KR100989388B1 - Device for treating food waste - Google Patents

Abstract

The present invention provides a food waste treatment apparatus for separating food wastes into solid waste and solid waste, comprising: a separation device separating the negative waste water and solids from the food waste respectively; A discharge device for generating biogas from the negative waste water and purifying and discharging the negative waste water; A drying apparatus for burning the waste tire to dry the solids and at the same time burning the generated gas generated from the solids; And it discloses a food waste treatment apparatus including a power generation device for generating electricity by purifying the biogas. Food waste treatment apparatus as described above reduces the environmental pollution caused by the treatment of food waste, and generates energy while recycling waste to reduce maintenance costs and implement electricity sales.

Food Waste Disposal, Drinking Water, Solids, Waste Tire, Advanced Treatment, Feed, Power Generation, Biogas

Description

Food waste treatment device {DEVICE FOR TREATING FOOD WASTE}

The present invention relates to a food waste treatment apparatus, and more particularly, to a food waste treatment apparatus for separating food waste into solid waste and food waste.

Food waste accounts for a large portion of the wastes generated in the general living environment, not the industrial environment. These food wastes occur not only in part when the food is not fully consumed, but also occur in the process of cooking food, and in an open environment, do not ferment and decay, resulting in odors and pests. Therefore, it has become necessary to treat the generated food waste.

Food waste can be incinerated or landfilled. However, because food waste contains a lot of water and salt, it is not easy to incinerate, and when it is buried in soil or ocean, nitrogen or phosphorus contained in food waste causes pollution of groundwater, soil and ocean, causing environmental pollution. . For this reason, the incineration or landfill of food waste is currently impossible. Therefore, a new method of treating food waste is being sought.

As a new method for treating food waste, composting and feeding were carried out continuously, followed by various eco-friendly food waste treatment methods such as decomposition (methanation) and sewage combined treatment using anaerobic microorganisms. ought. However, in the case of composting and foddering, it still does not solve the problem of dumping most of the wastewater into the ocean, and in fact, even compost is neglected by users as it is produced as compost by mixing limestone and the like.

On the other hand, decomposition using anaerobic microorganisms, one of the biological treatment methods, is to cause fermentation by crushing food waste and then mixing anaerobic bacteria under anaerobic conditions. The organic matter is converted into organic acids or alcohols by acid-forming bacteria, and the organic acids and alcohols are decomposed by methane bacteria to methane gas, hydrogen sulfide, ammonia and the like. Food waste becomes methane gas through two fermentation processes, and negative waste water is made by composting after dehydration and anaerobic microbial fermentation. At this time, the wastewater is mostly discharged to the ocean, causing problems of environmental pollution due to red tide, odor, pathogenic microorganisms.

Accordingly, various conventional food waste treatment apparatuses and methods have a problem that, despite the cost, they still cause environmental pollution. In addition, there is a problem that there is a restriction in commercial use of by-products due to food waste treatment.

The present invention is to provide a food waste treatment apparatus that can reduce the water pollution caused by food waste by purifying the effluent water based on the discharge water quality standards.

In addition, the present invention is to provide a food waste treatment apparatus capable of generating added value while generating biogas from the negative waste water, and generating electricity from the generated biogas to reduce maintenance costs.

In addition, the present invention is to provide a food waste treatment apparatus capable of recycling waste tires and food waste.

In addition, the present invention is to provide a food waste treatment apparatus that can be used as food feed waste by drying the solids.

In addition, the present invention is to provide a food waste treatment apparatus that can reduce the air pollution due to the gas generated by the drying of the solid.

The present invention provides a food waste treatment apparatus for separating food wastes into solid waste and solid waste, comprising: a separation device separating the negative waste water and solids from the food waste respectively; A discharge device for generating biogas from the negative waste water and purifying and discharging the negative waste water; A drying apparatus for burning the waste tire to dry the solids and at the same time burning the generated gas generated from the solids; And a power generation device for generating electricity by purifying the biogas, wherein the discharge device includes an anaerobic digester, an aerobic microbial contact oxidation tank, and an advanced processor, wherein the negative wastewater that has passed through the discharge device reaches a discharged water quality standard. Wherein the anaerobic digester reduces 90% of the organic load of the negative wastewater, the aerobic microbial contact oxidant reduces 95% of the organic load of the negative wastewater, and the advanced processor denitrates and dephosphorizes the negative wastewater. Disclosed is a food waste processing apparatus.

