KR101385239B1 - Apparatus for ozonization, apparatus for disposing food waste and method using thereof - Google Patents

Abstract

The present invention relates to an apparatus for ozonization, an apparatus and a method for disposing food waste using the same and, more specifically, to an apparatus for ozonization which includes a stirring part having multiple porous disks separated from each other and perpendicular to a rotatable pillar, at least one disk of which is vertically attached to the edge of the stirring part and an ozone-supplying part supplying ozone to the lower part of each of the porous disks and an apparatus and a method for disposing food waste using the same. According to the present invention, ozone residence time is increased, and the contact reaction efficiency between waste water and ozone is improved, thereby remarkably improving the oxidation and decomposition treatment effect and reducing the disposal costs of food waste. By the present invention, organic waste is effectively decomposed, the quality of water treatment is improved, and the size of water treatment system can be minimized. Furthermore, bed smells are reduced, and the effect of decomposition is remarkably improved.

Description

Apparatus for ozonization, apparatus for disposing food waste and method using

The present invention relates to an efficient ozone oxidative decomposition apparatus and a food waste treatment apparatus and method using the same, more specifically ozone oxidation that can further reduce the generation of sludge and odor by using ozone (O ₃ ) more efficiently. The present invention relates to a decomposition apparatus and an apparatus and method for treating food waste using the same.

Most of the conventional food waste was collected and processed by the food waste recovery company. However, this conventional method has a problem that a predetermined food waste storage place is required until the recovery date collected by the food waste recovery company. There was a problem of hygiene such as odor generated, additional costs related to food waste recovery, and part of the collected food waste was incinerated or disposed of in landfill, resulting in problems such as environmental pollution.

Accordingly, a food waste disposal apparatus including a disposer for crushing food waste and a device for decomposing crushed food waste by using microorganisms has been studied, but in general, when a food waste is processed by microorganisms, There was a problem of sludge and odor generation remaining after the treatment of food waste and disposal of food waste.

Furthermore, although methods for treating food waste by ozone have been studied, known oxidative decomposition methods by ozone or related apparatuses do not use ozone efficiently, and thus, related facilities are required to be enlarged and expensive. Due to the large space required for the implementation of the food processing method and apparatus is limited to the installation site, there is also a disadvantage that the maintenance costs such as electricity costs are expensive.

1 illustrates a conventional ozone oxidative decomposition device, and even when the pulverized mixture pulverized by the above-described disposer is introduced and aerated by ozone, the contact area and time are insufficient and ozone aeration is not sufficiently achieved. .

In other words, ozone is scattered into the air within a short time and the residence time for decomposition is not sufficient, so that it is difficult to obtain a desired oxidative decomposition effect. There is a problem that should be.

Therefore, as a miniaturized and space-saving food treatment method and apparatus, it is expected to be usefully applied in related fields when the problem of sludge and odor generation is solved by a method and apparatus in which the effect of ozone is remarkably improved.

Accordingly, an aspect of the present invention is to provide an ozone oxidative decomposition apparatus that is significantly improved the effect of the oxidative decomposition treatment by ozone.

Accordingly, another aspect of the present invention is to provide a food waste treatment apparatus that can be miniaturized by using the ozone oxidative decomposition device as described above.

Still another aspect of the present invention is to provide a food waste treatment method, which includes an ozone aeration step using the ozone oxidative decomposition device as described above, which significantly improves the odor reduction and decomposition effects.

According to one aspect of the invention, a plurality of porous disks are provided vertically spaced apart on the rotatable column, at least one disk of the plurality of porous disks is stirred with at least one stirring plate attached perpendicular to the edge An ozone oxidizing and decomposing device is provided that includes a portion, and an ozone supply portion for supplying ozone to each of the porous disks below.

It is preferable that the diameters of the plurality of porous disks are sequentially increased upward.

The porous disk is made of a curved surface, it is preferable that the convex surface is disposed to face upward.

