KR20230013668A - removal and reuse water treatment system using upstream filter and the method thereof - Google Patents

Abstract

The present invention relates to a package-type automatic wastewater treatment device equipped with a sterilizing and drying facility, and more specifically, to a package-type automatic wastewater treatment device equipped with a sterilizing and drying facility, wherein performance for target water quality of a wastewater treatment plant is secured, the health and safety of management personnel are secured, maintenance costs are reduced based on the reduction of management personnel, performance of the wastewater treatment facility is improved, the wastewater treatment facility is automated and reduced in size and weight.

Description

Package-type automatic wastewater treatment system equipped with filter sterilization and drying equipment {removal and reuse water treatment system using upstream filter and the method thereof}

The present invention relates to a package-type automatic wastewater treatment device equipped with a sterilization and drying facility, and more particularly, to secure performance for a target water quality of a wastewater treatment plant and to reduce maintenance costs based on the health and safety of management personnel and the reduction of management personnel. It is a package-type automatic wastewater treatment system equipped with efficiency improvement of wastewater treatment facilities, automation of wastewater treatment facilities, and sterilization and drying facilities that are reduced in size and weight.

pH, COD, SS, n-H, etc. are discharged from wastewater generated from various industrial facilities or car washing facilities. This is a water treatment process to treat these pollutants and lower the load of T-P. In this water treatment process, particulate pollutants present in water are removed. A representative process for removing is the wastewater treatment process of the present invention.

Currently, in order to treat the wastewater as described above, most wastewater treatment facilities require the use of a large site, so the construction cost for the facility is high. In addition, facilities using large sites were able to secure the performance of wastewater treatment facilities, depending on whether they received a certain amount of education or whether they had the ability to cope on the site according to the operator's proficiency and judgment.

Therefore, in recent years, in order to secure performance for the target water quality of wastewater treatment plants and reduce maintenance costs based on the health and safety of management personnel and the reduction of management personnel, the performance of wastewater treatment facilities has been improved, as well as automation and weight reduction of wastewater treatment facilities. For this purpose, the need for R&D and application to the field arose.

Korean Patent Publication No. 2008-0010909 Korea Patent No. 10-0519680 Korean Patent Registration No. 10-0406190

The present invention has been made to solve the above problems, and relates to a package-type automatic wastewater treatment device equipped with a sterilization and drying facility. An oil-water separation unit equipped with a tank and an oil-water separation tank, a collection unit equipped with a water collection tank to temporarily store the wastewater flowing irregularly from the oil-water separation tank to maintain a certain level, and a '∩'-shaped wastewater stored in the water collection tank together with a polymer coagulant. Reaction facility that induces a coagulation reaction through the reaction facility of the polymer coagulant, the wastewater in which particles are formed along with the agglutination reaction by the polymer coagulant is filled with floating filter media (expandable polymer filter media) such as EPP or PE. An object of the present invention is to provide a package-type automatic wastewater treatment device equipped with a sterilization and drying facility composed of a sludge drying unit for drying and sterilizing high-moisture content sludge discharged and automatically withdrawn.

In addition, the present invention is packaged so that it can be installed on a small site, and the construction site and facility cost can be significantly reduced by miniaturizing the treatment facility, and the purpose is to provide an economical treatment device with easy operation management.

In addition, the hydrophobic foamed polymer filter medium according to the present invention is polypropylene or polyethylene, and has excellent chemical stability such as acid resistance and alkali resistance, light weight in specific gravity, and excellent durability, so that repeated cleaning is possible.

In addition, the purpose is to provide a filtration unit capable of realizing a collection / filtration function and high-speed / low-pressure filtration by having a plurality of pores.

In order to solve the above problems, the present invention provides an oil-water separation unit equipped with a grit chamber and an oil-water separation tank to separate oil and fine particles from the inflowing wastewater by gravity;

a water collection unit equipped with a water collection tank to temporarily store the wastewater irregularly flowing in from the oil-water separation tank to maintain a constant level; A reaction facility unit for inducing coagulation of raw wastewater stored in the collecting tank through a '∩'-shaped reaction facility equipped with a swirl device together with a polymer coagulant; A filtration unit of a filtration unit filled with a flotation filter made of EPP or PE for the wastewater in which particles are formed with the coagulation reaction by the polymer coagulant; The treated water is discharged through the filter and a sludge drying unit for drying and sterilizing the automatically withdrawn high-moisture sludge.

