KR100663994B1 - Sewage cleaning device of resource process from food-wastes - Google Patents

Abstract

A sewage cleaning apparatus in the treatment process of food wastes is provided to filter the waste water and then to supply the filtered water into the resource process. A centrifugal separator(3) separates the sludge with minute particles. The first filtering member receives the waste water transferred from the centrifugal separator and performs the filtering process by a filtering device. Vibration screens(4,5) pass the waste water through mesh screens and filter the solid matters. The firstly filtered waste water is heated by steam agitating tanks(7,8) having agitating screws. The steam agitating tanks maintain the concentration of the waste water and increase the separation ratio and purity.

Description

Wastewater Treatment System for Food Waste Recycling Process

1 is a block diagram of a wastewater treatment apparatus according to the present invention.

2 is a cross-sectional view showing the actual configuration of the screw press in the configuration of FIG.

Figure 3 is an excerpt configuration diagram of another embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

1: wastewater sump 2: drum screen

3: centrifuge 4, 5: vibrating screen

6, 7: steam stirring tank 8: three-phase separator

9: anaerobic digester 10: filter press

11: membrane filter 12: effluent sump

20: screw press 30: aeration unit

31, 32: aeration tank 33: oxygen supply

The present invention relates to a wastewater treatment apparatus. In detail, the wastewater treatment apparatus of the food waste recycling process to filter the wastewater generated in the process of recycling the food waste to recycle the solid food waste particles contained in the wastewater and discharge the filtered fresh water to the outside. It is about.
Today's society is getting richer and richer with the rapid industrial development and the improvement of national income. These phenomena have gradually enriched the diet, which is a necessary condition for human life. Therefore, while the inability to normally eat food in the old declining life is reduced, the amount of food that is left unnecessarily on the enriched table is increasing.
Since these food wastes generate considerable leachate during landfill, which contaminates soil and groundwater, the government has banned dumping of marine wastes and landfills since 2005. In particular, since food waste contains a large amount of water, it causes odors as the water leaks to the outside, and inhabits pests and mice that transmit diseases caused by various germs, causing serious pollution of the surrounding environment. .
Accordingly, the food waste has been recycled and supplied in the form of compost for growing feed and various crops provided to various livestock or animals. The recycling of food waste has an excellent effect on reducing economic benefits and environmental pollution.
In order to recycle the food waste in the form of feed / compost as described above, the food is sterilized by heating, dried and crushed to go through the process of manufacturing. In this process, food waste is put into a hopper, and each process is performed by a crusher, a dehydrator, a vacuum cooker, a dryer, or a pulverizer to produce a feed / compost.
When such resources and work processes are carried out, a large amount of wastewater is generated from the processed food waste, which, when discharged to the outside, causes serious environmental pollution. Therefore, in order to prevent environmental pollution caused by the discharge of wastewater, the process of filtration of wastewater by fresh water is essentially required.
Conventionally, in order to treat the wastewater as described above, the wastewater generated in each working process is collected in a filtration apparatus and filtered, and then the filtered fresh water is discharged to the outside. At this time, the generated filtration material (sludge cake) is taken out of the filtration apparatus and disposed of.

In the conventional wastewater treatment process as described above, the filtration device performs only a simple process of filtering wastewater and discarding the filtrate. Therefore, the waste of the filtrate generated during the wastewater treatment is a factor of secondary environmental pollution.
In addition, wastewater treatment that simply relies on filtration causes a problem that some components such as microorganism heavy metals, which cannot be filtered, remain in the wastewater and are difficult to be converted into fresh water having an ideal cleanliness.
The present invention has been invented to solve the above problems, by supplying the sludge cake generated after the filtration of waste water back to the recycling process, increasing the amount of feed / compost produced, heating to some microorganisms that can not be filtered, It is an object of the present invention to provide a wastewater treatment apparatus that can be filtered.