Preferably, the substance to be decomposed is introduced at a height of at least one porous disk having at least one stirring plate attached perpendicularly to the edge, and at a height lower than that of another porous disk provided at a distance from the porous disk.

According to another aspect of the present invention, there is provided a food waste treatment apparatus including the ozone oxidative decomposition apparatus of the present invention.

It is preferable that the front end of the ozone oxidative decomposition device further comprises a pulverization unit for obtaining a pulverized mixture by grinding food waste with water.

A decomposing unit decomposing the pulverized mixture into a liquid using microorganisms at a rear end of the ozone oxidizing apparatus; A purifying unit purifying the liquid by aeration of oxygen; And it is preferred to further include a precipitation for precipitating the solid.

According to another aspect of the present invention, there is provided a food waste treatment method comprising an ozone aeration step of aeration of food waste with ozone using the ozone oxidative decomposition apparatus of the present invention.

Prior to the ozone aeration step, it is preferable to further include a pulverizing step of pulverizing food waste with water to obtain a pulverized mixture.

A decomposition step of decomposing the grinding mixture into a liquid using microorganisms subsequent to the ozone aeration step; A purifying step of purifying the liquid by aeration with oxygen; And a precipitation step of precipitating the solids.

According to the present invention, the ozone residence time is extended, and stirring can be performed without additional power, thereby improving the contact reaction efficiency between the filthy water and ozone, thereby providing an ozone oxidative decomposition apparatus with an improved oxidative decomposition treatment effect by ozone. In the case of the food waste decomposing device and method using the same, food waste can be decomposed at low cost. Therefore, according to the present invention, the organic waste can be effectively decomposed, the quality of the treated water finally obtained can be improved, and the related treatment system can be efficiently miniaturized. Furthermore, the odor reduction and decomposition effect can also be remarkably improved.

1 exemplarily illustrates a conventional ozone oxidative decomposition apparatus.
Figure 2 (a) schematically shows an example of the stirring unit provided in the ozone oxidative decomposition device of the present invention, Figure 2 (b) shows a side view of the porous disk included in the stirring unit.
Figure 3 (a) shows an example of the ozone supply unit, Figure 3 (b) shows another example of the ozone supply unit including a control valve, Figure 3 (c) is an ozone supply unit having a plurality of ozone supply unit. An example of is shown schematically.
4 exemplarily shows an ozone oxidative decomposition apparatus according to the present invention including a stirring part and an ozone supply part.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. However, the embodiments of the present invention can be modified into various other forms, and the scope of the present invention is not limited to the embodiments described below.

According to the present invention, the ozone oxidative decomposition effect on the organic phase dirt is remarkably improved to provide an ozone oxidative decomposition apparatus effective for improving the water quality, and when the apparatus of the present invention is used, the treatment system can be downsized. In the present invention, the substance to be degraded is the organic phase waste, which means that it includes food waste, manure, or the like, but is not limited thereto.

More specifically, the present invention is provided with a plurality of porous disks spaced apart vertically on the rotatable column, at least one disk of the plurality of porous disks is agitated with at least one stirring plate attached vertically to the edge, And an ozone supply unit for supplying ozone to the lower portions of the respective porous disks.

In the present invention, the porous disk preferably has pores 10 with a diameter of 1 mm to 20 mm, more preferably 5 mm to 10 mm, and when the diameter is less than 1 mm, ozone tends to be difficult to pass through the pores. When 20 mm is exceeded, there exists a tendency for the retention effect of ozone to fall.

On the other hand, the porosity of the porous disk is preferably 1% to 40%, more preferably 5% to 30% of the total area of the disk. If the porosity is less than 1% of the total area, there is a problem that ozone cannot pass smoothly due to insufficient porosity, and if it exceeds 40%, the retention effect of ozone tends to be lowered.