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In addition, the biogas discloses a food waste treatment apparatus generated from the anaerobic digester.

In addition, the present invention provides a food waste treatment apparatus for separating and treating food waste into negative waste water and solids, comprising: a separation device for separating the negative waste water and solids from the food waste respectively; A discharge device for generating biogas from the negative waste water and purifying and discharging the negative waste water; A drying apparatus for burning the waste tire to dry the solids and at the same time burning the generated gas generated from the solids; And a power generation device for generating electricity by purifying the biogas, wherein the drying device comprises: a pyrolyzer that generates pyrolysis gas as the waste tire is pyrolyzed; A combustor for generating heat as air supplied therein reacts with the pyrolysis gas to generate combustion gas; A boiler that is heated by heat from the combustor to produce steam; A disk dryer receiving steam from the boiler to dry the solids and to generate the generated gas; And a pollution prevention device for purifying the combustion gas and discharging the combustion gas to the outside.

In addition, the generated gas discloses a food waste treatment apparatus combusted through the combustor.

In addition, the boiler discloses a food waste treatment apparatus which is a furnace-associated boiler.

In addition, the electricity generated from the power generation device discloses a food waste treatment apparatus used to maintain a constant temperature of the discharge device.

The present invention provides a food waste treatment apparatus for separating food wastes into solid waste and solid waste, comprising: a separation device separating the negative waste water and solids from the food waste respectively; A discharge device for generating biogas from the negative waste water and purifying and discharging the negative waste water; A drying apparatus for combusting a part of the biogas of the biogas to dry the solids and at the same time combusting the generated gas generated from the solids; And a power generation apparatus for generating electricity by purifying the remaining biogas of the biogas, wherein the drying apparatus comprises: a boiler for providing heat for burning the solid biogas to dry the solids; A disk dryer for receiving heat from the boiler to dry the solids and to generate the generated gas; And it discloses a food waste treatment apparatus including a pollution prevention device to purify the burned biogas to be discharged to the outside.

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Food waste treatment apparatus according to the present invention includes a separation device, a discharge device, a drying device and a power generation device. The discharge device is used to purify the food waste from the food waste based on the quality of the discharged water, and the drying device is used to purify the gas generated in the process of drying the solids of the food waste and discharge it to the outside to reduce environmental pollution. In addition, it is possible to burn waste tires in order to use a drying device and generate electricity by using biogas generated by the discharge device as a power generation device, thereby reducing maintenance costs and creating added value. In addition, the food waste can be processed and discharged into a feed for recycling.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, if it is determined that the detailed description of the related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

1 is a view showing a food waste treatment apparatus 100 according to a preferred embodiment of the present invention, Figure 2 is a view showing the flow of food waste in the food waste treatment apparatus 100 shown in FIG. As shown in Figure 1 and 2, the food waste treatment apparatus 100 according to a preferred embodiment of the present invention is a separation device 101, discharge device 102, drying device 103 and power generation device 104 It includes, and treats the food waste 10 separated into the waste water 110 and the solid 120. In the present invention, the negative waste water 110 refers to wastewater of the food waste 10.

The separation device 101 separates the food waste 10 introduced into the food waste processing apparatus 100 into the negative waste water 110 and the solid 120. Thus, the wastewater 110 and the solid matter 120 are brought to the discharge device 102, and can be transferred to the drying device 103, respectively, so that they can be treated separately.

The discharge device 102 purifies the negative waste water 110 separated from the separation device 101 and generates biogas.

3 is a view showing the flow of the food waste 10 in the discharge device 102 of the food waste treatment apparatus 100 shown in FIG. As shown in FIG. 3, the discharging device 102 includes an anaerobic digester 121, an aerobic microbial contact digester 123, and an advanced processor 125 and sequentially performs a biological process on the food waste 10. In addition, the internal temperature of the discharge device 102 is maintained at about 36 ~ 37 ℃ to facilitate the biological process.

