KR101214101B1 - System for manufacurting solid fuel from livestock excretion and food waste - Google Patents

Abstract

The present invention is to produce a solid fuel using the manure of the livestock, and more specifically, the solid manure (pallet) made of livestock manure as a raw material stirred and powdered drying the manure put into the drying unit, and dried Use of manure to prevent the loss of energy due to the use of chemical fuels such as electricity, and to facilitate the treatment of livestock manure by using a sorting and palletizing the foreign matter contained in the prepared manure In particular, it is possible to expand the scope, and in particular, it can be used as fuel by palletizing manure, which can increase the income of livestock farmers and activate the local economy, such as saving energy and making it available for sale and reuse. Solid lead using livestock waste and food waste to prevent environmental pollution by effective removal of toxic gas and dust It relates to the production system.

Description

System for manufacurting solid fuel from livestock excretion and food waste}

The present invention is to produce a solid fuel using livestock manure and food waste, more specifically solidified (pallet) to quickly dry the manure and food waste of livestock generated in the barn and dried manure and residues Livestock manure and food waste to maximize the use efficiency of manure livestock manure and food waste by making it easy to process livestock manure and food waste, such as making it possible to use it as fuel. It relates to a manufacturing system of solid fuel used.

As the size of livestock farms has increased in recent years, livestock manure discharged from farmhouses scattered all over the country has become the main cause of river and soil pollution and is becoming a social issue.

With the development of this intensive livestock industry, the annual emission of domestic animal manure is about 45 million tons, and it is recognized as a huge fertilizer resource and at the same time it is recognized as pollution source of surrounding environment. There is concern about pollution of soils and water pollution due to pollution, discharge of pollutants and so on, and the demand and concern for livestock manure disposal and environmental problem solving are increasing in the surrounding and society as a whole.

On the other hand, livestock manure such as cattle manure and livestock manure have been managed mainly in the context of "water and sewage and livestock wastewater law", mainly on the treatment of water quality including purification treatment and the reclamation of individual farm units. Efforts are being made to develop various eco-friendly technologies for the purification treatment of components and the complaints caused by odor problems in the surroundings.

In Korea, the treatment of livestock manure from cattle barns is usually done by marine discharge, treatment using public facilities, and composting with moisture control materials such as sawdust and rice husk, but there are still many difficulties. .

In other words, livestock manure can contribute to eco-friendly agriculture such as soil improvement (physics, chemistry, biology) in addition to pure fertilizer function, but fertilizer composition is unbalanced, Therefore, it is difficult to make fertilizer resources. Livestock manure is a high concentration organic material, and bad odors are generated during processing and processing, causing nearby residents' complaints. Also, some unsanitary housing management may increase environmental pollution.

Farmers who have difficulty in recycling livestock manure have installed purification facilities, but they often have higher concentrations than ordinary wastewater or wastewater. Therefore, there are technological and economic difficulties, and there are increasing cases of improper disposal by farmers' to be.

As part of measures to solve this problem, the government has expanded the method of treating organic wastes such as incineration, composting, solidification or solidification, carbonization, and cement kiln, establishing new resource processing facilities (liquid and compost production), and establishing integrated regional management centers. However, despite these measures, frequent complaints due to bad smells have made it difficult to expand livestock farms or processing facilities.

In addition, the food waste left at the home or restaurant is discharged every day. Such food waste is filtered by the filter installed in the drain of the sink. When the filtered food waste is stored in a separate storage container and stored in a separate storage container, And it is buried in a large reservoir installed in the drainage and landfill.

In addition, a new landfill site is required due to the increased waste, but this is becoming a big social issue due to difficulties such as cost and location. In case of incineration of garbage, it is necessary to have a large area incinerator, There is a problem that a lot of odor is generated, and a large number of personnel are required for management and operation. In case of composting garbage, fermentation period is long and odor and leachate occur, a large space is required, And the production cost of the compost is so high that the yield is lowered.

On the other hand, in order to solve these problems, recently, a technique for applying livestock manure or food waste such as milk powder to a drying furnace and drying them in various ways has been disclosed, but in this case, livestock powder and food waste having a high water content are disclosed. In order to dry, there was a problem that a lot of energy, such as electricity or oil is required.