The porous disk may be one, but preferably two or more, for example, three may be provided, but is not particularly limited, the size of the ozone oxidative decomposition device, the state and load of the material to be decomposed It can be set variously according to. Fig. 2 (a) shows an exemplary agitator with three porous disks 5, 5 ', 5 ".

On the other hand, it is preferable that the diameters of the plurality of porous disks are sequentially increased upward. That is, as shown in FIG. 2 (a), the diameter of the bottommost one of the plurality of porous disks is preferably the largest and the diameter of the topmost one of the plurality of porous disks is preferably arranged. Ozone moved out of the lowest porous disk can be collected again in the porous disk immediately above, so that the residence time of ozone can be efficiently increased.

The plurality of porous disks are connected to the center of each porous disk by a stirring column 3 connected to the connecting portion 1, the upper fixing portion 2, and the lower fixing portion 4, as shown in FIG. And spaced apart from each other provided vertically, the stirring column has a structure capable of rotating 360 degrees. The number and size of such porous disks may be variously set according to the size of the ozone oxidative decomposition apparatus, the state of the substance to be decomposed and the load.

The porous disk is made of a curved surface, it is preferable that the convex surface is disposed to face upward. Figure 2 (b) shows a side view of the porous disk is a porous disk of the present invention is made of a curved surface is arranged so that the convex surface facing upwards, the ozone which is blown up from the lower portion of each porous disk to rise immediately The residence time in the device can be prolonged without rising toward it, and thus the effect of contact with the ozone bubbles can be improved.

Furthermore, the food waste is preferably introduced at a height of at least one porous disk having at least one stirring plate vertically attached to the edge, and at a height lower than that of the other porous disk provided at a distance therefrom. In this case, since the stirring plate is pushed and rotated by the pressure while the substance to be decomposed, the stirring is possible without using a separate power, and as a result, the contact effect with ozone can be improved.

As shown in FIG. 2A, at least one disk of the plurality of porous disks is vertically attached to the edge of the stirring plate 7. At this time, the size and number of the stirring plate may be set in various ways depending on the size of the ozone oxidative decomposition device, the state and load of the material to be decomposed, and the size of the porous disk, for example, 1 to 5, Preferably it may be from 2 to 4. On the other hand, the manner of attachment is not particularly limited, and may be any way that can be bonded to the porous disk by physical or chemical methods.

The ozone oxidative decomposition apparatus of the present invention includes an ozone supply unit 12 for supplying ozone to the lower portion of each porous disk together with the stirring unit as described above, which is illustrated in FIGS. 3 (a) and 3 (b). It may be in the form as shown, and may be provided with an ozone supply unit 13 provided with a control valve if necessary. The control valve can be used to adjust the aeration amount of ozone.

3 (c) schematically shows an example in which a plurality of ozone supply units are provided. In this case, the ozone supply unit may be connected to the blower tube 14, the ozone generator 15, and the blower 16. In this case, ozone generated by the ozone generator may be transferred to the blower pipe by a blower.

The type, size and number of the ozone supply unit of the present invention may be variously set according to the state of the substance to be decomposed, the loading amount, and the size or number of the porous disk.

4 exemplarily shows an ozone oxidative decomposition apparatus according to the present invention including a stirring part and an ozone supply part. The ozone supply unit is disposed under each porous disk to allow ozone generated by the porous disk to stay in the porous disk and react effectively with the decomposition material.

According to the present invention, there is provided a food waste treatment apparatus including the ozone oxidative decomposition apparatus of the present invention as described above. In this case, the organic phase dirt that is a decomposition target material is specifically food waste.

The food waste treating apparatus of the present invention may further include a pulverizing unit which obtains a pulverized mixture by pulverizing the food waste with water at the front end of the ozone oxidizing apparatus, and furthermore, at the rear end of the ozone oxidizing apparatus. Decomposition unit for decomposing the grinding mixture into a liquid using; A purifying unit purifying the liquid by aeration of oxygen; And a precipitation portion for precipitating the solids.