The inflowing wastewater is efficiently removed by the screen installed in the oil-water separation unit and the oil-water separator along with the inflow soil, impurities and coarse materials, and the wastewater that has been efficiently removed by the oil-water separator. Be prepared.

The wastewater in the flow control tank starts the entire process through a buoyancy type gear type (GEAR TYPE) level switch. The swirl device in the 'J'-shaped reaction facility undergoes a reaction and aggregation process.

The '∩'-shaped reaction facility installed at the front end of the filtration unit filled with the flocculation reaction and particles formed by the polymeric coagulant in the floating filter medium made of EPP or PE is equipped with a swirl device inside to contain the polymeric coagulant. Chemicals are injected to accelerate the reaction between the chemicals and raw wastewater, and the wastewater in which particles are formed undergoes a solid-liquid separation process by the filtration unit filled with floating filter media made of EPP or PE.

The filter unit is a device that uses the oxidizing power of ozone to make pollutants into low-molecular substances to make them harmless, and to remove colloidal aggregates generated during oxidative decomposition by a filter filled with a floating filter medium made of EPP or PE.

The ozone generated by the ozone generator that generates the ozone has excellent odor and sterilization effects due to its strong sterilizing and oxidizing power, and can be used as a recycling and non-discharge system of treated water.

The present invention includes an oil separation tank for receiving wastewater and separating oil; A furnace water tank for receiving and storing raw water; a treated water tank for storing treated water generated in the process; a furnace water pump attached to the furnace water tank to pump water; a backwash pump connected to the furnace water pump for backwashing; A '∩'-shaped line reactor from the backwash pump is further included.

The present invention is an ozone generator for generating ozone; A chemical tank for storing chemicals; chemical pumps that pump chemicals; It includes a flow meter that measures the raw water delivered to the dry bed, and is forcibly transferred to a reaction facility at a later stage through a flow control tank pump, and the swirl device in the '∩'-shaped reaction facility undergoes a reaction and aggregation process.

The fibrous filter medium of the filtering unit is in the form of a cube made of PE or PP or a web form of polyolefin-based resin fibers.

The present invention made as described above is packaged so that it can be installed on a small site, and the construction site and facility cost can be significantly reduced due to the miniaturization of the treatment facility, and it is possible to provide an economical treatment device with easy operation and management.

In addition, the present invention sterilizes and dries the colloidal aggregates generated during the solid-liquid separation process in the filtration device by the newly developed sludge collection container (DRY BED) and the UVC-LED sterilization and drying device installed inside the sludge collection container, thereby improving the hygiene of the manager It also has an effect on environmental health.

1a, b, c, and d are diagrams showing a configuration (eg, a car wash) of a packaged automatic wastewater treatment device equipped with a sterilization and drying facility according to another embodiment of the present invention.
2 is a cross-sectional view showing a schematic structure of a packaged automatic wastewater treatment system equipped with a sterilization and drying facility according to another embodiment of the present invention.
3 is a view showing the appearance and specifications of a packaged automatic wastewater treatment system equipped with sterilization and drying facilities according to an embodiment of the present invention.
4 is a table showing materials, manufacturing, and efficiency of a packaged automatic wastewater treatment system equipped with sterilization and drying facilities according to another embodiment of the present invention.
5 is a view showing a process of easily removing cadmium or the like according to another embodiment of the present invention.

In order to fully understand the present invention, a preferred embodiment of the present invention will be described with reference to the accompanying drawings. Embodiments of the present invention may be modified in various forms, and the scope of the present invention should not be construed as being limited to the examples described in detail below. This embodiment is provided to more completely explain the present invention to those with average knowledge in the art. Therefore, the shapes of elements in the drawings may be exaggerated to emphasize a clearer explanation. It should be noted that in each drawing, the same members are sometimes indicated by the same reference numerals. In addition, detailed descriptions of well-known functions and configurations that may unnecessarily obscure the subject matter of the present invention are omitted.

