KR100661815B1 - The sewage treatment system - Google Patents

Abstract

A constructed wetland type catalytic oxidation system for advanced treatment of sewage and wastewater is provided to removal efficiencies of organic matters such as nitrogen, phosphorous, etc. contained in sewage and wastewater and prevent closing of a composite filter media layer by alternately operating an aerobic zone and a non-aerobic zone of catalytic oxidation tanks through an air injector. In a constructed wetland type catalytic oxidation system for advanced treatment of sewage and wastewater, wherein raw water such as sewage or wastewater flows in a grit and anaerobic tank(100) through an inlet, the raw water is treated through a flow equalization tank(110), settling tanks(120,130,140), etc., and treated water is discharged to the outside through a discharge tank(150), the constructed wetland type catalytic oxidation system comprises first to third catalytic oxidation tanks(200,200a,200b) sequentially installed between the settling tanks and the discharge tank, wherein the first catalytic oxidation tank is divided into a non-aerobic zone and an aerobic zone, the second catalytic oxidation tank is divided into an aerobic zone and a non-aerobic zone, and the third catalytic oxidation tank has an aerobic zone so that the constructed wetland type catalytic oxidation system is operated to perform advanced treatment of raw water such as sewage or wastewater by alternately operating the non-aerobic zone and the aerobic zone in the first and second catalytic oxidation tanks by an air injector(300) for intermittently aerating the raw water while consistently maintaining the aerobic zone in the third catalytic oxidation tank.

Description

Artificial wet contact oxidation system that treats sewage, sewage and wastewater highly

1 is a block diagram of an artificial wetland type oxidation system according to the present invention

(Explanation of symbols for the main parts of the drawing)

100; Sedimentation and anaerobic tank 110; Flow adjustment tank

120,130,140; Settling tank 150; Discharge tank

200; First contact oxidation tank 200a; 2nd contact oxidation tank

200b; Third contact oxidation tank 210; Soil layer

220; Activated carbon layer 230; Influent

240; Composite media layer 250; Runoff

300; Air injection unit 310; air blower

320; Distribution pipe

The present invention relates to an artificial wetland catalytic oxidation system for highly treating sewage, sewage, and wastewater. More specifically, a plurality of catalytic oxidation tanks having a composite media layer are sequentially formed in an artificial wet knowledge catalytic oxidation system. In the contact oxidation tank, the aerobic and aerobic zones are partitioned, and the other contact oxidation tank is separated into the aerobic and non-aerobic zones. Treatment of organic matter such as sewage, sewage, nitrogen and phosphorus in wastewater by alternately operating aerobic and non-aerobic zones of the contact oxidation tank through an intermittent aeration system in operation of wetland contact oxidation systems. High efficiency treatment of sewage, sewage, and wastewater to improve efficiency and prevent clogging of the composite media layer Relates to an artificial wetland catalytic oxidation system.

As the current industry is advanced, the seriousness of environmental pollution has threatened human survival. Especially, the reduction of groundwater, rivers and seas as well as soil pollution as home sewage, factory wastewater, and livestock wastewater are becoming more serious. It is becoming a problem, and a lot of research and development and investment are being made to solve the problem.

In order to minimize the above water and soil pollution, it is desirable to reduce the emission of pollutants, but as the society becomes more advanced, the generation of various pollutants that adversely affect the water quality and the soil becomes inevitable, and from the pollutants Proper wastewater treatment measures, such as immediate removal of pollutants or harmless disposal, are essential.

The conventional method of treating the socially problematic wastewater as described above includes a screening process for filtering a relatively large contaminant contained in the wastewater into a screen having a hole having a uniform size, and sedimentation separating gravity-heavy contaminants by gravity. By applying physical manipulation such as separation, suspended matter and sediment contained in waste water are firstly removed.Secondary flocculation and sedimentation or adsorption of suspended solids using various chemicals such as flocculant, adsorbent and disinfectant are used. And chemical unit processes such as killing synthetic pathogens and biological unit processes such as decomposing non-settling biodegradable organics by the action of microorganisms, converting them into gases, or flocculating them with suspended solids, and removing them. Mainly remove organic matter.