The grinding unit may be connected to a sink for disposing food, and thus kitchen drain discharged from the sink may be introduced into the grinding unit together with the food waste. The grinding unit is not particularly limited as long as it can grind food waste, and may be, for example, a disposer.

In the present invention, in the decomposition unit for decomposing the pulverized mixture into a liquid using a microorganism, a decomposition step for decomposing the pulverized mixture into a liquid using a microorganism is performed, and the decomposition unit includes, for example, a decomposition tank and a solid-liquid separation reticulated pipe. In the digestion tank, the grinding mixture is decomposed into liquid by the microorganism, and the solid-liquid separation reticulated pipe transfers the liquid thus obtained from the digestion tank to the purification unit where the purification step is performed.

The solid-liquid separation reticulated pipe has, for example, a cylindrical shape extending from the bottom of the digestion tank to the upper side of the digestion tank, and a plurality of fine penetrating portions are formed on the surface to control the solids that are not liquefied from the pulverized mixture from the digestion tank to the purification section. It is desirable to be able to. That is, only liquid liquefied from the grinding mixture by the microorganisms is passed through the solid-liquid separation network to the next step for purification.

The purifying unit purifies the liquid by aeration of oxygen, and the decomposing unit and the purifying unit may be the same space. At this time, the mesh contact material is continuously supplied with oxygen to the oxygen injection unit in contact with the liquid to help the growth of the microorganisms in the liquid, and by using the proliferated microorganisms can decompose and purify the contaminants in the liquid. The network contact member may have, for example, an annular network shape.

The oxygen injection unit continuously supplies oxygen to the network contact material, and may be connected to a blower installed outside. Furthermore, the sludge generated in this process can be conveyed and decomposed again to obtain a reduction effect of the sludge.

On the other hand, the food waste treatment apparatus of the present invention may further include a primary ozone aeration unit and a secondary ozone aeration unit to obtain the deodorization and sterilization effect by ozone. An improved deodorizing effect may be obtained by the primary ozone aeration unit, and a sterilization effect may also be obtained by the secondary ozone aeration unit. As a result, the occurrence of odor is reduced and the quality of the finally discharged water is greatly improved, which can be drained to sewage or combined septic tanks, and can be recycled as miscellaneous water used in toilets and flower beds. On the other hand, the system can be miniaturized and thus operating costs can be reduced.

According to the present invention, there is provided a food waste treatment method comprising an ozone aeration step of aeration of food waste with ozone using the ozone oxidative decomposition apparatus of the present invention.

The food waste processing method may further include a pulverizing step of obtaining a pulverized mixture by pulverizing the food waste with water prior to the ozone aeration step, and subsequent to the ozone aeration step, by using the microorganisms A decomposition step of cracking the grinding mixture into a liquid; A purifying step of purifying the liquid by aeration with oxygen; And a precipitation step of precipitation of the solids.

When a pulverization step of pulverizing food waste with water to obtain a pulverized mixture is performed, the water may be kitchen drainage, and preferably, the pulverization unit in which the pulverization step is performed may be connected to a sink for disposing of food.

Thus, when performing the ozone aeration step in which food waste is subsequently aerated with ozone in the pulverized mixture comminuted with water, odor can be significantly reduced.

Subsequently, when the decomposition step of decomposing the grinding mixture into a liquid using microorganisms is performed, the decomposition step may be performed, for example, in a decomposition section including a decomposition tank and a solid-liquid separation reticulated pipe, in the decomposition tank. The mixture is decomposed into the liquid by the microorganisms, and the solid-liquid separation reticulated pipe can transfer the liquid thus obtained from the digestion tank to the purification section where the purification step is performed.