As shown in FIG. 1A, the present invention includes an oil-water separation unit 10 equipped with a sand pit and an oil-water separation tank to separate oil and fine particles from the inflowing wastewater by gravity; a water collection unit 20 equipped with a water collection tank to temporarily store the wastewater irregularly flowing from the oil-water separation tank to maintain a constant level; A reaction facility unit 30 for inducing a coagulation reaction of raw wastewater stored in the water collection tank through a '∩'-shaped reaction facility equipped with a swirl device together with a polymer coagulant; A filtration unit 40 of a filtration unit in which wastewater particles are formed along with the coagulation reaction by the polymer coagulant in a floating filter medium (expandable polymer filter medium) such as EPP or PE; The treated water is discharged through the filter and is composed of a sludge drying unit 50 for drying and sterilizing the automatically withdrawn high-moisture sludge.

As an embodiment, the inflowing wastewater is efficiently removed by the screen and the oil-water separator installed in the oil-water separation unit along with the inflow soil, impurities and coarse materials, and the wastewater that has been efficiently removed by the oil-water separator is sufficiently equalized in the flow control tank for 24 hours or more. prepared for shock loads.

The wastewater in the flow control tank starts the entire process through a buoyancy type gear type level switch, and when the high level is operated, the wastewater in the flow control tank is pumped to the reaction facility, which is the core of this treatment system at the rear end. After being forcibly transported, the swirl device in the '∩'-shaped reaction facility undergoes reaction and aggregation processes with maximum treatment efficiency.

For example, the '∩'-shaped reaction facility installed at the front end of the filtering unit filled with floating filter media (expandable polymer filter media) such as EPP or PE with particles formed by the coagulation reaction by the polymer coagulant has a swirl device inside. Solid-liquid separation by the filtration unit filled with floating filter media (expandable polymer filter media) such as EPP or PE by accelerating the reaction between the chemicals and the raw wastewater by injecting other chemicals including polymer coagulants. Go through the process.

The filtration unit of the present invention uses the oxidizing power of ozone to make pollutants into low molecular weight to make them harmless, and to remove colloidal aggregates generated during oxidative decomposition by a filter filled with a floating filter medium (foamable polymer filter medium) such as EPP or PE. to be.

In addition, the ozone generated from the ozone generator has excellent odor and sterilization effects due to its strong sterilizing and oxidizing power, so it can be used as a recycling and non-discharge system of treated water.

The colloidal aggregates generated during the solid-liquid separation process in the filtration unit 40 are sterilized and dried by the newly developed sludge collection container (DRY BED) and the UVC-LED sterilization and drying device installed inside the sludge collection container, thereby improving the manager's hygiene and environment It also has a health effect.

As shown in FIG. 2, as an embodiment, a plurality of UVC-LED devices included in the UVC-LED device unit may include the discharge unit and the plurality of UVC-LED devices.

As the filter media to be used in the reaction facility unit 30, etc., there are floating irregular granular filter media and porous PE (Polyethylene) floating filter media. As a flotation medium of polyethylene (PE), it is also preferable to have an irregular shape.

Therefore, the hydrophobic foamed polymeric filter medium (EPP) of the present invention is an expandable polypropylene, which has excellent chemical stability such as weather resistance, acid resistance, and alkali resistance, has a specific gravity of 0.85 to 0.9, and is lightweight with a weight of 70 kg/m ³ , and a method for producing foam with addition cross-linking. Manufactured using voids of 92% or more, durability of 10 years or more, replacement cycle, more than 3,000 times of repeated washing, and voids of 92% or more, collection/filtration function (10~15kg/m ³ ) and LV 20m /hr high-speed/low-pressure filtration can be realized.

As shown in Figure 1b, the present invention receives wastewater and separates oil from oil separation tanks (OIL SEPARATION T/K; 11, 12); A raw water tank for receiving and storing raw water (RAW WATER T/K; 13); a treated water tank (TREATED WATER T/K; 14) for storing treated water generated in the process; a raw water pump (RAW WATER PUMP; 101) attached to the raw water tank (RAW WATER T/K; 13) to pump water; a backwashing pump (BACK WASHING P/P; 102) connected to the low water pump to perform backwashing; A '∩'-shaped line reactor 103 from the backwash pump 102 is further included.

Reactivity can be improved by using various screws as shown in FIG. 1c inside the '∩'-shaped line reactor.