In other words, after installing a heating wire and a hot water pipe outside the drying furnace to generate indirect heat there was a technology to dry the livestock manure by passing livestock manure and food waste into the drying furnace when heating the drying furnace, but in this case There was a problem in that expensive energy consumption such as electricity or oil was increased, and there was a problem of bringing economic losses before the disposal of livestock manure and food waste.

The present invention has been made to solve the above problems, by stirring and powdered drying the manure and food waste put into the drying unit using a solid fuel (pallet) made of livestock manure and food waste as raw materials, drying By sorting and palletizing the foreign substances contained in the collected manure and food waste to use as a fuel for energy, it prevents the loss of energy due to the use of chemical fuel such as electricity, and the processing of livestock manure and food waste is very It can be used to expand the scope of use, and in particular, it can be used as fuel by palletizing manure and food waste, which can save energy, sell and reuse it, and increase income of livestock farmers and local economy. It can be activated and prevent environmental pollution by effective removal of toxic gas and dust generated during drying. It allows using a livestock waste, and food waste, which is the object of the present invention to provide a solid fuel production system.

As a specific means for achieving the above object, the upper portion is formed of a housing in which the solid fuel is prepared and the pre-manufactured, the fuel outlet for discharging the solid fuel to the outside through the discharge screw and the discharge screw inside. Is formed fuel receiving portion;

A fuel containing tube for supplying solid fuel from the fuel containing portion and being stacked and received from the lower portion by a fuel conveying tube with a screw inserted therein, and one with a screw connected to the lower end of the fuel containing tube to transfer the solid fuel in a horizontal direction. A fuel supply unit comprising the above fuel supply pipe;

It consists of a stirring chamber in the upper part where manure and food waste are agitated from the top and agitated, and a combustion chamber that generates combustion and heat using solid fuel introduced from the fuel supply unit as a raw material, and agitates and dries the waste and food waste and discharges it through the stirring outlet. Drying unit to let;

A blowing unit connected to the combustion chamber of the drying unit for injecting wind to help ignition and combustion of the solid fuel;

A sorting unit for filtering the manure and food waste dried by the powder transfer pipe into which the screw is inserted from the drying unit to sort out the foreign substances contained in the manure and the food waste and to filter the particles into certain particles; And

The screw can be achieved by including a pallet for palletizing the manure manure conveyed by the manure and food waste transported by the fine powder conveying tube.

As described above, the solid fuel production system using livestock manure and food waste of the present invention can obtain the effect of allowing the rapid treatment of the livestock manure and food waste generated in the livestock house while further expanding its use range.

In addition, by using solid fuel (palt) manure and food waste to dry the manure and food waste in the drying unit by combustion and its heat to prevent energy loss due to the use of separate electricity or chemical fuel and at the same time produced solid By selling fuel and reusing it in farms, it is possible to increase the income of livestock farmers and revitalize the local economy.

In addition, the toxic gas generated during drying the manure and food waste in the drying unit is recycled to the combustion chamber to be completely burned, and the completely burned ash and dust are safely discharged from the cyclone to prevent environmental pollution. Will be obtained.

In addition, since the flame generated in the combustion chamber is directly transmitted to the lower portion of the stirring chamber, an effect of increasing the thermal efficiency can be obtained.

1 is an overall view of a solid fuel production system using the present invention livestock manure and food waste.
Figure 2 is a main part showing a solid fuel input state of the solid fuel production system using the livestock waste and food waste of the present invention.
Figure 3 is a side cross-sectional view showing a drying unit and dust removal state of the solid fuel production system using livestock waste and food waste of the present invention.
Figure 4 is a side cross-sectional view showing a drying unit and a toxic gas use state of the solid fuel production system using livestock waste and food waste of the present invention.
5 is a perspective view showing a blower of the solid fuel production system using the livestock waste and food waste of the present invention.
Figure 6 is a main view showing the discharge and sorting state of the dried powder manure of the solid fuel production system using livestock waste and food waste of the present invention.
Figure 7 is a main part showing a state moved to the pallet of the selected powder manure of the solid fuel production system using livestock waste and food waste of the present invention.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms and the inventor may appropriately define the concept of the term in order to best describe its invention It should be construed as meaning and concept consistent with the technical idea of the present invention.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It should be understood that various equivalents and modifications may be present.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a front view of the solid fuel production system using the livestock waste and food waste of the present invention.

