KR20140123155A - Waste water resource-treatment apparatus - Google Patents

Abstract

The present invention provides a wastewater recycling apparatus comprising: a mixing tank for introducing raw water, inputting a first flocculant and rapidly churning the first flocculant; a flocculating tank for precipitating flocculated floc generated by slowly churning the raw water, which overflows from the mixing tank, and making the precipitated floc overflow; a neutralizing tank for filtering the overflowing floc via a screen net, inputting a second flocculant to re-flocculate the raw water and the minute floc, which have gone through the screen net, and rapidly churning the second flocculant; a settling tank for making the raw water, which has overflowed from the neutralizing tank, overflow again, settling the flocculated floc and re-circulating the settled floc to the screen net; and a filtering tank for purifying the raw water, which has overflowed from the settling tank, and re-circulating the purified raw water to the mixing tank.

Description

[0001] WASTE WATER RESOURCE-TREATMENT APPARATUS [0002]

The present invention relates to a wastewater recycling apparatus, and more particularly, to a wastewater recycling apparatus capable of purifying livestock wastewater and the like generated from pets, And a resource conversion processing apparatus.

There are biological treatment methods, physical and chemical treatment methods and liquid phase corrosion methods for livestock wastewater treatment methods. Recently, high efficiency treatment methods and purification system type treatment systems have been developed.

The treatment methods applied in the field are activated sludge process, which is a biological treatment method. This method has the problem of bubbling and sludge bulking problems in the aeration tank during operation and poor sludge settling ability. Therefore, it is possible to operate in a large scale treatment plant due to high maintenance cost, so that it can be operated technically and economically It is known that there are many difficulties.

On the other hand, an effort is being made to compost the livestock wastes or the sludge generated from the wastewater. Particularly, Korean Patent No. 10-502180 discloses a technique capable of performing composting together with wastewater treatment.

1, the livestock wastewater which has not been subjected to solid-liquid separation such as cleansing water generated in the cleansing process of the manure and the manure of the livestock stored in the raw water tank (the flow rate adjusting tank) 1 is supplied at a constant flow rate step; Introducing the raw water flowing in the raw water tank (flow control tank 1), the treated effluent water and the microbial culture liquid activated and right ignited in the microorganism culture tank 5 into the first aeration tank 2 and the second aeration tank 3 ; Supplying fine air to the first aeration tank (2) and the second aeration tank (3); Transferring the wastewater treated in the aeration tank to a sedimentation solid-liquid separation tank (4) for separating the treated water from the liquid phase and the sludge in the semi-solid state, and separating the wastewater; Transporting and treating a part of the settled sludge to the microorganism culture tank (5) before returning to the aeration tank; And a step of transferring the sludge containing a high concentration of organic matter, nitrogen and phosphorus components to a livestock wastewater composting tank (11) for improving the quality of the compost. The livestock wastewater, which is completely mixed with rinsing water, In the process of mixing, aerobic fermenting microorganisms and soil microorganisms are ignited and activated in a separate incubation tank to inhibit the spoilage bacteria, which are the main causative bacteria of odor, so that aerobic fermenting microorganisms and soil microorganisms are not included in the manure of the livestock Resistant broad-spectrum antibiotics and antiseptic disinfectants to treat high concentrations of organic matter, nitrogen, and phosphorus, and recycle them as high-quality organic fertilizer, thereby preventing secondary wastewater and excess sludge from being generated.

However, a separate culture tank for microorganisms must be installed, and it is doubtful whether the microorganisms can be continuously adapted to the temperature, acidity, etc. in the respective treatment tanks. In order to be possible, there is a problem that the maintenance cost becomes excessive.

Korean Patent No. 10-502180

An object of the present invention is to provide a wastewater recycling apparatus for purifying livestock wastewater and reusing purified wastewater as replenishment water for raw stock solutions of wastewater without generating wastewater and excess sludge.

According to an embodiment of the present invention, a mixing tank in which raw water is introduced, a first flocculant is injected and stirred rapidly, An agglomerating tank for agglomerating the agglomerated flocs generated by the continuous stirring of the raw water overflowing in the mixing tank and for allowing the flocculated flocc to flow; A neutralization tank for filtering the overflowed flocs with a screen net, introducing a second flocculant so that the raw water and micro flocs passing through the screen net are re-flocculated, and rapidly stirring the flocs; A sedimentation tank which again flows the raw water overflowing from the neutralization tank, sinks the flocculated floccules, and circulates the flocculated floccules to the screen net again; And a filtration tank for purifying the raw water overflowing from the settling tank and circulating the purified raw water to the mixing tank again.