The present invention is an ozone generator that generates ozone (OZONE GENERATOR; 109); A chemical tank for storing chemicals (CHEMICAL TANK; 108); A chemical pump for pumping chemicals (CHEMICAL PUMP; 107); A flow meter (FLOW METER; 106) that measures the raw water delivered to the dry bed (DRY BED; 105); and is forcibly transferred to the reaction facility at the rear through a flow control tank pump, and is transferred to the '∩'-shaped reaction facility. The swirl device of the goes through a reaction and aggregation process.

As shown in FIG. 2, the size of the hydrophobic foamed polymer filter (EPP) such as the reaction facility 30 is an irregularly shaped granular filter medium of about 2.5mm to 5mm, and the material is EPP (Expanded Polypropylene), a high-speed hydrophobic foamed polymer filter medium was composed of

In addition, the hydrophobic foamed polymer filter medium is prepared by foaming with an additional cross-linking property of 92% or more in voids.

As shown in FIGS. 1C and D, inside the '∩'-shaped line reactor (103), etc., a spiral band-shaped inner screw is provided on the outside around the center axis, or a spiral belt-shaped inner screw An outer screw having a spiral band shape is provided in the opposite direction of the inner screw to the outside, and as a screw that rotates and stirs, two inner and outer double screws may be included.

As shown in Figures 3 and 4

(a) Looking at the structure and mechanism of the polypropylene irregular granular filter medium, it is suitable for agitation and cleaning in the form of a 2.5 mm to 5 mm type cube and is easy to fill/replace.

(b) Pores distributed over 92% collect and filter suspended matter, and high-speed filtration is possible with almost no pressure loss.

(c) Polypropylene-based hydrophobic foamed polymer media (EPP), which is foamed through addition cross-linking, has a repeated compressive strain of only 7.5%, which can minimize deformation caused by agitation and washing.

Therefore, the filtration unit according to the present invention can be used for multiple purposes such as water purification, phosphorus removal, and reused water treatment, and can be applied to industrial, agricultural and fishery, and waste/wastewater treatment systems as a basic filtration system.

The package-type automatic wastewater treatment system equipped with a sterilization and drying facility for filtering parts according to the present invention is a system that filters aggregated fine particles using chemicals suitable for the water quality at the site, and can perform precision filtration for industrial process water, drinking water, etc. Do.

The hydrophobic expanded polypropylene (EPP) and the porous floating polymeric filter medium polyethylene (PE) according to the present invention have excellent chemical stability such as weather resistance, acid resistance, and alkali resistance, and are ultra-light with a specific gravity of 0.85 to 0.9 and a weight of 70 kg/m ³ .

Hereinafter, a treatment method using a package-type automatic wastewater treatment system equipped with a filter unit sterilization drying facility will be described.

As another embodiment of the present invention, automatic cleaning control is performed according to the pressure rise due to the collection of floating matters during the filtration process and the operation duration condition.

Minimize the required treatment quantity of filter media used for phosphorus removal and reused water and the abrasion and loss of hydrophobic expanded polypropylene (EPP) or porous polymer filter media (PE) after cleaning, and detailed adjustments according to the degree of fully automatic treatment and site conditions this is possible

The floating filter media is installed inside the reaction facility unit 30, etc., and includes a filter media layer in which irregular filter media of different groups are disposed in a plurality of layers.

The filter medium layer is a material having excellent chemical stability such as acid resistance and alkali resistance as a hydrophobic expanded polypropylene (EPP) floating filter medium in which a filter medium having a thickness of 2.5 mm to 5 mm is disposed.

The shape of the hydrophobic expanded polypropylene (EPP) floating substrate is an irregularly shaped granular filter medium of about 2.5 mm to 5 mm in size, and the material is composed of EPP (Expanded Polypropylene) and high-speed hydrophobic foam polymer filter media. (See Fig. 2) .