In order to achieve the above object, the present invention has the following configuration.
The present invention is a wastewater collection tank for storing and sedimenting wastewater generated in the process of recycling; A primary separation unit for separating solid matter in the waste water transferred from the sump by a drum screen and a centrifuge; A primary filtration unit receiving the wastewater from which the solid matter is separated and filtered by a vibrating screen; A heating unit for heating the wastewater delivered by the primary filtration in a steam stirring tank to maintain a constant concentration and to increase the purity of refined oil; A secondary separator separating the heated and delivered wastewater into a solid and a liquid by a three-phase separator; An anaerobic digestion tank that collects the wastewater delivered by the second separation, and collects sludge in the wastewater by adding a flocculant; A dewatering unit receiving dewatered wastewater collected by the sludge and performing dehydration by a filter press; A secondary filtration unit for filtering the dewatered and delivered waste water by a membrane filter medium; After collecting the secondary filtered wastewater to perform the final precipitation, and comprises a effluent collection tank for discharging the fresh water generated after precipitation.
Here, the present invention, after receiving the sludge generated by the solid-liquid separation from the primary, secondary separation, filtration, dehydration unit and the solid-liquid separation again, the waste water is a screw press to transfer the sludge cake to the primary filtration unit in the recycling process It is configured to include.
Hereinafter, with reference to the accompanying drawings an embodiment of the present invention having the above configuration will be described in detail.
1 is a block diagram of a wastewater treatment apparatus according to the present invention.
Referring to the drawings, the wastewater treatment apparatus according to the present invention is a wastewater collection tank (1), primary separation unit, primary filtration unit, heating unit, secondary separation unit, anaerobic digestion tank (9), dehydration unit, secondary filtration unit , Consisting of a discharge water collection tank (12). Here, each component is connected by a screw conveyor and a pipeline in which a vacuum pump or the like is installed, and the liquid in the wastewater in which the work is performed is transported through the pipeline, and the solid is transported through the screw conveyor.
The wastewater collection tank 1 is configured in the form of a container for storing and settling the wastewater generated during the recycling process. Such wastewater collection tank 1 is a preliminary configuration for improving the separation efficiency by sedimenting the sludge before the wastewater is delivered to the primary separation unit.
The primary separation unit is configured to separate and remove the solid material in the waste water transferred from the water collection tank (1). This primary separator is constituted by a drum screen 2 and a centrifuge 3.
The drum screen (2) is a device that is installed inside a plurality of perforated network to remove the relatively large solid material, such as vinyl introduced with the waste water through a perforated network of various specifications with each other.
The centrifuge 3 is commonly referred to as a "centrifugal concentrator" and is a device for separating sludge of small particles not removed from the drum screen 2. In particular, the centrifugal separator 3 performs high-speed rotation of approximately 3000 RPM to separate wastewater and sludge.
The primary filtration unit is configured to receive the waste water transferred from the centrifuge (3) to perform filtration by the filtration device. As the filtering device, vibration screens 4 and 5 through which wastewater passes through the mesh screen and filter the solid material are applied.
The vibration screens 4 and 5 may be installed in one or more numbers. In particular, when a plurality of mesh screens are installed, the particle size of the mesh screen is gradually narrowed, that is, for example, if the mesh screen particle size of the first vibrating screens 4 and 5 is 100 mesh, Mesh screen particle size is preferably configured to have a particle size of about 160 to gradually filter the fine solid material.
The heating unit is configured to heat the wastewater delivered by primary filtration. At this time, steam stirring tanks 7 and 8 are used as heating means. In particular, it is natural that the steam stirring tanks 7 and 8 are provided with stirring screws in the steam stirring tanks 7 and 8 to stir and heat the wastewater therein. The steam stirring tanks 7 and 8 maintain a constant concentration of wastewater, and are configured to increase the separation efficiency and purity of the refined oil after being injected into the secondary separator.
In particular, the steam stirring tank (7, 8) is preferably installed in more than one number. When a plurality of steam stirring tanks (7, 8) is installed, to increase the temperature for gradually heating the waste water to improve the efficiency of maintaining the concentration. For example, it is preferable that the initial heating temperature is heated at 50 ° C to 60 ° C, and the subsequent heating temperature is heated to 85 ° C to 90 ° C.
The secondary separator is configured to separate the wastewater delivered after being heated by the steam stirring tanks 7 and 8 into a solid and a liquid by a centrifuge. At this time, the three-phase separator 8 is applied to the centrifuge.
Such a three-phase separator is to perform the operation by separating the wastewater into water, oil, sludge cake three stages by high-speed rotation of approximately 6000RPM. At this time, the above-mentioned oil can be mixed with the boiler oil, and the resource can be utilized. In particular, the oil can be applied as a raw material for the production of paint, and can also be applied as a secondary raw material of the maintenance plant is high utilization.
The anaerobic digestion tank 9 is configured in the form of a container in which the liquid wastewater is stored after centrifugation. Such anaerobic digestion tank 9 collects a small amount of sludge contained in the wastewater by adding a flocculant to the stored wastewater, thereby improving the efficiency for the subsequent dehydration step.
The dewatering unit receives wastewater in which sludge is collected in the anaerobic digestion tank (9), and the wastewater passes to the next secondary filtration unit, and is configured to dewater the sludge. Such dehydration is performed by the filter press 10. In particular, microorganisms, heavy metals, etc. are filtered to the sludge remaining by the dehydration process described above.
Here, the filter press 10 is a device that can reduce the cost of treatment by reducing the dewatering period of the sludge, as is known.
The secondary filtration unit is applied to the membrane filter (11). Such a membrane filter 11 is dehydrated in the filter press 10 to remove particles that are difficult to be filtered, such as microorganisms, heavy metals, and the like that are difficult to decompose, by forcing a membrane filter medium having ultra-fine pores by water pressure.
The discharge water collecting tank 12 is configured to collect the secondary filtered wastewater to perform the final precipitation, and to discharge the fresh water generated after the precipitation to the outside. The discharge water collection tank 12 is configured in the form of a container for temporarily storing the discharge water passed through the final membrane filter 11. At this time, in fact, the secondary filtered wastewater is already formed as fresh water, but is a device provided to realize a more ideal discharge standard by the precipitation of fine particles.
In such a configuration, the sludge separated from the solid in a specific component is supplied in the process of recycling food waste into feed / compost. At this time, the sludge is to use the screw press 20 to be manufactured into a sludge cake of a type more suitable for the recycling process.
2 is a cross-sectional view showing the actual configuration of the screw press in the above configuration.
Referring to the drawings, the screw press 20 is a solid and liquid in the aforementioned drum screen (2), centrifuge (3), electric screens (4, 5), three-phase separator (8), filter press (10) Configured to receive sludge from the separated wastewater.
In particular, the screw press 20 is provided with a screw 22 for conveying and stirring the inside of the cell 21 to be a case and pressurized sludge to one side. In particular, a filter net 23 for filtering wastewater flowing out of the sludge by pressurization is provided below the screw 22.
As a result, the screw press 20 as described above is transferred to a vacuum cooker (not shown) for implementing the recycling process by the sludge cake is discharged from the waste water. In addition, the wastewater is again supplied to the vibrating screens 4 and 5 of the primary filtration unit to undergo wastewater treatment.
<Other Embodiments>
Figure 3 is an excerpt configuration diagram of another embodiment of the present invention.
Referring to the drawings, the wastewater treatment apparatus according to another embodiment shows the configuration of the aeration unit 30 for applying the activated sludge method in place of the membrane filter 11 in the configuration of the secondary filtration unit in the configuration of the original embodiment .
The aeration unit 30 is composed of aeration tanks 31 and 32 in which waste water is stored and an oxygen supplier 33 installed in the aeration tank 31 to supply oxygen.
Such aeration tanks (31, 32) are divided into first and second aeration tanks (31, 32), and the wastewater is subjected to high load treatment in one aeration tank (31), and the high load treated wastewater is subjected to low load treatment in the other aeration tank. In other words, it is known that the activated sludge is forcibly separated from the aeration tank 32 on the other side by a pressure flotation separation method and the like to purify the wastewater.