After that, a third treatment, also known as advanced treatment, is a combination of various physical means and unit processes mentioned in the above-mentioned primary and secondary treatments, and ammonia, nitrogen, phosphorus, etc., which are not easily removed from the primary and secondary treatments. Remove various minerals, including heavy metals and synthetic organics.

In recent years, a method of treating wastewater by the action of microorganisms among the wastewater treatment methods has been widely used, and the wastewater treatment method using the microorganisms has a carrier having a certain form rather than an activated sludge process using suspended microorganisms. And a method of culturing microorganisms on this carrier to remove various contaminants is widely used due to the advantages described below.

In the treatment method using the standard activity and the microbial carrier, when the operably water is first removed through the standard activity and the secondary carrier passes through the complex carrier, the microorganism and the organic substance are contacted with the carrier, so that the microorganism is further proliferated and thus in the waste water. As the organic matter is removed, microorganisms are attached to the carrier to form a biofilm, so microorganisms with slow growth rate can proliferate without being leaked to the outside. It is resistant to load fluctuations, has strong decomposability of hardly decomposable materials, and unlike activated sludge process, there is no sludge injuries, which makes it easy to manage and maintain specific microorganisms on the carrier or energy of the carrier. It could be supplied as a source or to help agglomerate contaminants.

The above flow chart is a method of minimizing the lack of a carbon source during the advanced treatment, and the microorganism carrier including the media provided to allow the microorganism to inhabit during the nitrification and the advanced treatment process and the microbial membrane generated in the media play the most important role. As such, such a microbial carrier is filled with a regular arrangement to even out the flow path in the contact aeration tank while forming a certain shape such as a circle or the like.

Such conventional microbial carriers have been provided with media in the form of natural rocks or artificial plastics, and thus, not only the surface area is reduced, but also the microbial carriers having no surface voids are formed, as well as the microorganisms having low affinity with microorganisms are attached. There is a problem that the detached detachment phenomenon easily occurs, and because the microorganism is easily detached and detached from the filter medium, the microbial culture takes much time, and it takes a long time to form a complete microbial carrier. Of course, not only good wastewater treatment could not be expected due to the desorption of cultured microorganisms, but there was also a problem in advanced treatment for nitrogen and phosphorus removal, and it was not easy to attach and cultivate microorganisms, which reduced the wastewater treatment efficiency and deteriorated treated water quality. Be With several various problems such that the easy problems have been caused.

Accordingly, an object of the present invention is to devise in view of the above-described conventional problems, and a plurality of contact oxidation tanks having a composite filter layer are formed in order in an artificial wetland contact oxidation system, and then one contact oxidation tank is aerobic. The zone is divided into aerobic zone and aerobic zone in the other contact oxidation tank, and the aerobic zone and non-aerobic zone in the other contact oxidation tank. The aerobic and non-aerobic zones of the contact oxidation tank are operated alternately through an intermittent aeration system to increase the treatment efficiency of organic substances such as nitrogen and phosphorus in sewage, sewage, and wastewater, as well as composite media. In the case of artificial wetland contact oxidation, which treats sewage, sewage, and wastewater highly, to prevent the blockage of layers. To provide a stem.