The filtration unit 40 has a hollow inside, a filtered water discharge hole at the bottom, and a porous tube having a plurality of filtered water inlet holes on both sides, and a plurality of pores densely disposed on both sides of the porous tube. A polyethylene polymer filter medium composed of a polymer filter medium group, a cylinder installed to be positioned on the upper side of the porous polymer filter medium and controlling the pores of the porous polymer filter medium by pulling or relaxing the porous polymer filter medium, and a PTFE installed to be located in the hollow part of the porous polymer filter medium It contains a porous membrane. The PTFE porous film is installed to cover the inner surface of the porous cylinder so as to be located in the hollow of the porous cylinder. The PTFE porous film is thermally fused to the inner surface of the porous cylinder and integrally installed.

Meanwhile, the above-described floating filter media, floating irregular granular filter media, flotation media, hydrophobic foamed polymer filter media, and high-speed hydrophobic foamed polymer filter media have structures similar to each other, and the present invention may further include an activated carbon filter in addition to this.

In the case of the activated carbon filter, the function of adsorbing turbidity and color causing substances contained in sewage and deodorizing is excellent. In particular, it can effectively adsorb free residual chlorine, trihalomethanes, volatile organic compounds (VOCs) such as chloroform, lead, etc., and also has the ability to remove other amine odors and methyl mercaptan.

The activated carbon filter may be one in which 10 to 50 mesh activated carbon particles are filled with a filter medium and have a thickness of 10 to 150 cm.

At this time, when the activated carbon particle size is less than 50 mesh, the flow rate of the fluid passing through the activated carbon filter may decrease, and when the size exceeds 10 mesh, the deodorization and adsorption function of the activated carbon filter layer may decrease.

In addition, when the activated carbon filter has a thickness of less than 10 cm, adsorption and deodorization functions may be reduced, and when the thickness exceeds 150 cm, the filter unit becomes larger than necessary, and economical efficiency is poor. , it is preferable to use an activated carbon filter in the range described above.

At least one filter selected from the group consisting of sand, garnet, anthracite, zeolite, igneous rock, elvan, garnet, ceramic ball, kaolin clay ball, and ocher ball may be further included at the location where the activated carbon filter is attached.

More specifically, the filter uses an inorganic filter having an excellent function of adsorbing pollutants aggregated in sewage, and a filter having a diameter of 0.5 to 30 mm is used so that the function of adsorbing pollutants is not deteriorated and the size is not larger than necessary. can

Alternatively, an activated carbon filter layer is formed on the filter, and sand particles having an average diameter of 0.5 mm are filled to a thickness of 30 cm to form an inorganic filter material filter layer, and the deoiled horseradish tree (Moringa oleifera Lamarck) seed composite particles to a thickness of 20 cm An organic-inorganic composite filter layer may be formed by filling, and a pre-treatment filter layer may be formed by mounting a synthetic fiber filter made of polypropylene having a thickness of 5 cm.

In addition, the above-mentioned floating filter media, floating irregular granular filter media, floating filter media, hydrophobic foamed polymer filter media, and high-speed hydrophobic foamed polymer filter media are composed of polymer filter plate members coupled to each other through grooves to maintain their geometric structure. In order to do so, a binding member for binding the polymer filter module is further included.

For example, the binding member may be formed by forming a wire, a band, or a material of the same material as the polymer filter plate member in the form of a thread to bind the binding member.

As the sewage passes between the polymer filter plate member of the geometric structure filled inside the filter medium and the polymer filter plate member, the oil component of the fine particles contained in the sewage is deposited on the surface of the polymer filter (i.e., cell-unit polymer filter plate member). Friction is generated while moving in close contact, and the oil components of the fine particles are coalesced, so that the oil components whose size has increased are lifted to the upper part of the treatment tank and removed.

In addition, as the sewage passes through the polymer filter, the solids of fine particles contained in the sewage are closely moved to the surface of the polymer filter (ie, the cell-unit polymer filter plate member), causing friction to cause the solids of fine particles to coalesce. As a result, the solids whose particle size has increased are precipitated to the lower part of the treatment tank and removed.

As described above, the polymer filter of the present invention has a geometric structure having a sewage pipe and a passage therebetween, and the polymer filter plate member of the cell unit expands the surface area due to the geometric structure of the polymer filter plate member to increase the coalescence performance of fine oil components contained in sewage. It improves the removal efficiency of fine oil components by improving the removal efficiency of fine solids by improving the coalescence performance of fine solids contained in sewage.