Other objects and advantages of the present invention will become apparent from the detailed description given hereinafter and the detailed description and the examples that illustrate the preferred embodiments of the present invention are not intended to limit the scope of the present invention.

The present invention can reuse surplus sludge generated in wastewater treatment by compost and the like, and can reduce the cost of treated water by reusing the wastewater generated in the purification of wastewater, It is possible to provide a wastewater recycling apparatus with convenience of movement and a low cost by mounting a wheel as much as possible.

1 is a conventional wastewater treatment apparatus.
Fig. 2 is a schematic view of a wastewater recycling apparatus according to the present invention viewed from the front.
3 is a schematic view of a wastewater recycling apparatus according to the present invention in a plan view.
Fig. 4 is a schematic view of a wastewater recycling apparatus according to the present invention in a side view.
5 is a cross-sectional view of a screw molding machine applied to the present invention.

In the preferred embodiment, the present invention solves the problem that it is difficult to maintain the facility in a large scale and maintain a constant operation.

Preferred embodiments of the present invention will be described by way of example with reference to the following drawings.

FIG. 2 is a schematic view of a wastewater recycling apparatus according to the present invention viewed from the front, FIG. 3 is a schematic view of a wastewater recycling apparatus according to the present invention in a plan view, FIG. 4 is a side view Fig. 5 is a sectional view of a screw molding machine applied to the present invention. Fig.

2 through 4, the present invention provides a water treatment system including a mixing tank 100, a flocculation tank 200, a neutralization tank 300, a settling tank 400, a filtration tank 500, a collecting tank 600 ), And includes a screw molding machine 700 for processing flocs separated from raw water and converting it into fertilizer or the like.

First, the raw water applied to the present invention is wastewater generated from barns, pigs, cages, etc., where water and excrement are mixed to cause turbidity of water.

Particularly, it is possible to combine fine particles and colloidal particles that cause turbulence to aggregate floccules, which are large particles, and impurities such as aggregated feces can be reprocessed and recycled. Water is disinfected and discharged, .

In the mixing tank 100 according to the present invention, the raw water to be treated is introduced, and the colloidal suspended material on the raw water is agglomerated by the first flocculant.

The first coagulant according to the present invention can be selectively applied to aluminum sulfate, aluminum chloride, ferrous chloride, etc. In general, coagulation is a crosslinking phenomenon which acts to place a bridge between particles and particles, Such agglomeration is affected by pH and stirring of the raw water.

The raw water used in the present invention has an acidity of about 5 to 7, and includes a flocculant dispenser 110 for measuring the quality of water such as turbidity, acidity, alkalinity and water temperature of the raw water by using a sensor to adjust the amount and acidity of the flocculant, (120) is installed on the upper part of the mixing chamber (100).

Particularly, the mixing chamber 100 is divided into at least two chambers by the partition W, and in the present invention, the chambers 100 are divided into four chambers.

A plurality of rotating blades B are provided in the inner space of the mixing chamber 100 defined by the partition walls W. The blades B can change the direction of rotation of the shaft of the motor M, So as to rotate in conjunction with the driving force of the motor M.

In the motor (M) and the blade (B) applied to the present invention, raw water and a first flocculant to be charged are rapidly stirred at a stirring speed of about 100-150 RPM. Since the agitation speed is large at this time, floc growth is extremely small, It is very useful for the diffusion of the first flocculant.

Preferably, the first flocculant introduced into the mixing tank 100 is introduced into a space where the first partition wall W is formed for the purpose of mixing.

The partition wall W is installed such that the raw water and the first flocculant are agitated by the blade B and then flows into the next space defined by the partition wall W. The partition wall W is filled with raw water and the first flocculant, So that the upper and lower ends thereof are opened.

The shape of the partition W is commonly applied to the flocculation tank 200 and the neutralization tank 300.

The flocculation tank 200 receives the mixed raw water flowing in the mixing tank 100 and is divided into four spaces according to the present invention by two or more spaces according to the partition W. As described above, And the colloidal suspended material on the mixed raw water is rotated by receiving the driving force of the motor M to be agglomerated.

The flocculated suspended matter is flocized, where the floc grows.

As the number of collisions between the particles and the diameter of the particles in the colloid-like suspended matter are uneven, the effect of coagulation increases, so that the blade (B) installed in the coagulation tank 200 performs the slow stirring.