As a means for achieving the above object, the present invention is to install a first contact oxidation tank, a second contact oxidation tank, a third contact oxidation tank in turn between the precipitation tank and the discharge tank, the first contact oxidation tank is an aerobic region And the second contact oxidizing tank is divided into aerobic and non-aerobic areas, and the third contact oxidizing tank is divided into aerobic areas and the first contact oxidizing tank and the second contact oxidizing tank are intermittently aerated during operation. The aerobic and aerobic zones are operated alternately by an air injector, and the third contact oxidizer maintains a continuous aerobic zone while treating the treated water, such as sewage, sewage, and wastewater,

After the first contact oxidation tank, the second contact oxidation tank, and the third contact oxidation tank inside the upper inlet to form the inlet flow path for the treatment water to be treated, the lower end of the treated water to form the outflow channel, Forming the soil layer and the activated carbon layer in the top of the inlet passage in turn, and forming a composite filter layer between the inlet and the outlet channel,

The air injection device is a blower for sucking the outside air, and when the outside air is introduced into the inside through the blower in a state connected to the blower and installed inside each of the outflow passages to distribute the supplied air evenly distributed to the composite media layer What constitutes a distribution pipe is the basic characteristic of the technical configuration.

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

1 is a block diagram of an artificial wetland type oxidation system according to the present invention.

Artificial wetland contact oxidation system of the present invention also if the treated water, such as sewage, sewage, waste water flows into the sedimentation and anaerobic tank 100 through the inlet through the flow adjustment tank 110, sedimentation tank 120, 130, 140, etc. While being treated and the treated water is discharged to the outside through the discharge tank 150, the basic context is the same as before. Therefore, hereinafter, detailed descriptions of the inlet, the settling and anaerobic tank 100, the flow adjustment tank 110, the settling tank 120, 130, 140 will be omitted.

However, the present invention allows the organic material to be treated more effectively, which is the first contact oxidation tank 200 and the first contact oxidation tank 200 and the discharge tank 150 as shown in FIG. The two-contact oxidizing tank 200a and the third-contact oxidizing tank 200b are installed in this order, and air is supplied to the first-contact oxidizing tank 200, the second-contact oxidizing tank 200a, and the third-contact oxidizing tank 200b. The injection device 300 is characterized in that the organic connection is used.

The first contact oxidation tank 200 is divided into an aerobic region and an aerobic region, the second contact oxidation tank 200a is partitioned into an aerobic region and an aerobic region, and the third contact oxidation tank 200b is aerobic. The first contact oxidizing tank (200) and the second contact oxidizing tank (200a) are alternately operated by the aerobic region and the aerobic region by the air injection device 300 which intermittently aerations during operation. In addition, the third contact oxidizing tank 200b is configured to highly treat treated water such as sewage, sewage, and wastewater while maintaining a continuous aerobic region.

Inside the first contact oxidation tank 200, the second contact oxidation tank 200a, and the third contact oxidation tank 200b, an inflow passage 230 through which water to be treated is introduced is formed, and at the bottom, the treated water is treated. Each of the outflow passages 250 to form the outlet. The soil layer 210 and the activated carbon layer 220 are sequentially stacked on the inflow channel 230, and the composite media layer 240 is formed between the inflow channel 230 and the outflow channel 250.

The soil layer 210 facilitates the natural circulation of the soil microorganisms and is supplied with the nutrition and moisture of the vegetated plants or evaporated into the atmosphere. The activated carbon layer 220 removes odors in the treated water area, the natural culture function of the microorganisms, Pest intrusion prevention, toxic inflow prevention, freezing prevention, temperature rise effect of upper soil layer, relaxation of temperature change, natural oxygen supply function.

The soil layer 210 as described above supports the plant growth of the earth's surface with general soil, and is treated according to physical, chemical and biological processes such as filtration, adsorption, and precipitation by plants and filter layer filters. When contaminants enter the oxidizing tank, the pollutants become nutrients to soil organisms and are decomposed and removed.In addition, the corrosive process of organic matter in the soil begins with the mineralization of its components into carbon gas, water, ammonia and other forms. . Therefore, because of the metabolic function of soil microorganisms is finally corroded to a stable material in the soil is treated environmentally.

A microorganism carrier is used as the composite media layer 240. A large amount of aerobic microorganisms and denitrifying microorganisms are adsorbed on the microcarrier to form a microbial membrane. The material is removed, and anaerobic oxidation and denitrification occur by the microorganisms present in the lower anaerobic layer and the pores, so that the nitrogen component can be effectively removed.