The above-mentioned filter media or filters are formed through polyester fibers, and have tensile strength and flexibility at the same time by constructing a three-dimensional network structure by self-fusion of cellulose (polyester), and have sound absorption, heat insulation, and light weight by having pores connected to the inside. It has excellent moisture stability, which is a unique characteristic of polyester fiber, so sewage can be easily drained and the strength of the original state can be maintained even after drainage.

Alternatively, the above-described filter media or filters are formed as spring-type or cylindrical filters to further prevent deformation of the cylindrical filter in the process of washing the filter by spraying high-pressure air or water. In other words, by further forming a spring-type restoring part on the outer circumferential surface of the cylindrical filter having a spiral cutout as described above, by spraying high-pressure air or water to increase the restoring force of the cylindrical filter in the process of washing the filter, It is also possible to further prevent damage caused by permanent deformation of the cylindrical filter due to air or water.

On the other hand, a cutout portion spirally cut in the longitudinal direction of the cylindrical body of the cylindrical filter is formed.

The cutout has a function of elastically deforming the outer shape of the cylindrical body when an external force due to the flow pressure of a fluid or an adhesive force between adjacent polymer filters acts on the cylindrical body, and elastically restoring the outer shape of the cylindrical body when the external force is removed. carry out

The elastic deformation of the cylindrical body causes bending or bending deformation with respect to the central axis in the direction of the external force.

In addition, the part receiving the external force undergoes eccentric deformation with respect to the central axis according to the direction of application of the external force. This elastic deformation action facilitates the floating of the coalesced oil components while moving between the surface of the cylinder and the space, and minimizes the adhesion of solids by brushing off the solids adhering to the surface of the cylinder. Falling to the bottom of the filter cylinder is made more smooth.

On the other hand, the above-mentioned floating filter medium, floating irregular granular filter medium, floating filter medium, hydrophobic foamed polymer filter medium, and high-speed hydrophobic foamed polymer filter medium may be a cone-shaped suspended polymer filter, and are formed as a hollow cone, thereby minimizing the weight compared to the volume surface area. .

If the size of the polymer filter is formed too large than the above size, the weight is greater than the specific gravity of water, so that it does not float in water and sinks, so that it cannot perform the function of separating sewage and removing solids. Conversely, if the size is too small, the surface area is small, so the sewage separation performance and solids removal performance are reduced.

In one embodiment, the filter includes branched polyether-polyester polyol, filler, silicone oil, fatty acid ester, acrylic copolymer, It can be protected with a coating agent containing zeolite powder and sunscreen.

Therefore, a coating agent having excellent adhesion, water resistance, gloss, abrasion resistance, and chemical resistance, which prevents damage from being easily damaged by external impact during filtering, is added in the ratio described above.

Because polyester polyol has excellent abrasion resistance, tear strength, flexibility, oil resistance, heat resistance, and elasticity, but has a problem of hydrolysis by water, 35 to 60 parts by weight of filler, silicone oil 0.1 to 2 parts by weight, 1 to 10 parts by weight of fatty acid ester, 0.1 to 3 parts by weight of copolymer acrylate, 1 to 5 parts by weight of zeolite powder, 0.1 to 3 parts by weight of sunscreen Include wealth.

In addition, the filter may be coated with a protective layer made of one of polycarbonate, ethylene-tetrafluoroethylene, ethylene vinyl acetate, aluminum foil, polyolefin, polyvinyl butyral, and silicone resin.

According to an embodiment, the hydrophobic expanded polypropylene media (EPP) or floating media or fiber media according to the present invention can easily impart porosity by preparing a polymer by an emulsion polymerization method, and also has chemical resistance to heavy metals. By grafting a thiol compound having bonding ability to the porous polymer at a relatively low temperature, high heavy metal removal efficiency can be achieved even with a small content.

In other words, it is functionalized with a thiol group and chemical adsorption occurs, so that the adsorption process is stable and has strong adsorption power. As a result, it is more efficient and economical than conventional adsorbents for removing heavy metals.

In addition, since the acrylic porous polymer is prepared through a simple method of emulsion polymerization, chemical functionalization is easy.

Through such a simple manufacturing process, it is possible to secure economic feasibility by facilitating mass production of products.

Alternatively, cadmium or the like may be easily removed through the reaction shown in FIG. 5 .