Solid fuel production system using the livestock waste and food waste as shown in Figure 1,

A fuel accommodating part 100 into which the manufactured solid fuel 10 is introduced and accommodated, a fuel supply part 200 for transferring and containing the received fuel, a drying part 300 for stirring and drying the injected fuel; The blower 400 for injecting wind into the drying unit, the sorting unit 500 for sorting the dried manure, and the pallet portion 600 for solidifying the selected manure (pallet).

Here, the fuel accommodating part 100, as shown in FIG. 2, is configured as a housing in which the solid fuel 10 manufactured by the upper part is opened and received.

At this time, a discharge screw 110 for operating a motor (not shown in the drawing) for discharging the received solid fuel 10 is formed therein, and the wall in the traveling direction of the solid fuel 10 of the discharge screw 110 is formed. There is formed a fuel outlet 120 in communication with the outside.

The fuel supply unit 200 receives the solid fuel 10 discharged to the fuel outlet 120 of the fuel accommodating part 100, and the fuel into which the screw S which operates a motor (not shown) is operated. It is composed of a fuel receiving tube 220 for accommodating the solid fuel 10 transferred from the lower portion to the upper portion by the feed pipe 210, and a fuel supply tube 230 for feeding into the drying unit 300.

In this case, the fuel receiving tube 220 is configured to be a hollow tube type, and is configured to receive a solid fuel 10 from the upper side from the fuel transfer pipe 210 to be laminated to the lower portion.

In addition, the fuel supply pipe 230 is formed in communication with each other at the lower end of the fuel receiving pipe 220, a horizontal hollow tube type in which a screw (S) operating the motor (not shown in the figure) is inserted inside. As configured, it is configured to inject the solid fuel 10 accommodated in the fuel receiving tube 220 into the combustion chamber 320 for horizontal transfer and the following.

At this time, the fuel supply pipe 230 may be composed of one or more, which can be evenly added to the solid fuel 10 is introduced by forming one or a plurality of rows depending on the size of the solid fuel 10 and the size of the combustion chamber. It can be configured.

As shown in FIGS. 3 and 4, the drying unit 300 includes an upper stirring chamber 310 into which manure and food waste are introduced and stirred from the top, and solid fuel 10 introduced from the fuel supply unit 200. Is composed of a combustion chamber 320 that generates combustion and heat as a raw material.

At this time, the stirring chamber 310 is opened by the opening and closing door 312, the upper portion of which is opened and hinged, the bottom surface of the "U" type to discharge the manure and food waste dried on the side Stirring outlet 311 is formed in communication with the outside, inside the stirrer 313 having a large and small screw blade type stirring blade 313a is embedded therein stirring shaft 314 by the belt pulley 315 outside Rotational power is generated by the power motor 315 connected with.

In addition, the combustion chamber 320, a mesh-shaped combustion zone 321 is formed inside, the fuel injected from the fuel supply unit 200 is stacked, the ash remaining after combustion outside the combustion zone 321 outside One or more redistribution pipes 322 into which a motor (not shown) for operating a discharge key (S) is inserted is formed.

On the other hand, the outside of the combustion chamber 320 is preferably configured to be able to protect the outside from the high temperature combustion chamber 320 while preventing heat loss of the combustion chamber 320 by finishing with a refractory brick (B).

In this case, the redistribution pipe 322 is formed in communication with the combustion zone 321 so that the ash that has passed through the network-shaped combustion zone 321 at one end thereof is introduced into the combustion zone 321 and leads to the outside from the combustion zone 321. It is preferable to form it upwardly inclined.

On the other hand, in the stirring chamber 310 of the drying unit 300, as shown in FIG. 3, toxic gas is generated during drying by stirring and heating, the gas discharge pipe 330 connected to the stirring chamber 310 Formed, but is introduced to the blower 400 to be described through the gas discharge pipe 330 is configured to be completely burned by the flame.

In addition, as shown in FIG. 4, the cyclone 340 is formed outside the drying unit 300 to collect ordinary dust, and thus is not discharged to the redistribution pipe 322 during combustion of the solid fuel 10. The dust to be collected is configured to be collected in the cyclone 340 by a collection pipe 341 connected to the combustion chamber 320.

