KR101084394B1 - Waste-water treatment system controlling total amount of phosphorus - Google Patents

Abstract

PURPOSE: A sewage treating system for controlling the total amount of phosphorus is provided to eliminate remaining phosphorus by arranging a coagulating agent treating unit for reducing chemical total phosphorus at the rear side of an aerating bath. CONSTITUTION: A sewage treating system for controlling the total amount of phosphorus includes a first precipitating bath(100), an aerating bath(110), a second precipitating bath(120), and a coagulating agent treating unit(200). A plurality of outflow channels is installed between the aerating bath and the second precipitating bath. The upper sides of the outflow channels are opened. A coagulating agent is sprayed to be mixed with treating water. The coagulating agent treating unit includes a baffle wall and a coagulating agent spraying unit.

Description

Waste-water treatment system controlling total amount of phosphorus

The present invention relates to a total phosphorus controlled sewage treatment system which enables the efficient treatment of total phosphorus in sewage using biological and chemical treatments.

In general, biological treatment methods are generally used for treatment of water, sewage, and wastewater.

This treatment method has the advantages of a stable process, relatively low cost and environmental friendliness.

The biological treatment method is based on the principle of removing contaminants by the metabolism of microorganisms. Meanwhile, the advanced sewage treatment means a treatment technology capable of removing not only suspended matter in sewage but also total nitrogen and phosphorus. This sewage treatment method includes a biological reactor for removing total nitrogen and phosphorus by the action of microorganisms.

However, even though the phosphorus removal process by the action of the microorganism in the biological reaction tank as described above, a certain amount of phosphorus components remain in the treated water.

Therefore, in addition to the sewage treatment process using the biological reaction tank, a chemical total phosphorus reduction process may be added, and such chemical total phosphorus reduction process is made of a phosphorus component dissolved in the treated water using a flocculant to precipitate a compound having low solubility. However, the equipment used in the total reduction device is required to install a treatment tank, and the process is not only complicated but also the natural dropping method of the flocculant. Since it is low, it is difficult to remove the total phosphorus below the water quality standard, and the input amount of the flocculant is excessively consumed, thereby increasing the water treatment cost.

The present invention has been made to solve the above problems, in the sewage treatment system comprising a primary sedimentation cell 100, aeration tank for the biological reaction, and a secondary sedimentation battery, the aeration tank and the secondary sedimentation battery The present invention provides a total phosphorus controlled sewage treatment system that can efficiently treat total phosphorus in sewage by allowing flocculation agent to be injected from the upper part of a plurality of outflow passages installed therebetween to be mixed with treated water to maximize flocculation and floc formation. .

The present invention, in the sewage treatment system comprising a primary settling cell 100, aeration tank 110, and a secondary settling 120 to allow a biological reaction, the aeration tank 110 and the secondary settler battery A plurality of effluent passages 210 are installed between the 120, and a flocculant treatment means for causing a phosphorus removal chemical reaction by spraying a flocculant from the upper portion of the treated water flowing through the effluent passage 210 to mix with the treated water ( 200) is further installed.

The present invention is to reduce the total amount of wastewater discharged by removing the phosphorus remaining in the aeration tank is provided with a chemical aggregate reduction agglomeration agent on a plurality of effluent passages respectively distributed in the rear end of the aeration tank. It has an effect.

In addition, the flocculant treatment means has excellent control of the stirring strength by adjusting the pressure of the mixed water, and can maximize the efficiency of the water treatment by instant mixing and complete mixing of the treated water and the flocculant, and composed of a nozzle and a ditch wall of the input device. Since the coagulation agent can be opened, it is easy to install, and it is possible to visually check whether the coagulant is injected at any time, so there is no fear of failure, so maintenance and the like are easy.

1 is an overall block diagram of a total wastewater reduction advanced treatment apparatus of sewage according to the present invention.
Figure 2 is an overall schematic view showing the installation form of the flocculant treatment means according to the present invention.
Figure 3 is a longitudinal cross-sectional view showing the configuration of the flocculant treatment means according to the present invention.
Figure 4 is a schematic cross-sectional view showing the configuration of the flocculant treatment means according to the present invention.
Figure 5 is a front view showing that the multiple injection through a plurality of injection nozzles by respectively installing a plurality of flocculant injection device in the effluent in accordance with the present invention.
Figure 6 is a perspective view showing a multi-jet coagulant spraying in accordance with the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

In the present invention, in the sewage treatment system comprising a primary needle battery 100, aeration tank 110, and a secondary needle battery 120 to allow a biological reaction,

A plurality of outflow passages 210 are installed between the aeration tank 110 and the secondary sedimentation battery 120, and a coagulant is injected from the upper portion of the treated water flowing through the outflow passage 210 to mix with the treated water to remove phosphorus. It is to have a flocculant treatment means 200 to the chemical reaction.