As described above, the present invention, by supplying the sludge cake generated in the waste water treatment process to the re-processing process, thereby increasing the amount of feed / compost produced during the recyclization process to obtain the effect of improving productivity.
In addition, the present invention has the effect of preventing the secondary environmental pollution factors by discharging the fresh water having an ideal cleanliness by heating, filtering to some microorganisms that can not be filtered.

Claims (4)

A wastewater collection tank (1) for storing and settling wastewater generated in the process of recycling; A primary separation unit for separating solid matter in the waste water transferred from the water collection tank 1 by a drum screen 2 and a centrifuge 3; A primary filtration unit receiving the wastewater from which the solid material is separated and filtered by vibrating screens 4 and 5; A heating part for heating the first filtered waste water in a steam stirring tank (6, 7) to maintain a constant concentration and to increase the purity of refined oil; A secondary separator for separating the heated and delivered wastewater into three stages of water, oil, and sludge cake by a three-phase separator; An anaerobic digestion tank (9) which collects the wastewater delivered by the second separation and collects sludge in the wastewater by adding a flocculant; A dewatering unit configured to receive dewatered wastewater collected by the sludge and perform dehydration by a filter press 10; A secondary filtration unit for filtering the dewatered and delivered waste water by a membrane filter medium; The wastewater treatment apparatus of the food waste recycling process characterized in that it comprises a effluent collection tank (12) for collecting the secondary filtered wastewater to perform the final precipitation, and discharges the fresh water generated after precipitation. The method of claim 1, After receiving the sludge generated by the solid-liquid separation from the first, second separation unit, the filter unit, the dehydration unit and separating the solid-liquid again, the wastewater includes a screw press 20 to transfer the sludge cake to the primary filter unit in the recycling process. Wastewater treatment apparatus of the food waste recycling process, characterized in that. delete The method according to claim 1 or 2, Secondary filtration unit waste water treatment apparatus of the food waste recycling process, characterized in that the aeration unit 30 for performing the activated sludge method.

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