The air injection device 300 is connected to the blower 310 and the blower 310, the outside air to the inside through the blower 310 in the state installed in each of the outflow passage 250, respectively. When introduced, it is composed of a distribution pipe 320 for uniformly distributed supply of the introduced air to the composite media layer 240.

On the other hand, a well-known conveying apparatus is installed and used for the above-mentioned artificial wetland type catalytic oxidation system, which conveys all or part of the treated water and uses organic matter in the treated water in the non-aerobic region as the electron donor, Denitrification of nitrified nitrate nitrogen in the aerated treated water is induced in the sedimentation tank to efficiently remove nitrogen in the treated water.

In order to use the present invention configured as described above, first, treated water such as sewage, sewage, and wastewater flows into the sedimentation and anaerobic tank 100 through an inlet and flows through the flow adjusting tank 110, the sedimentation tank 120, 130, 140, and the like. While being treated, and the treated water is provided with a well-known artificial wetland contact oxidation system for highly treating sewage, sewage, and wastewater to be discharged to the outside through the discharge tank 150, and then the sedimentation tank 120, 130 The first contact oxidation tank 200, the second contact oxidation tank 200a, and the third contact oxidation tank 200b are sequentially installed between the 140 and the discharge tank 150.

Thereafter, the distribution pipe 320, which is the air injection device 300, is the effluent water of the first contact oxidation tank 200, the distribution pipe 320a is the effluent water of the second contact oxidation tank 200a, and the distribution pipe 320b. Are respectively installed in the outflow passage of the third contact oxidation tank 200b, and these distribution pipes 320, 320a and 320b are connected to the blower 320. In this case, the first contact oxidation tank 200 is divided into an aerobic region and an aerobic region, the second contact oxidation tank 200a is divided into an aerobic region and an aerobic region, and the third contact oxidation tank 300 is an aerobic region. After divided into sections to allow the air injection device 300 to aeration intermittently according to each area.

Treated water such as sewage, sewage, and waste water in the above state is inlet, sedimentation and anaerobic tank 100, flow adjustment tank 110, sedimentation tank 120, the first contact oxidation tank 200, sedimentation tank 130, Through the two-contact oxidation tank 200a, the precipitation tank 140, the third contact oxidation tank 200b, the discharge tank 150 in order to be advanced and discharged to the outside.

In more detail, the treated water passing through the inlet, the settling and settling tank 100, the flow adjusting tank 110, and the settling tank 120 is introduced into the inside of the first contact oxidizing tank 200 through the inflow channel 230. This treated water is reacted with the initial composite media layer 240 and the activated carbon layer 220. That is, the pollutants contained in the treated water are odor removal through the activated carbon layer 220, the natural culture function of microorganisms, pest intrusion prevention, toxic inflow prevention, freezing prevention, temperature rise effect of the upper soil layer, relaxation effect of temperature change, Simultaneously perform the natural oxygen supply function, the treated water passed through the activated carbon layer 220 is supplied to the soil layer 210 as the nutrition and moisture of the vegetation plant or evaporated to the atmosphere.

When the treated water is introduced into the composite filter layer 240, the composite filter layer 240 causes aerobic oxidation and nitrification of contaminants to remove organic substances, and the treated water from which the organic substance is removed is settled through the effluent passage 250. After passing through 130, it is introduced into the second contact oxidation tank 200a.

The treated water that has passed through the second contact oxidation tank 200a is treated through the same method as the first contact oxidation tank 200, and after being treated, passes through the third contact oxidation tank 200b and the discharge tank 150. Emitted to the outside.

On the other hand, when the above-described series of systems are operating organically when the blower 310 which is the air injection device 300 sucks the outside air and supplies it to the distribution pipes 320, 320a and 320b, this distribution pipe 320 and 320a alternately supply air, and the distribution pipe 320b continuously supplies air.