Specifically, the flocculant treatment means 200 includes a ditch wall 220 installed in the outflow passage 210 positioned at the rear end of the aeration tank 110; It consists of a flocculant spraying device 230 which is installed on the effluent flow path 210 flowing through the treated water,

The conductive wall 220 is an upper induction baffle plate 222 allowing the treated water to flow upward, and a lower induction baffle plate 224 allowing the treated water to flow downward in the rear of the upper induction baffle plate 222. Are installed alternately,

The conductive wall 220 is an upper induction baffle plate 222 allowing the treated water to flow upward, and a lower induction baffle plate 224 allowing the treated water to flow downward in the rear of the upper induction baffle plate 222. And a central confluence baffle plate 226 allowing the treated water to flow to the rear of the lower guided baffle plate 224 and a flow of the treated water laterally to the rear of the central confluence baffle plate 226. Side induction baffle plate 228 may be provided at regular intervals, respectively,

The flocculant spraying device 230 is characterized in that it is located between the first upper guided baffle plate 222 and the first lower guided baffle plate 224 of the ditch wall 220 is installed in the outflow passage 210,

The flocculant injection device 230 is provided with a plurality of injection nozzles 236 is characterized in that the multiple injection is made.

The flocculant treatment means 200 may be installed at the front end of the primary needle battery or the rear end of the secondary needle battery, but installing at the front end of the primary needle battery 100 may improve the efficiency of the primary needle battery while removing phosphorus. However, since it is still before the biological treatment step, a large amount of flocculant is required to remove phosphorus contained therein, and the characteristics of the incoming sewage are often different, which makes it difficult to control the total phosphorus.

 When installed at the rear end of the secondary sedimentation battery 120, it is easy to control the concentration of phosphorus contained in the biologically treated water below the required standard (for example, 0.5 mg / L), while the secondary sedimentation battery is treated. If the coagulant is added to the upper discharged water again, sediment is generated again in the discharged water, and an additional facility for treating the discharged water is required. The sewage treatment plant already installed has problems such as securing additional land and installing a number of additional pipelines.

On the other hand, when the flocculant treatment means 200 is installed in the outflow passage 210 located between the aeration tank 110 and the secondary sedimentation battery 120 as in the present invention, since it has undergone biological treatment, the treatment of phosphorus has not yet been removed. Since only a coagulant is added to the coagulation agent, the amount of coagulant required for controlling phosphorus is low, and since the existing sewage treatment plant is used as it is, no additional facility is required.

In addition, the flocculant treatment means may be installed at the front end of the outflow weir in the aeration tank, but this part is a place where the treated water maintains a relatively retention state, so that the flocculation agent has a low miscibility effect, and the weir is overflowed to drop freely. Even if the drop is low, the agitation strength is low, and the aeration tank itself is covered, making the installation of the input equipment difficult and not easy to check at all times.

The present invention can install a baffle plate where the flocculant mixed water flows into the laminar flow state without the residence of the straight channel, and the mixing effect can be increased, and the installation of the input equipment is easy and the inspection is easy at all times because the channel is open. Therefore, there is an advantage that the multi-point injection treatment is easy to match the width of the plurality of outflow passages.

And the coagulant treatment means 200 of the present invention is the chemical coagulation reduced coagulant treatment means (200) on the effluent passage 210 of the rear end of the aeration tank 110 to remove the phosphorus remaining in the aeration tank 110 during the sewage treatment By reducing the total discharge (TP) water quality standards (for example, 0.5mg / L or less).

Phosphorus removal by chemical coagulation reduction coagulant treatment is used to reduce the phosphorus component dissolved in sewage into a low solubility compound using a coagulant which is a chemical.

When aluminum is introduced into wastewater and sewage, aluminum hydrolyzate is formed by reaction with water molecules with the following formula.

Al ³⁺ + H ₂ O → Al (OH) ²⁺ + H ⁺ (1)

Al (OH) ²⁺ + H ₂ O → Al (OH) ₂ ⁺ + H ⁺ (2)

Al (OH) ₂ ⁺ + H ₂ O → Al (OH) _{3 (S)} + H ⁺ (3)

This aluminum hydrolysis product reacts with dissolved phosphorus (PO ₄ -P) contained in wastewater and sewage to form a precipitate such as AlPO _{4 (S)} as shown in Equation (4) below.

Al ³⁺ + H _n PO ₄ ^3-n → AlPO ₄ + nH ⁺ (4)

AlPO _{4 (S)} in the precipitate form flocs with particulate matter in the sewage and is removed by precipitation or filtration.