The anaerobic digester 121 reduces about 90% of the organic load of the negative waste water 110, and the aerobic microbial contact septic tank 123 reduces about 95% of the organic load of the negative waste water 110. Finally, the advanced processor 125 provides a denitrification and dephosphorization action to remove nitrogen and phosphorus components contained in the food waste 10. Therefore, the negative waste water 110 passes through the anaerobic digestion tank 121, the aerobic microbial contact purification tank 123, and the advanced processor 125 sequentially. Due to this, the negative waste water 110 may be purified to reach the effluent water quality standard and discharged while complying with environmental standards.

On the other hand, the anaerobic digester 121 provides an anaerobic methane digestion process to stably generate the biogas from the negative waste water 110. The biogas moves to the power generation device 104. In addition, the biogas is generally methane gas.

The drying apparatus 103 dries the solids 120 separated and transferred from the separating apparatus 101 and burns off the generated gas generated by the drying of the solids 120.

4 is a view showing the flow of the food waste 10 in the drying apparatus 103 of the food waste treatment apparatus 100 shown in FIG. As shown in FIG. 4, the drying apparatus 103 includes a pyrolyzer 130a, combustors 131a and 131b, a boiler 133, a disk dryer 135 and an antipollution 137. Operation due to combustion).

The pyrolyzer 130a pyrolyzes the waste tire 130. As the waste tire 130 is thermally decomposed, pyrolysis gas is generated in the pyrolyzer 130a. At this time, the temperature of the pyrolysis gas is approximately 400 ~ 500 ℃.

The combustors 131a and 131b include a first combustor 131a and a second combustor 131b. Air is supplied to the inside of the first combustor 131a, and the pyrolysis gas causes combustion reaction by the air. As a result, combustion gas is generated, and the combustion gas generates heat while its temperature reaches approximately 900 ° C or more. On the other hand, the combustion gas is moved to the pollution prevention device 137 to be purified. The second combustor 131b provides a space for remaining from the first combustor 131a to completely burn unburned gas of pyrolysis gas or to decompose pollutants.

The boiler 133 is heated by receiving the heat from the combustors 131a and 131b. At this time, the inside of the boiler 133 contains a liquid, the liquid is phase change by the heat is generated as steam (steam). The steam is moved to the disk dryer 135 through a pipe connecting the boiler 133 and the disk dryer 135 to each other. In addition, the boiler 133 in this embodiment is a furnace-associated boiler.

The disk dryer 135 is in a state in which the solid matter 120 is transferred from the separation device 101. That is, the solid matter 120 transferred from the separating device 101 moves to the disk dryer 135 of the drying device 103. In the disk dryer 135, the solid 120 is dried at a high speed by receiving the steam from the boiler 133. At this time, the generated gas is generated from the solids 120, and the odor peculiar to the food waste 10 is generated from the generated gas. If it is discharged to the outside as it is, the solid 120 remains a peculiar odor, may cause environmental pollution due to the odor. Thus, in order to remove the generated gas, the generated gas is moved to the second combustor 131b through the pipe and burned to extinguish a considerable amount of odors peculiar to the food waste 10, and a part of the pollution preventer ( 137). On the other hand, the high-speed dried solid 120 is transferred from the disk dryer 135 is discharged from the food waste treatment apparatus 100 is made available as feed.

The pollution prevention device 137 includes a cyclone 137a, a semi-dry cleaner 137b and a bag filter 137c. The cyclone 137a removes dust of large particle size, the semi-dry scrubber 137b implements adsorption removal by inputting slaked lime to remove sulfur oxides in combustion gas after pyrolysis of waste tires, and the bag filter 131c Used to remove sulfur oxides by particle size and hydrated lime attached to the outside of the bag filter. Therefore, the pollution prevention device 137 purifies a part of the combustion gas and the generated gas and discharges the outside of the food waste treatment apparatus 100. As a result, it is possible to reduce environmental pollution due to combustion of the waste tire 130 and drying of the solid material 120.

The power generation device 104 purifies the biogas generated from the discharge device 102 to generate electricity. The generated electricity may be used to maintain a constant temperature of the discharge device 102 in which the biological process takes place, and may be provided to the separation device 101 and the drying device 103 to operate the food waste treatment device 100. Can be used. In addition, the power generation device 104 generates electricity, thereby burning the waste tire 130 to operate the drying device 103 and to reduce the maintenance cost of the food waste treatment device 100.

