KR20120095676A - Disposal device for livestock waste - Google Patents

Abstract

PURPOSE: An apparatus for treating livestock waste is provided to improve the drying efficiency of livestock waste and to reuse carbonized livestock waste as fuel without a separate fuel. CONSTITUTION: An apparatus for treating livestock waste includes a heating part(10), at least one drying part(20), a heat exchanging part(60), and a overheat transporting part(70). The heating part includes a heating space(111). The drying part is positioned in the heating space. The drying part includes a drying space through which waste passes. The heating space and the drying space are connected with the heat exchanging part. The overheat transporting part is in connection with the heat exchanging part. Gas generated from a waste drying process is heated based on combustion gas from the heating part based on a heat exchanging operation. The heated gas is introduced into the overheat transporting part.

Description

Livestock Waste Disposal Equipment {Disposal device for livestock waste}

The present invention relates to a livestock waste treatment apparatus.

In general, livestock waste is a waste resulting from livestock management, such as manure, litter, washing and drainage, and wastes associated with waste stocking, processing and shipping. Such livestock waste is regulated as statutory waste.

As the consumption of meat has soared due to the progress of the industrial society, livestock has also been industrialized, and the development of livestock industry has increased the discharge of manure. In addition, manure includes fluids for cleaning feed and zookeepers, resulting in increased production of livestock waste.

The livestock waste has the property of organic fertilizer, but since its form is a mixture of solid and liquid, and a bad smell is generated in large quantities at the same time, it is left as it cannot be used as a fertilizer as a whole.

If the livestock waste is left untreated, the leachate contaminates soil and rivers. Therefore, the disposal of livestock waste is a social problem.

The present invention provides a livestock waste treatment apparatus for drying and treating livestock waste.

The present invention provides a livestock waste treatment apparatus that can use the gas generated during the drying of livestock waste as an energy source.

An animal husbandry waste disposal apparatus according to an embodiment of the present invention includes a heating unit having a heating space, a drying unit installed in the heating space and having a drying space through which waste passes, and connected to the heating space and the drying space. Gas generated while the waste is dried in the heat exchange unit and the drying unit is heated by heat exchange with combustion gas generated in the heating unit in the heat exchange unit, and the heated gas is introduced into the superheat transfer unit.

The overheat transfer unit may connect the heat exchange unit and the heating unit.

The overheat transfer unit may connect the heat exchange unit and the drying unit.

The livestock waste treatment apparatus may further include an auxiliary drying unit connected to the drying unit and into which waste discharged from the drying unit may be input, and the overheat transfer unit may connect the heat exchange unit and the auxiliary drying unit. have.

The livestock waste treatment apparatus may further include a pallet forming unit connected to any one selected from the drying unit or the auxiliary drying unit to compress the dried waste.

The livestock waste treatment apparatus may further include a shredding device connected to the drying unit.

The livestock waste treatment apparatus may further include a condensation unit connected to the drying unit.

The livestock waste treatment apparatus may further include a cooling device provided between the drying unit and the condensation unit.

According to an embodiment of the present invention, when the livestock waste is dried in the drying unit by indirect heating of the heating unit, steam is generated. The water vapor passes through the heat exchange part through the gas exhaust pipe 23. At this time, the water vapor exchanges heat with the combustion gas discharged from the heating part in the heat exchange part to become superheated steam. Superheated steam is fed to the heating, drying and auxiliary drying units to improve the drying efficiency of the livestock waste.

In addition, the livestock waste is carbonized when the livestock waste is dried in the drying unit by an indirect heating method of the heating unit. The carbonized livestock waste can be compression molded in the pallet forming unit and used as fuel for the heating unit. The carbonized livestock waste is reused as fuel, so no extra fuel is consumed.

In addition, the water vapor discharged through the gas exhaust pipe is rapidly cooled to a liquid and processed to be used as a liquid fertilizer.

As a result, livestock waste can be used as a new energy source rather than as a treatment target.

1 is a schematic diagram of a livestock waste treatment apparatus according to one embodiment of the present invention;
Figure 2 is a schematic diagram connected to the heat exchanger and the drying unit shown in FIG.
3 is a schematic diagram in which a heat exchanger and a heating unit shown in FIG. 1 are connected;
Figure 4 is a schematic diagram connected to the heat exchanger and the secondary drying unit shown in FIG.
5 is a schematic view in which the heat exchanger illustrated in FIG. 1 is connected to a drying unit, a heating unit, and a secondary drying unit.
6 is a schematic view in which a condensation unit is connected to a drying unit shown in FIG. 1.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Like parts are designated by like reference numerals throughout the specification.

Next, a livestock waste treatment apparatus according to an embodiment of the present invention will be described with reference to FIG. 1.