The mixed raw water grown by the floc in the flocculation tank 200 flows over the screen net 250 and is separated into floc and water again.

The flock that has grown is filtered by the screen net 250 and collected by the collecting tank 600, for which a vibration motor is installed in the screen net 250 to facilitate floc ejection and separation.

The separated water is discharged to the neutralization tank 300, and the water discharged to the neutralization tank 300 contains fine suspended substances that have passed through the screen net 250 and must be flashed again to be reprocessed. However, (300), the space formed in the partition wall (W) is relatively small.

To this end, a flocculant injector 310 in which a second flocculant, a flocculant aid, and an auxiliary coagulant are installed is installed in the neutralization tank 300 applied to the present invention.

The coagulation assistant agent applied to the present invention is selectively mixed with bentonite, sodium alginate, sodium silicate, sodium carbonate, etc., which are mixed together with the coagulation assistant to perform an auxiliary coagulation action and provide nuclei for adsorption of colloid particles in water.

The coagulant aid is used for the saving of the second coagulant, the performance improvement and the effect thereof. In the present invention, the second coagulant is a polyaluminum chloride, an aluminum sulfate , Aluminum polysulfate aluminum silicate, and polymer flocculant are selectively applied.

The second flocculant to be used in the present invention, the flocculation assistant and the flocculation assistant agent are preferably mixed in the same ratio.

Due to the role of the second flocculant, flocculant, and coagulant, especially the flocculant, microparticles and colloids in the water are bound to rapidly flocculate and float the flocs.

To this end, the neutralization tank 300 is also provided with a blade B rotating by the driving force of the motor M, and the blade B is rotated at about 100 RPM to rapidly stir.

Subsequently, the water and flocs that have flowed in the neutralization tank 300 are introduced into the settling tank 400 again.

The settling tank 400 is provided with at least one flock receiving chamber 410 for receiving the overflowing water and flocs therein, and in the present invention, two are provided.

The flock receptacle 410 is open at the top and the bottom is partially open and connected to the discharge pipe 420 so that the received flock can move.

A transfer pump P is provided on the discharge pipe 420 to suck flocks settled in the lower portion of the flock receiving chamber 410 through the discharge pipe 420 and forcibly transfer the flock to the screen net 250 So that flocs of a predetermined size or larger are discharged to the collecting tank 600.

An outlet 412 for discharging mixed water of fl ow and water overflowing from the neutralization tank 300 is formed at an intermediate portion of the floc receiving chamber 410. An upper portion of the floc receiving chamber 410 is provided with A motor M and a blade B are provided.

In the present invention, the mixed water of floc and water injected into the floc receiving chamber 410 is mixed with chlorine and activated carbon introduced from the chlorinator 430 installed in the settling tank 400 and the activated carbon injector 440.

The chlorine injector 430 and the activated carbon injector 440 according to the present invention can control the amount of chlorine and activated carbon supplied by measuring the water quality such as turbidity, acidity, alkalinity and water temperature of the mixed water by sensors.

The chlorine introduced from the chlorine injector 430 and the activated carbon injector 440 oxidizes the ammonia nitrogen or converts the nitrogen gas into a stable compound. The activated carbon is powdered, and the organic nitrogen compound To remove the degradable organic material, some are adsorbed on the flocs and help the sedimentation rate.

The mixed water, chlorine, and activated carbon are mixed by the stirring with the blade (B) to remove adsorbed nitrogen and the like, so that flocs are precipitated more quickly and accumulated on the lower part of the settling tank 400 as described above. The floc is discharged by the discharge pump (P).

The mixed water stirred in the sedimentation tank 400 through the above process is separated into water and then flows into the filtration tank 500.

A blade (B) connected to the motor (M) is provided at an upper portion of the filtration tank (500), and gravel, activated carbon and anthracite coal are sequentially stacked on the filtration layer. (PH) 7-8 is provided in the present invention. The acidity controller (510) is used to adjust the acidity by measuring the pH value with a sensor.

In the filtration layer applied to the present invention, the organic material contained in the charged water is adsorbed and purified, and finally, is circulated through the mixing chamber 100 again.

A circulation pipe 520 is provided below the filtration tank 500 and a transfer pump P is installed on the circulation pipe 520 to suck the filtered water and introduce it into the mixing chamber 100.

In the present invention, the above process is repeated to recycle the wastewater to flexibly cope with water shortage.