In addition, the phosphorus in the dissolved state is adsorbed and removed by Al (OH) _{3 (S)} in the precipitate state, it is known that the removal efficiency of phosphorus by this is not great.

When an aluminum flocculant is added to remove phosphorus in sewage, aluminum ions react with H ₂ O as shown in Chemical Formulas (1 to 3) above,

As shown in the formula (4), it reacts competitively with dissolved phosphorus. In order to effectively remove dissolved phosphorus in sewage, aluminum is minimized by minimizing the reaction with H ₂ O (hydrolysis) and maximizing the reaction with dissolved phosphorus. It is desirable to maximize the reaction ratio with the total phosphorus per unit equivalent.

The flocculant treatment means 200; It is installed in each of the plurality of outflow passages 210 respectively distributed about four places at the rear end of the aeration tank 110, respectively, and is installed in the outflow passage 210 located at the rear end of the aeration tank 110, so that the treated water is vertically or vertically / Instantaneous mixing and spraying of the flocculant and the mixed water is formed on the flow path 220 to allow the flow to flow left and right, and the upper portion of the outflow passage 210 through which the treated water flows along the flow path 220. It consists of a coagulant spraying device 230 to be made.

Here, when the flocculant treatment means 200 is installed to be immersed in the treated water flowing through the effluent passage, it is difficult to visually monitor whether the flocculant is injected and the nozzle hole of the flocculant treatment means is blocked, so that the flocculant is treated in the present invention. The flocculant treatment means 200 is installed on the outflow channel 210 so as to be dropped onto the water surface.

The flow wall 220 is; An upper induction baffle plate 222 allowing the treated water to flow upward, and a lower induction baffle plate 224 allowing the treated water to flow downward in the rear of the upper induction baffle plate 222 into the outflow path 210. Installed alternately to allow the treated water to flow up and down,

An upper induction baffle plate 222 allowing the treated water to flow upward, a lower induction baffle plate 224 allowing the treated water to flow downward in the rear of the upper induction baffle plate 222, and the lower induction baffle plate. A central confluence baffle plate 226 allowing the treated water to flow to the center of the rear of 224,

The side induction baffle plate 228 is provided at the rear of the central confluence baffle plate 226 to allow the treated water to flow laterally so that the treated water can flow up and down / left and right on the outflow channel 210. The upper induction baffle plate 222 and the lower induction baffle plate 224 are installed at least one.

The flocculant spraying device 230 is; It is preferable to be located between the first upper guided baffle plate 222 and the lower guided baffle plate 224 of the ditch wall 220 installed in the outflow channel 210. When the treated water entering the effluent hits the first upper guided baffle plate 222 and rides over it, the thickness of the treated water becomes thinner. At this time, the coagulant is sprayed from the upper part to the lower part of the treated water so that the coagulant is thinned. This is because it can be mixed evenly by the input.

In addition, the flocculant injection device 230; The front end of the flocculant supply pipe 231 connected to the coagulant supply tank 232 and the metering pump P and the front end of the mixed water supply pipe 233 to which the mixed water is supplied are instantaneously mixed with the confluence pipe 235 and then immediately. Through the injection nozzle 236 of the confluence pipe 235, the coagulant injection can be made at a strong water pressure, and the control valve 234 of the mixed water supply pipe 233 is provided to enable the supply amount and pressure of the mixed water to be adjusted. It is possible to adjust the coagulant stirring strength.

Meanwhile, in the present invention, the coagulant spraying device 230 is installed in each of the plurality of outflow channels 210 so as to be supplied through the first and second distributors 237 and 237 '. The injection nozzle 236 is preferably installed so that the coagulation agent is evenly injected into the treated water as a means for allowing multiple injections through the plurality of injection nozzles 236 so as to increase the cohesive efficiency.

In the present invention as described above, when the treated water is introduced into the primary settling cell 100 through the settled paper, the sedimentary substances such as fine suspended solids, organic matter, and inorganic matter contained in the treated water are precipitated and then removed using a sludge collector. The process load can be reduced and then the outflow process sent to the aeration tank 110 is performed.

The treated water introduced into the aeration tank 110 is sent to the secondary settler 120 through the effluent passage 210 after the process of removing the organic matter and nutrients nitrogen and phosphorus by biological reaction using microorganisms.

At this time, the present invention is provided on the outflow passage 210 in the rear end of the aeration tank 110 is provided with a chemical coagulation reduction means 200 is reduced in the aeration tank 110 to remove the remaining phosphorus to remove the phosphorus to reduce the effluent total phosphorus You can do it.