1 is a schematic diagram of a livestock waste treatment apparatus according to an embodiment of the present invention.

Referring to FIG. 1, the livestock waste treatment apparatus 1 according to the present embodiment may include a heating unit 10, a drying unit 20, a heat exchanger 60, an overheat transfer unit 70, a crusher 30, and condensation. The unit 90 may further include an auxiliary drying unit 40 and a pallet forming unit 50. However, the shredding device 30, the condensation unit 90, the auxiliary drying unit 40, and the pallet forming unit 50 may be omitted.

The heating unit 10 includes a heating body 11, a burner 12, a combustion exhaust pipe 13, a dust collector 14, and a combustion material supply unit (not shown).

The heating body 11 is formed in a cylindrical shape and a heating space 111 is formed therein. The inner circumferential surface of the heating body 11 is provided with a refractory material (not shown) that can withstand fire well. The heating space 111 is provided with a blowing fan (not shown) that circulates hot air. However, the blower fan can be omitted.

The burner 12 is mounted on one side of the heating body 11 and burns fuel such as gas, petroleum, and alcohol to raise the temperature of the heating space 111. The temperature of the heating space 111 heated by the burner 12 may be 750 ° C to 850 ° C.

A combustion material supply part supplies a solid fuel to the heating space 111, and includes a supply pipe and a supply screw.

The supply pipe of the combustion material supply part is connected with the heating space 111, and the inlet is formed in one side. The feed screw is rotatably installed inside the feed pipe. Accordingly, the solid fuel supplied to the supply pipe by the rotation of the supply screw may be supplied to the heating space 111. When the solid fuel is supplied to the heating space 111, it is possible to reduce the fuel usage of the burner 12.

The combustion exhaust pipe 13 is connected to the upper side of the heating body 11 and is connected to the heating space 111. Accordingly, the combustion gas generated while the burner 12 burns fuel may be discharged to the outside from the heating space 111 through the combustion exhaust pipe 13.

The dust collector 14 is connected with the combustion exhaust pipe 13. The dust collector 14 removes harmful components contained in the combustion gas discharged through the combustion exhaust pipe 13. Accordingly, harmful components contained in the combustion gas are not discharged into the atmosphere, thereby preventing air pollution.

The drying unit 20 is indirectly heated by the heating unit 10 as the livestock waste to be dried passes. The drying unit 20 may be arranged along the inner circumferential surface of the heating space 111. The drying unit 20 includes a drying body 21, a stirring unit 22, and a gas exhaust pipe 23.

The drying body 21 is disposed in the heating space 111, and a drying space 211 is formed inside the drying body 21.

  One side of the drying body 21 is formed with an inlet 212 for introducing the livestock waste to be dried into the drying space (211). And the inlet 212 is connected to the shredding device 30. Shredding device 30 is finely crushed waste, livestock waste. Finely broken waste, livestock waste, and the like in the crushing device 30 may be introduced into the drying space 211 through the inlet 212. However, the shredding device 30 can be omitted.

The other side of the drying body 21 is formed with a discharge port 213 is dried in the drying space 211 is discharged carbonized livestock waste.

On the other hand, the auxiliary drying unit 40 is provided in the discharge port 213. Accordingly, the livestock waste which is firstly dried and carbonized in the drying unit 20 is secondarily dried in the auxiliary drying unit 40 to completely carbonize the livestock waste. The auxiliary drying unit 40 includes a drying body and a stirring unit in the same manner as the drying unit 20, and is connected to the drying unit 20. However, the auxiliary drying unit 40 may be connected to the auxiliary heating unit 10. The auxiliary drying unit 40 may be omitted.

In addition, the auxiliary drying unit 40 is connected to the pellet forming unit 50 for compression molding the discharged carbide. The carbide press-molded in the pallet forming unit 50 may be used as fuel. On the other hand, when the auxiliary drying unit 40 is omitted, the pallet forming unit 50 may be directly connected to the drying unit 20.

The pallet forming part 50 is connected with the combustion material supply part. Accordingly, the solid fuel formed in the pallet forming unit 50 may be supplied to the drying unit 20 through the combustion material supply unit. The use of carbonized livestock waste as a solid fuel can be a new energy source for low carbon green growth.

At least one stirring unit 22 is disposed in the drying space 211 to mix the livestock waste while feeding the livestock waste introduced into the inlet 212 to the outlet 213. The stirring unit 22 includes a rotating shaft 221 and the stirring blade 222.