The blower 400 is connected to the combustion chamber 320 of the drying unit 300 as shown in FIG. 5 and configured to inject wind to help combustion of the solid fuel 10, and the drying unit 300. The coupling plate 410 coupled to the combustion chamber 320, the distribution pipe 420 to collect the wind, and the blower 430 for injecting the wind into the distribution pipe 420.

At this time, the coupling plate 410 is composed of a metal plate is coupled in communication with the combustion chamber, the combustion confirmation sphere 411 for confirming the combustion state of the solid fuel 10 of the combustion chamber 320 is formed thereon. .

In addition, the coupling plate 410, the igniter 412 is formed is used to ignite the first solid fuel 10, it is preferable to use an oil burner or the like that can be used as a small amount of oil.

In addition, the distribution pipe 420 is formed to be spaced apart from the coupling plate 410, the blower 430 for injecting wind is connected to one side.

Here, the coupling plate 410 and the distribution pipe 420, a plurality of combustion blower pipe 412 and the lower portion of the coupling plate 410 is drawn from both sides of the middle of the coupling plate 410 and connected to the distribution pipe 420 It is formed by being connected to each other by a plurality of reprocessing blower pipes 413 that are withdrawn from and connected to the distribution pipe 420.

At this time, the fuel supply pipe 230 of the fuel supply unit 200 is preferably configured to be connected to the combustion chamber 320 through the coupling plate 410.

That is, the solid fuel 10 introduced through the fuel supply pipe 230 is collected to be stacked in the combustion zone 321 of the combustion chamber 320 to be combusted, and the combustion blower 412 of the solid fuel 10 to be combusted is burned. It is formed in communication with the combustion zone 321 to assist combustion, the reprocessing blower tube 413 is configured to communicate with each of the redistribution pipe 322.

The sorting unit 500 is dried in the drying unit 300 by the powder transfer pipe 510 in which the screw (S) operating the motor (not shown in the figure) as shown in FIG. 311) is to deliver the dried manure and food waste discharged through to remove the foreign substances contained in the manure and food waste to screen and filter to a certain particle,

An inclined surface 520 whose inner side is gradually narrowed from the upper side to the lower side is formed, and the upper first mesh network 530 having a relatively large mesh that vibrates by the vibrating body 501 for filtering foreign matters. It is formed to be inclined downward from the powder conveying pipe 510 to the other side, and the lower portion of the first strain net 530 is a relatively small mesh vibrating by vibrating body 501 for obtaining powder of dried manure and food waste. The second strainer 540 having a is formed.

The pallet part 600, the manure and food waste from the sorting unit 500 by the fine powder transfer pipe 610 in which the screw (S) operating the motor (not shown in the figure) as shown in FIG. It is composed of a conventional pallet to solidify to a certain size by applying a constant moisture content to the conveyed manure and food waste.

Hereinafter, the operation of the solid fuel production system using the livestock waste and food waste having the configuration as described above will be described in detail with reference to the accompanying drawings.

Solid fuel production system using the livestock waste and food waste of the present invention as shown in Figure 8, the fuel receiving step (S100) for the input and storage of the solid fuel, and the fuel supply process (S200) for the input of the received solid fuel And, the drying step (S300) for drying the manure by the heat of combustion of the input solid fuel, the sorting step (S400) for sorting the foreign matter of the dried manure and food waste, and the pallet process for solidifying the selected manure ( It is made by performing S500).

Here, the fuel accommodating step (S100) is made by the fuel accommodating part 100 as shown in FIG. 2, and the solid fuel 10 is injected into the fuel accommodating part 100 and the solid fuel 10 is accommodated. At the same time as the storage is to be discharged through the fuel outlet 120 by the operation of the discharge screw 110 as needed.

At this time, the solid fuel 10 to be put into the fuel receiving portion 100, the solid fuel 10 prepared by the production system of the present invention may be used, the solid fuel 10 produced in advance If not available, additional solid fuel may be used.

The fuel supply process (S200) is a process for injecting the solid fuel 10 discharged from the fuel accommodating unit 100 into the drying unit 300 by a predetermined amount, and the solid fuel discharged through the fuel outlet 120. 10 is to move to the upper through the fuel transfer pipe 210 to operate the screw (S) and to fill the solid fuel in the fuel receiving tube 220, the solid fuel (10) filled in the fuel receiving tube 220 Is injected into the combustion zone 321 of the combustion chamber 320 of the drying unit 300 described below by the operation of the screw (S) of the fuel supply pipe 230.