Therefore, since the first contact oxidation tank 200 is partitioned into an aerobic region and an aerobic region, and the second contact oxidation tank 200a is partitioned into an aerobic region and an aerobic region, an air injection device which intermittently aerations ( The areas of the first contact oxidation tank 200 and the second contact oxidation tank 200a are alternately operated by the distribution pipes 320 and 320a of the 300, and the third contact oxidation tank 200b is divided into three parts. It is operated to a continuous aerobic region by the pipe 320b to maximize the treatment efficiency for organic matter.

As described above, according to the present invention, a plurality of contact oxidation tanks having a composite media layer are sequentially formed in an artificial wetland contact oxidation system, and one contact oxidation tank is divided into an aerobic region and an aerobic region, and the other One contact oxidizer is divided into aerobic and non-aerobic regions, and the other contact oxidizer is divided into continuous aerobic regions.

Therefore, the aerobic and non-aerobic zones of the contact oxidation tank operate alternately through an air injection device that intermittently aerators when operating the artificial wetland type oxidation system, so organic matters such as nitrogen and phosphorus contained in sewage, sewage, and wastewater Can be processed highly efficiently.

In addition, according to the present invention can exhibit a high removal efficiency in a shorter time than the conventional hydraulic precipitating time, it is very economical because it is possible to operate at a high load and to reduce the required area for the artificial wetland.

In addition, since the treated water such as sewage, sewage, wastewater, etc. is highly processed through the artificial wetland type catalytic oxidation system of the present invention, there is no maintenance cost and does not require high operating technology, such as no sludge generation, compared to the conventional wastewater treatment facility. It is also suitable for small-scale wastewater treatment facilities such as military sewage and village sewage in general farming and fishing villages.

Claims (3)

When treated water such as sewage, sewage, and wastewater enters the sedimentation and anaerobic tank 100 through the inlet, it is treated through the flow adjusting tank 110, the sedimentation tank 120, 130, 140, etc., and the treated water is discharged. In an artificial wetland type catalytic oxidation system for highly treating sewage, sewage, and wastewater to be discharged to the outside through the tank 150, The first contact oxidation tank 200, the second contact oxidation tank 200a, and the third contact oxidation tank 200b are sequentially installed between the precipitation tanks 120, 130, 140 and the discharge tank 150. The first contact oxidation tank 200 is divided into an aerobic region and an aerobic region, the second contact oxidation tank 200a is divided into an aerobic region and an aerobic region, and the third contact oxidation tank 200b is aerobic. The aerobic and aerobic regions are alternately operated by the air injection device 300 intermittently aeration of the first contact oxidation tank 200 and the second contact oxidation tank 200a during operation. , The third contact oxidizing tank (200b) is an artificial wetland contact oxidation system for the advanced treatment of sewage, sewage, wastewater, characterized in that the treated water, such as sewage, sewage, wastewater, while maintaining a continuous aerobic region. The method of claim 1, wherein the first contact oxidation tank 200, the second contact oxidation tank 200a, the third contact oxidation tank (200b) inside the upper end of the inlet flow path 230 is introduced into the treated water to be treated After forming, respectively, an outflow passage 250 for flowing out the treated water, the soil passage 210 and the activated carbon layer 220 are sequentially stacked on the inflow passage 230 and the inflow passage 230 is formed. And artificial wetland contact oxidation system for the advanced treatment of sewage, sewage, wastewater, characterized in that to form a composite media layer 240 between the and the outlet channel (250). According to claim 1, The air injection device 300 is a blower 310 for sucking the outside air, the blower 310 is connected to the blower 310 and installed in each of the outlet water flow path 250, respectively When the outside air is introduced into the interior through the advanced processing of sewage, sewage, wastewater, characterized in that consisting of distribution pipes 320, 320a, 320b to distribute the supplied air evenly distributed to the composite media layer 230 Artificial wetland catalytic oxidation system.

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