The rotary shaft 221 is located in the drying space 211 and both sides are rotatably supported by both sides of the drying body 21. Accordingly, when the power of the driving unit (not shown) is connected to the rotary shaft 221, the rotary shaft 221 may rotate. In addition, the rotation shaft 221 is equipped with a speed control device (not shown) between the drive unit and the rotation shaft 221 to adjust the rotation speed. Accordingly, the rotational speed of the rotary shaft 221 can be adjusted according to the type of livestock waste. However, the speed regulating device can be omitted.

The stirring blade 222 is provided at intervals on the circumferential surface of the rotary shaft 221, and mixes the livestock waste in order to increase the drying efficiency of the livestock waste introduced into the drying space 211. In addition, the stirring blade 222 is inclined at a predetermined angle on the rotating shaft 221 so that the livestock waste can move in the direction of the outlet 213 on the inlet 212 side when the stirring blade 222 mixes the livestock waste. have. The rate at which livestock waste moves can vary depending on the type of livestock waste.

When the livestock waste is mixed by the stirring vane 222, the heat of the heating space 111 that maintains the heat of 750 ° C. to 850 ° C. is transferred to the drying space 211. In this case, the temperature of the drying space 211 may be 400 ° C to 500 ° C. In addition, the temperature of the combustion gas that is lost while the heat of the heating space 111 of 750 ° C to 850 ° C is transferred to the drying unit 20 and discharged to the combustion exhaust pipe 13 may be 450 ° C to 550 ° C.

The livestock waste mixed in the drying space 211 by heat of 400 ° C to 500 ° C transferred to the drying space 211 is dried. When the livestock waste is dried in the drying space 211, moisture contained in the livestock waste is evaporated (water vapor). At this time, the vaporized water vapor is saturated water vapor maintaining a temperature of about 100 ℃.

The gas exhaust pipe 23 is connected to the drying body 21 to connect the drying space 211 to the outside. Accordingly, water vapor of about 100 ° C. generated in the drying space 211 may be discharged to the outside from the drying space 211 through the gas exhaust pipe 23. On the other hand, the gas exhaust pipe 23 is provided with a steam dust collector (not shown) for removing odors and harmful components contained in the steam.

The heat exchanger 60 is located between the heating body 11 and the dust collector 14 and connected to the combustion exhaust pipe 13. Accordingly, the combustion gas at a temperature of 750 ° C to 850 ° C generated in the heating space 111 passes through the heat exchange part 60.

In addition, the gas exhaust pipe 23 passes through the heat exchange unit 60. At this time, the water vapor of 100 ° C passing through the gas exhaust pipe 23 exchanges heat with the combustion gas of 450 ° C to 550 ° C passing through the heat exchange unit 60. Water vapor at 100 ° C., which is heat-exchanged with the combustion gas, is heated without a change in pressure, resulting in a high heat quantity, resulting in a superheated steam state.

Meanwhile, a heating device (not shown) may be installed inside the heat exchanger 60. The temperature of the combustion gas of 450 ° C to 550 ° C passing through the heat exchange part 60 can be increased by the heating device. Thereby, the temperature of the water vapor which heat-exchanges with combustion gas can be raised to a higher temperature.

The superheat transfer unit 70 is connected to the gas exhaust pipe 23 passing through the heat exchange unit 60. Accordingly, the superheated steam may flow into the superheat transfer unit 70. The superheated steam introduced into the overheat transfer unit 70 is pumped to a necessary place.

Referring to FIG. 2, the overheat transfer unit 70 connects the gas exhaust pipe 23 and the drying body 21 passing through the heat exchange unit 60. Accordingly, the superheated water vapor that is pumped through the superheat transfer unit 70 may be introduced into the drying body 21. The superheated steam introduced into the drying body 21 increases the drying temperature of the drying space 211 together with the heat transferred from the heating space 111 to the drying space 211 to improve the drying efficiency of the livestock waste. The superheated steam is introduced into the gas exhaust pipe 23 and circulated along with the steam generated as the livestock waste is dried.

Referring to FIG. 3, the overheat transfer unit 70 connects the gas exhaust pipe 23 and the heating body 11 passing through the heat exchange unit 60. Accordingly, the superheated water vapor that is pumped through the superheat transfer unit 70 may be introduced into the heating space 111. The superheated steam introduced into the heating space 111 is incinerated with the fuel burned by the burner 12. At this time, the odor contained in the superheated steam is also incinerated to minimize the odor generated when the livestock waste is dried.

Referring to FIG. 4, the overheat transfer unit 70 connects the gas exhaust pipe 23 and the auxiliary drying unit 40 passing through the heat exchange unit 60. The superheated steam pumped through the superheat transfer unit 70 may be supplied to the auxiliary drying unit 40. The superheated steam supplied to the auxiliary drying unit 40 improves the drying efficiency of the auxiliary drying unit 40. The generation of waste water by steam can be prevented.