This is provided with a ditch wall 220 in the plurality of outflow passages 210 respectively distributed at the rear end per branch of the aeration tank 110 to induce the treated water to flow up and down or up and down / left and right, as well as the drip wall 220. Accordingly, the flocculant injection device 230 is installed on the effluent passage 210 through which the treated water flows, and instantaneous mixing and spraying of the flocculant and the mixed water are performed to achieve the flocculation action of the treated water.

3 and 4 show a second embodiment of the flow barrier. The conduction wall 220 installed in the outflow channel 210 includes upper and upper induction baffle plates 224 and 222 for allowing the treated water to flow up and down, and a central confluence baffle plate for allowing the treated water to flow laterally from the center. 226 and the side-induced baffle plate 228 are provided to increase the impact effect by the collision action between the treated water particles to generate a flocculant good flocculation, the flocculant spraying device 230 at the top of the treated water Through the flocculation action in which the flocculant is mixed with the treated water, a chemical total reduction is achieved.

And the flocculant spraying device 230 is installed upward through the upper guided baffle plate 222 by installing a flocculant is injected between the first upper guided baffle plate 222 and the lower guided baffle plate 224 of the ditch wall 220. Since the flocculant is added to the treated water portion where the thickness of the water flowing in becomes thinner, it becomes evenly mixed to increase the cohesive efficiency.

In addition, the flocculant spraying device 230 is the tip of the flocculant supply pipe 231 and the tip of the mixed water supply pipe 233 is instantaneously mixed through the confluence pipe 235, and then immediately with a strong water pressure through the spray nozzle 236 Since the injection of the coagulant is made, the instantaneous mixing can be achieved by the mutual reaction in the mixing process, and in the confluence pipe 235, the coagulant agitation strength can be maintained in an optimal state by controlling the supply amount and the water pressure of the mixed water.

On the other hand, a plurality of flocculant spraying device 230 is installed in each of the outflow passage 210 so that the multi-spray is made through a plurality of injection nozzles 236, the flocculant is evenly injected into the treated water evenly throughout the injection point agglomeration The efficiency can be improved.

As described above, by removing the phosphorus remaining in the aeration tank 110 by chemical reaction through the flocculant treatment means 200 installed in the plurality of outflow passages 210 respectively distributed in the rear end of the aeration tank 110, (TP) It is possible to discharge treated water meeting the water quality standards.

While the present invention has been described with reference to the exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments.

100: primary battery 110: aeration tank
120: secondary secondary battery 200: flocculant treatment means
210: runoff 220
222: upper induction baffle plate 224: lower induction baffle plate 226: central confluence baffle plate 228: side induction baffle plate
230: flocculant injection device 231: flocculant supply pipe
232: coagulant supply tank 233: mixed water supply pipe
234: control valve 235: confluence
236: Injection nozzle 237,237 ': 1st and 2nd distributor

Claims (6)

In the sewage treatment system comprising a primary sedimentation battery (100), aeration tank (110) for biological reactions, and a secondary sedimentation battery (120),
Between the aeration tank 110 and the secondary needle battery 120, a plurality of outflow passages 210 having an open top is installed,
Coagulant is injected from the upper portion of the treated water flowing through the effluent passage 210 is mixed with the treated water, the flocculant treatment means 200 is further provided to cause the phosphorus removal chemical reaction,
The flocculant treatment means 200, the flow path wall 220 is provided in the outflow passage 210 located at the rear end of the aeration tank 110, and the flocculant injection apparatus 230 is installed on the top of the outflow passage 210 through which the treated water flows. ),
The conduction wall 220 includes an upper induction baffle plate 222 allowing the treated water to flow upward, and a lower induction baffle plate 224 allowing the treated water to flow downward in the rear of the upper induction baffle plate 222. ) Will be installed alternately,
The flocculant spraying device 230 is a total sewage control sewage treatment system, characterized in that located between the first upper guided baffle plate 222 and the first lower guided baffle plate 224 of the ditch wall 220.
delete delete The method of claim 1,
The flow wall 220 is;
In addition to the upper induction baffle plate 222 allowing the treated water to flow upward, and the lower induction baffle plate 224 allowing the treated water to flow downward in the rear of the upper induction baffle plate 222,
A central confluence baffle plate 226 allowing the treated water to flow to the rear of the lower induction baffle plate 224,
Total induction baffle plate (228), which is provided at the rear side of the central confluence baffle plate (226) so that the treated water flows laterally at a predetermined interval.
delete The method of claim 1,
The coagulant spraying device 230 is provided with a plurality of injection nozzles (236), the total control sewage treatment system, characterized in that the multiple injection is made.

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