On the other hand, the electricity generated from the power generation device 104 may be provided to the device outside the food waste treatment apparatus 100, thereby creating additional benefits.

5 is a view showing a food waste treatment apparatus 200 according to another embodiment of the present invention. As shown in FIG. 5, the food waste treatment apparatus 200 according to another preferred embodiment of the present invention includes a separation device 201, a discharge device 202, a drying device 203, and a power generation device 204. Unlike the previous embodiment, the biogas generated from the discharge device 202 is burned by the boiler 231 of the drying device 203 and used as a heat source for drying the solids. On the other hand, this embodiment is different from the previous embodiment as described above, those skilled in the art will be able to easily use the embodiment from the previous embodiment. Therefore, the description of the operation of the food waste treatment apparatus 200 according to the present embodiment will be omitted.

Although specific embodiments have been described above, it will be apparent to those skilled in the art that various modifications can be made without departing from the scope of the present invention.

1 is a view showing a food waste treatment apparatus according to a preferred embodiment of the present invention.

Figure 2 is a view showing the flow of food waste in the food waste treatment apparatus shown in FIG.

3 is a view showing the flow of food waste in the discharge device of the food waste treatment apparatus shown in FIG.

4 is a view showing the flow of food waste in the drying apparatus of the food waste treatment apparatus shown in FIG.

5 is a view showing a food waste treatment apparatus according to another embodiment of the present invention.

Claims (10)

delete delete In the food waste treatment apparatus for separating food wastes into waste water and solids, A separation device that separates the negative wastewater and the solids from the food waste; A discharge device for generating biogas from the negative waste water and purifying and discharging the negative waste water; A drying apparatus for burning the waste tire to dry the solids and at the same time burning the generated gas generated from the solids; And It includes a power generation device for generating electricity by purifying the biogas, The discharge device includes an anaerobic digester, an aerobic microbial contact oxidizer, and an advanced processor, wherein the negative wastewater passed through the discharge device reaches a discharge water quality standard, The anaerobic digester reduces 90% of the organic load of the negative wastewater, the aerobic microbial contact oxidizer reduces 95% of the organic load of the negative wastewater, and the advanced processor provides denitrification and dephosphorization to the negative wastewater. Food waste treatment apparatus, characterized in that. 4. The food waste treatment apparatus of claim 3, wherein the biogas is generated from the anaerobic digester. In the food waste treatment apparatus for separating food wastes into waste water and solids, A separation device that separates the negative wastewater and the solids from the food waste; A discharge device for generating biogas from the negative waste water and purifying and discharging the negative waste water; A drying apparatus for burning the waste tire to dry the solids and at the same time burning the generated gas generated from the solids; And It includes a power generation device for generating electricity by purifying the biogas, The drying device, A pyrolyser that generates pyrolysis gas as the waste tire is pyrolyzed; A combustor for generating heat as air supplied therein reacts with the pyrolysis gas to generate combustion gas; A boiler that is heated by heat from the combustor to produce steam; A disk dryer receiving steam from the boiler to dry the solids and to generate the generated gas; And Food waste treatment apparatus comprising a pollution prevention device for purifying the combustion gas to be discharged to the outside. 6. The food waste treatment apparatus of claim 5, wherein the generated gas is combusted through the combustor. The food waste treatment apparatus according to claim 5, wherein the boiler is a furnace-related boiler. 6. The food waste treatment apparatus of claim 3 or 5, wherein the electricity generated from the power generator is used to maintain a constant temperature of the discharge device. delete In the food waste treatment apparatus for separating food wastes into waste water and solids, A separation device that separates the negative wastewater and the solids from the food waste; A discharge device for generating biogas from the negative waste water and purifying and discharging the negative waste water; A drying apparatus for combusting a part of the biogas of the biogas to dry the solids and at the same time combusting the generated gas generated from the solids; And It includes a power generation device for generating electricity by purifying the remaining biogas of the biogas, The drying device, A boiler for combusting the partial biogas to provide heat for drying the solids; A disk dryer for receiving heat from the boiler to dry the solids and to generate the generated gas; And Food waste treatment apparatus comprising a pollution prevention device for purifying the burned biogas to be discharged to the outside.

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