The solid-liquid separation reticulated pipe has, for example, a cylindrical shape extending from the bottom of the cracking tank to the top of the cracking tank, and a plurality of fine penetrating portions are formed on the surface to transfer solids that are not liquefied from the grinding mixture from the cracking tank to the purification section. Can be controlled. That is, only liquid liquefied from the grinding mixture by the microorganisms is transferred to the next step for purification through the solid-liquid separation network.

At this time, the microorganisms used for decomposition are not particularly limited, and any microorganisms that can be used for decomposition of organic phase wastes, especially food waste can be used. The liquid thus obtained is preferably subjected to a purification step of aeration and purification with oxygen.

On the other hand, the decomposition step and the purification step may be performed in the same space, wherein the purification unit in which the above purification step is performed may include a network contact material, the network contact material is oxygen injection in contact with the liquid It is supplied with oxygen continuously to help the growth of microorganisms in the liquid, and the contaminants in the liquid can be decomposed and purified using the expanded microorganisms. The network contact member may have, for example, an annular network shape.

Further, the oxygen injection unit continuously supplies oxygen, and may be connected to a blower installed outside.

Sludge may be formed in at least one of the purification step and the precipitation step, the sludge thus produced is preferably recovered back to the decomposition step, in which case it is possible to obtain the effect of reducing the sludge.

Meanwhile, in the food waste treatment method of the present invention, the first ozone aeration step and the second ozone aeration step may be further performed to obtain a deodorization and sterilization effect by ozone. An improved deodorizing effect may be obtained by the first ozone aeration step, and a sterilization effect may also be obtained by the second ozone aeration step. As a result, the occurrence of sludge can be reduced, odor reduction and improved sterilization effect can be obtained, and the quality of the finally discharged water can be greatly improved, and it can be drained to sewage or combined septic tank, as well as miscellaneous water used in toilets, flower beds, etc. Can be recycled.

Although the present invention has been described in detail above, the scope of the present invention is not limited thereto, and various modifications and changes can be made without departing from the technical spirit of the present invention described in the claims. It will be self-evident to those who have knowledge of.

1: connection
2: upper fixing part
3: stirring column
4: lower fixing part
5, 5 ', 5 ": porous disc
7: stirring plate
10: hole
12, 12 ': ozone supply
13: ozone supply with control valve
14: blower
15: ozone generator
16: blower

Claims (10)

A plurality of porous disks are vertically spaced apart from each other in the rotatable column, and the diameters of the plurality of porous disks are sequentially increased upward, and at least one of the plurality of porous disks is at least one vertically attached to an edge. A stirring section provided with a stirring plate, and
An ozone supply unit for supplying ozone to each of the porous disk,
The porous disk is made of a curved surface, the convex surface is disposed to face upwards,
The decomposition material is introduced at a height of at least one porous disk having at least one stirring plate vertically attached to the edge and lower than a height of another porous disk provided at a distance from the top.
Ozone Oxidizer.
delete delete delete Food waste treatment apparatus comprising the ozone oxidative decomposition device of claim 1.
The food waste treatment apparatus according to claim 5, further comprising a pulverizing unit for pulverizing food waste together with water to obtain a pulverized mixture at the front end portion of the ozone oxidative decomposition device.
6. A rear end portion of the ozone oxidative decomposition apparatus according to claim 5,
Decomposition unit for decomposing the grinding mixture into a liquid using a microorganism;
A purifying unit purifying the liquid by aeration of oxygen; And
Precipitate to settle the solid
Further comprising, food waste processing apparatus.
A food waste processing method comprising an ozone aeration step of aeration of food waste into ozone using the ozone oxidative decomposition device of claim 1.
The method of claim 8, further comprising a grinding step of grinding the food waste with water to obtain a grinding mixture prior to the ozone aeration step.
10. The method of claim 9, subsequent to the ozone aeration step,
A decomposition step of decomposing the grinding mixture into a liquid using microorganisms;
A purifying step of purifying the liquid by aeration with oxygen; And
Sedimentation step to precipitate solids
Further comprising, food waste processing method.

Images