Referring to FIG. 5, a branching device 80 having a plurality of ports is coupled to the overheat transfer unit 70. The port of the branching device 80 is provided with a valve for controlling the amount or pressure of the fluid. And the port of the branching device 80 is connected to the heating body 11, the drying body 21, and the auxiliary drying unit 40 by a connecting tube. Accordingly, the superheated steam introduced into the overheat transfer unit 70 is simultaneously supplied to or selected from the heating body 11, the drying body 21, and the auxiliary drying unit 40 through the valve of the branch device 80. Can be supplied.

Meanwhile, referring to FIG. 6, the condenser 90 is connected to the gas exhaust pipe 23. The gas exhaust pipe 23 to which the condensation unit 90 is connected is equipped with a switching valve 91. Accordingly, water vapor introduced into the gas exhaust pipe 23 may be selectively supplied to the heat exchanger 60 or the condenser 90 by the operation of the switching valve 91.

In addition, the condenser 90 is connected to a cooling device (not shown) for rapidly cooling water vapor. As a result, water vapor is rapidly changed into a liquid by the cooling device. The liquid can be processed and used as a liquid fertilizer. Meanwhile, an ozone treatment device (not shown) may be installed in the condensation unit 90 to sterilize the liquid. The odor and impurities introduced into the condensation unit 90 may be supplied to the heating unit 10 to be incinerated.

The livestock waste (organic waste) is introduced into a drying unit 20 located inside the heating unit 10 maintaining a temperature of 750 ° C. to 850 ° C., and heated and dried at a temperature of 450 ° C. to 550 ° C.

The livestock waste dried in the drying unit 20 is carbonized and discharged to the outside of the drying unit 20. The carbonized livestock waste may be compression molded in the pallet forming unit 50 and used as fuel for the heating unit 10.

When the livestock waste is dried in the drying unit 20, steam is generated. The water vapor passes through the heat exchange part 60 through the gas exhaust pipe 23. At this time, the water vapor exchanges heat with the combustion gas discharged from the heating unit 10 to become superheated water vapor. The superheated steam may be supplied to the heating unit 10, the drying unit 20, and the auxiliary drying unit 40.

In addition, the water vapor discharged through the gas exhaust pipe 23 can be rapidly cooled to a liquid and processed to be used as a liquid fertilizer.

For reference, although the waste of the present invention has been described as livestock waste in the above description and drawings, the waste of the present invention is not limited to livestock waste, and may be generally applied to any organic compound.

Therefore, the scope of the present invention should not be construed as meaning that it is applied to the field of drying the organic matter and not limited to livestock waste.

Although the preferred embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements of those skilled in the art using the basic concepts of the present invention defined in the following claims are also provided. It belongs to the scope of rights.

1: livestock waste disposal device
10: heating unit 11: heating body
111: heating space 12: burner
13: combustion exhaust pipe 14: dust collector
20: drying unit 21: drying body
211: drying space 212: inlet
213: outlet 22: agitator
221: rotating shaft 222: stirring blade
23: gas exhaust pipe 30: shredding device
40: auxiliary drying unit 50: pallet forming unit
60: heat exchanger 70: overheat transfer unit
80: branch device 90: condensation unit
91: switching valve

Claims (8)

Heating section having a heating space,
At least one drying unit located in the heating space and having a drying space through which waste passes;
A heat exchange part connected to the heating space and the drying space, and
Superheat transfer unit connected to the heat exchange unit
Including;
Gas generated while the waste is dried in the drying unit is heated by heat exchange with combustion gas generated in the heating unit in the heat exchange unit, and heated gas is introduced into the superheat transfer unit.
Livestock Waste Disposal Device. In claim 1,
The overheat transfer unit, the livestock waste treatment apparatus for connecting the heat exchange unit and the heating unit. In claim 1,
The overheat transfer unit, the livestock waste treatment apparatus connecting the heat exchange unit and the drying unit. In claim 1,
It is connected to the drying unit, and further comprises an auxiliary drying unit that can be introduced into the waste discharged from the drying unit,
The overheat transfer unit is a livestock waste treatment apparatus for connecting the heat exchange unit and the auxiliary drying unit. 5. The method of claim 4,
Livestock waste treatment apparatus further comprises a pallet forming unit for compression molding the waste dried in connection with any one selected from the drying unit or the auxiliary drying unit. In claim 1,
Livestock waste treatment apparatus further comprises a shredding device connected to the drying unit. In claim 1,
Livestock waste treatment apparatus further comprises a condensation unit connected to the drying unit. In claim 7,
Livestock waste treatment apparatus further comprises a cooling device provided between said drying unit and said condensation unit.

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