10: Oil and water separation unit
20: catchment department
30: reaction facility unit
40: filtering unit
50: sludge drying unit

Claims (8)

An oil-water separation unit 10 equipped with a grit chamber and an oil-water separation tank to separate oil and fine particles from the inflowing wastewater by gravity;
a water collection unit 20 equipped with a water collection tank to temporarily store the wastewater irregularly flowing from the oil-water separation tank to maintain a constant level;
A reaction facility unit 30 for inducing a coagulation reaction of raw wastewater stored in the water collection tank through a '∩'-shaped reaction facility equipped with a swirl device together with a polymer coagulant;
A filtration unit 40 of a filtration unit filled with a floating filter made of EPP or PE for the wastewater in which particles are formed with the coagulation reaction by the polymer coagulant;
A package-type automatic wastewater treatment system equipped with a filtering unit sterilization drying facility consisting of a sludge drying unit (50) for drying and sterilizing the treated water discharged through the filter and automatically drawn out high-moisture sludge. According to claim 1,
The inflowing wastewater is efficiently removed by the screen installed in the oil-water separation unit and the oil-water separator along with the inflow soil, impurities and coarse materials, and the wastewater that has been efficiently removed by the oil-water separator. A package-type automatic wastewater treatment system equipped with a filtration unit sterilization drying facility, characterized in that for preparation. According to claim 1,
The wastewater in the flow control tank starts the entire process through a buoyancy type gear type (GEAR TYPE) level switch. A package-type automatic wastewater treatment system equipped with a filtration unit sterilization and drying facility, characterized in that the swirl device in the 'shaped reaction facility undergoes a reaction and aggregation process. According to claim 1,
The '∩'-shaped reaction facility installed at the front end of the filtration unit filled with the flocculation reaction and particles formed by the polymer coagulant in the floating filter medium made of EPP or PE is equipped with a swirl device therein to contain the polymer coagulant. Chemicals are introduced to accelerate the reaction between the chemicals and wastewater, and the wastewater in which particles are formed goes through a solid-liquid separation process by a filtering unit filled in a flotation filter made of EPP or PE, and the filtering unit uses the oxidizing power of ozone. Equipped with a filter unit sterilization drying facility characterized in that the pollutants are made harmless by making them into low molecular weight, and colloidal aggregates generated during oxidative decomposition are removed by a filter filled with a floating filter medium (foamable polymer filter medium) made of EPP or PE. One-package automatic wastewater treatment system. According to claim 1,
The ozone generated by the ozone generator that generates the ozone has excellent odor and sterilization effects due to its strong sterilization and oxidizing power, so that it can be used as a recycling and non-discharge system of treated water. Wastewater treatment system. Oil separation tanks (OIL SEPARATION T / K; 11, 12) for receiving wastewater and separating oil;
A raw water tank for receiving and storing raw water (RAW WATER T/K; 13);
a treated water tank (TREATED WATER T/K; 14) for storing treated water generated in the process;
a raw water pump (RAW WATER PUMP; 101) attached to the raw water tank (RAW WATER T/K; 13) to pump water;
a backwashing pump (BACK WASHING P/P; 102) connected to the low water pump to perform backwashing;
A packaged automatic wastewater treatment system equipped with a filtration unit sterilization drying facility, characterized in that it further comprises a '∩'-shaped line reactor (103) from the backwash pump (102). According to claim 6,
an ozone generator that generates ozone (OZONE GENERATOR; 109); A chemical tank for storing chemicals (CHEMICAL TANK; 108); A chemical pump for pumping chemicals (CHEMICAL PUMP; 107); A flow meter (FLOW METER; 106) that measures the raw water delivered to the dry bed (DRY BED; 105); includes ,
A package-type automatic wastewater treatment system equipped with a filtration unit sterilization and drying facility, characterized in that the volumetric and forced transfer to the reaction facility at the rear through the flow control tank pump, and the swirl device in the '∩'-shaped reaction facility undergoes a reaction and coagulation process. . According to claim 6,
The packaged automatic wastewater treatment system having a filter unit sterilization and drying equipment, characterized in that the fibrous filter material of the filter unit is in the form of a cube of PE or PP material or a web form of polyolefin-based resin fibers.

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