Another aspect of the present invention is to make waste materials and the like contained in wastewater recyclable. To this end, the inside of the collecting tank 600 has a hopper-like structure at its lower portion, so that discharged flocs are received.

Particularly, in the present invention, slag, feldspar, and methanol, which are materials for recycling, are mixed at a ratio of 5: 3: 3 and put into a floc for recycling the discharged flocs. For this purpose, A material introducing material dispenser 610 is installed on the passage.

The flocs mixed with the material for recycling are again passed through the blade (B) connected to the motor (M) for re-stirring, and at the same time the flock is cut.

The flocs having been subjected to the above-described process are put into a hopper-shaped structure, and the present invention is reused in the screw extruder 700 for recycling.

Referring to FIGS. 2 and 5, the screw molding machine 700 according to the present invention is provided with a heating device 710 to dry the flock at a predetermined temperature or higher in order to make the flock resource, The upper screw 720 of the shaft grinds and transports the flock introduced through the above-described hopper-shaped structure while warming the flocs at the same time as the flock is introduced.

The pulverized and transferred flock is moved to the extrusion screw 730 provided below the upper screw 720.

The extrusion screw 730 compresses and extrudes the flock, and a dice 740 is provided in front of the extrusion screw 730 to extrude the flocs compressed or transferred continuously or in a predetermined length.

The present invention can be integrally provided for transporting the above devices, and each of the tanks can be installed on the bottom plate 800, and the wheel 900 can be installed on the bottom surface of the bottom plate 800.

According to the present invention, impurities such as water and excreta can be recycled without discharging waste water.

The present invention may be embodied in many other forms without departing from the spirit or essential characteristics thereof. Therefore, the above-described embodiments are merely examples in all respects, and should not be construed restrictively. The scope of the present invention is indicated by the appended claims, and the present invention is not restricted by the specification. Modifications and variations falling within the scope of the appended claims all fall within the scope of the present invention.

100: mixing tank 200: flocculation tank
300: neutralization tank 400: settling tank
500: Filtration tank 600: Collecting tank
700: screw extruder 900: wheel

Claims (9)

A mixing tank into which raw water is introduced, a first flocculating agent is added and stirred rapidly;
An agglomerating tank for agglomerating the agglomerated flocs generated by the continuous stirring of the raw water overflowing in the mixing tank and for allowing the flocculated flocc to flow;
A neutralization tank for filtering the overflowed flocs with a screen net, introducing a second flocculant so that the raw water and micro flocs passing through the screen net are re-flocculated, and rapidly stirring the flocs;
A sedimentation tank which again flows the raw water overflowing from the neutralization tank, sinks the flocculated floccules, and circulates the flocculated floccules to the screen net again;
And a filtration tank for purifying the raw water overflowed from the settling tank and circulating the purified raw water again to the mixing tank.
The method according to claim 1,
Wherein the flock caught in the screen net is collected in a collecting tank.
3. The method of claim 2,
Wherein a blade through which the flocs pass is provided at an upper portion of the collecting tank, and calcium hydroxide, feldspar, and methanol for recycling the flocs are mixed and introduced.
The method of claim 3,
And a screw extruder for dry-forming the collected flocs is provided at a lower portion of the collecting tank.
The method according to claim 1,
Wherein the mixing tank, the flocculation tank, the neutralization tank, and the settling tank are divided into at least two partition walls, and an agitating blade is provided for each space in each partition wall.
The method according to claim 1,
The mixing tank is provided with an acidity controller, and a flocculant dispenser is installed to introduce the first flocculant, wherein the first flocculant is selected from aluminum sulfate, polychlorinated aluminum, and ferrous chloride. A waste water treatment apparatus.
The method according to claim 1,
Wherein the second flocculant to be introduced into the neutralization tank is selected from among aluminum polychloride, aluminum sulfate, aluminum polysulfate and polymer flocculant,
Wherein the coagulation assistant agent and the coagulation assistant agent are added to the second coagulant agent selected from the group consisting of bentonite, sodium alginate, sodium silicate and sodium carbonate, and the coagulant auxiliary agent is calcium hydroxide Resource conversion processing apparatus.
The method according to claim 1,
Wherein the settling tank is provided with an activated carbon injector into which a chlorinator and activated carbon are charged.
The method according to claim 1,
Characterized in that the filtration tank is provided with gravel, activated carbon and anthracite coal stacked in the lower part thereof, and a blade connected to the motor is installed in the space forming the upper part, and a circulation pipe is connected to the mixing tank. .

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