hypochlorite to be introduced is 1 ppm (ppm, parts per million), which is an empirical value obtained by using a treatment apparatus according to the present invention, and is generally applicable to a concentration of sodium hypochlorite generator ( 6) is based on when the sodium hypochlorite injection concentration supplied to the sodium hypochlorite storage tank (7) is at most 2 Fm. The concentration of sodium hypochlorite is the same in both the first supply process, the second supply process and the third supply process.

The first supply process may be likened to the process of supplying sodium hypochlorite to disinfect the effluent before inflow of the chlorine contact bath 4 as in the prior art shown in FIG. It is different from the prior art that sodium hypochlorite is introduced before the final settling tank 3 is introduced without installation.

By introducing sodium hypochlorite into the final settling basin (3) inlet, there is an advantage that the chlorine contact tank (see Fig. 1) as in the prior art, there is an advantage that can reduce the sewage treatment facility cost and sewage treatment site You can get it.

In addition, there is an advantage that a sufficient time for the disinfection effect and the removal of residual components after disinfection due to sufficient retention time in the final settler (3).

For reference, the supply control regarding the sodium hypochlorite supplied through the first supply pipe 11 is controlled by the four-way valve 14 in the pipeline of the first supply pipe 11. Of course, a control panel (not shown) capable of controlling the four-way valve 14 is configured to control operating elements such as the three-way valve 15 and the four-way valve 14 according to the present invention.

Second Supply Process

The second supply process of sodium hypochlorite is a supply process performed during the four steps mentioned above, and the activated sludge is returned to the aeration tank 2 inlet through the active sludge return pipe 9 of the sludge discharged from the final settling tank 3. When bulking occurs due to abnormal breeding of filamentous fungi, sodium hypochlorite is supplied to the process.

When bulking occurs, sodium hypochlorite is supplied through the second supply pipe 12 to the returned activated sludge, which is performed three times a day.

When bulking occurs due to abnormal propagation of filamentous equilibrium by supplying sodium hypochlorite through the activated sludge return pipe 9 to the inlet to be returned to the activated sludge or aeration tank 2, the final settling basin 3 to the aeration tank 2. By adding sodium hypochlorite to the returned activated sludge, it is possible to obtain the effect of controlling the bulking.

Supply control of the sodium hypochlorite second supply process is performed by the combination of the four-way valve 14 and the three-way valve 15 shown in FIG.

When bulking occurs due to abnormal breeding of filamentous bacteria or the like, the valve in the direction of the second supply pipe 12 of the four-way valve 14 is opened, and thereafter, The valve for connecting the second supply pipe 12 is opened to supply sodium hypochlorite to the aeration tank 2 or the activated sludge to be returned.

For reference, the three-way valve 15 and the four-way valve 14 is designed to be interlocked and the three-way valve 15 and four-way so that the control panel (not shown) to adjust the amount of sodium hypochlorite supplied according to the condition of the sewage to be treated. It is designed to set the opening and closing time of the valve 14 using a timer or the like.

Third Supply Process

As shown in FIG. 2, the third supply process of sodium hypochlorite is charged to the treated water discharged to be used as recycled water after being filtered by the filter 8 in the supernatant water discharged from the final sedimentation tank 3. It is a process to supply sodium chlorate.

In the sodium hypochlorite supply process, the sodium hypochlorite is supplied through the third supply pipe by opening the valve in the direction of the third supply pipe 13 in the four-way valve 14 shown in FIG. 2.

As described above, by supplying sodium hypochlorite to the treated water discharged to be used as recycled water, there is an advantage that the removal of untreated organic matter, the removal of plankton and algae and the prevention of the growth of bacteria can be obtained.

As described above, according to the present invention, the first supply process for introducing sodium hypochlorite into the final settling tank inlet, the second supply process for inputting the activated sludge returned to the aeration tank from the final settling tank, the second input to the discharged recycled water 3 By configuring the supply process, sewage treatment can be carried out without a chlorine contact tank, so that the cost of equipment and sewage treatment can be reduced, and bulking can be easily controlled.

Claims (5)

The first sedimentation basin to remove the sedimentary suspended solids contained in the sewage, the aeration tank for blowing air to remove the suspended solids from the first sedimentation basin, the activated sludge is precipitated in the final sedimentation basin into which the aerated treated sewage from the aeration tank flows In the sewage treatment method comprising a series of steps to return to the aeration tank, A first supply step of supplying sodium hypochlorite from a sodium hypochlorite storage tank to the sewage flowing into the final sedimentation basin to disinfect the aerated sewage; A second supply step of supplying sodium hypochlorite from the sodium hypochlorite storage tank to the returned activated sludge when bulking of the activated sludge to be returned to the aeration tank occurs; A third supply step of supplying sodium hypochlorite from the sodium hypochlorite storage tank to the recycled water to disinfect the recycled water discharged from the final sedimentation basin and discharged through a filter; Sewage treatment method comprising a. The method of claim 1, Sewage treatment method characterized in that the concentration of sodium hypochlorite supplied in the first supply step to the third supply step is 1 pi. The method of claim 1, When the bulking phenomenon occurs, the sewage treatment method characterized in that the second supply process three times a day. The method of claim 1, The sodium hypochlorite concentration supplied from the sodium hypochlorite generator to the sodium hypochlorite storage tank is 2 ppm. The method according to any one of claims 1 to 4, Said first to third supply process is a sewage treatment method characterized in that the control via the four-way valve of the sodium hypochlorite supply pipe connected to the sodium hypochlorite storage tank.