The drying step (S300) is a step of stirring and drying the manure and food waste of livestock (cows, pigs, etc.) generated in the barn as shown in Figures 3 and 4 in the drying unit 300, manure and Food waste is to open the opening and closing door 312 formed in the upper portion of the stirring chamber 310 forming the upper structure of the drying unit 300, the manure and food waste of the livestock through the opening portion, drying unit ( In the combustion chamber 320 forming the lower structure of the 300 is to burn the solid fuel 10 injected into the combustion table 321.

In detail, in the combustion chamber 320, the solid fuel 10 is ignited and a flame is generated by the initial igniter 412, and the flame heat is transmitted directly to the upper stirring chamber 310, and the stirring chamber At 310, the manure and food waste are agitated by the agitator 313 having a large and small screw type agitating blade 313a, and the manure and food waste are dried by heat applied, and the dried manure and food Garbage is discharged through the stirring outlet 311.

At this time, the operation of the stirrer 313 is operable by the operation of the power motor 315 connected to the stirring shaft 314 by an external belt pulley 315.

Meanwhile, in the combustion chamber 320, when the solid fuel 10 is insufficient due to the combustion of the solid fuel 10, the fuel is supplied by the fuel supply unit 200, and the ash of the solid fuel 10 remaining after combustion is Through the mesh-formed combustion zone 321 is introduced into the redistribution pipe 322 in the lower and is carried out by the screw (S) operation.

In addition, the combustion chamber 320 is formed with a blower 400 coupled to the coupling plate 410 as shown in Figure 5 to help the combustion of the solid fuel 10, the blower 400 in the blower ( Through 430 is to introduce the wind into the combustion chamber 320.

That is, the wind generated by the blower 430 is introduced into the combustion chamber 320 through the combustion blower 412 and the reprocessing blower 413 through the distribution pipe 420, and the combustion blower 412 is In communication with the combustion zone 321 is to help the combustion of the solid fuel 10, the reprocessing blower 413 is connected to the redistribution pipe 322 is to help the complete combustion of ash, including embers.

At this time, the operation of the blower 400 is to check the combustion state of the combustion chamber 320 through the combustion check hole 411 formed in the coupling plate 410, thereby operating and wind the blower 430 It is possible to adjust the strategy of.

Meanwhile, when the drying unit 300 is operated, toxic gases such as ammonia gas are generated during the stirring and drying of the manure and food waste in the stirring chamber 310. The toxic gas is the stirring chamber 310 as shown in FIG. Into the blower 430 of the blower 400 through the gas discharge pipe 330 is connected to the combustion chamber 320 is re-introduced together with the wind to complete combustion, the solid fuel 10 of the combustion chamber 320 The dust scattered during combustion is collected and introduced into the cyclone 340 through a collection pipe 341 connected to the combustion chamber 320 as shown in FIG. 4, and in the drying unit 300, environmental pollution such as toxic gases and dusts. It is possible to completely block the generation of the causative substance.

The sorting process (S400), as shown in Figure 6, the process for removing the foreign matter contained in the dried manure and food waste discharged from the stirring chamber 310 of the drying unit 300 and filtering the particles to a certain size As such, the dried manure and food waste discharged through the stirring outlet 311 of the stirring chamber 310 are transferred to the sorting unit 500 by the screw (S) operation of the powder conveying pipe 510, and the transferred Manure and food waste is inclined by the vibration-operated first filter net 530 formed in the upper portion of the sorting unit 500 is to fall to the bottom in the foreign matter is selected.

In addition, the dropped manure and food waste is moved to the lower second filter net 540 along the inclined surface 520, the moved manure and food waste by the second filter net 540 is vibrating operation again; It is filtered with a finer powder than one filter net 530.

The pallet process (S500), as shown in Figure 7, the powdered manure and food waste selected by the sorting unit 500 through the fine powder transfer pipe 610 to operate the screw (S) and pallet part 600 In the pallet part 600, by applying a constant moisture to the powdery manure and food waste to solidify (pallet) by agglomeration and curing to a certain size solid fuel using the manure and food waste (10) The manufacture of is to be finished.

On the other hand, the solid fuel 10 manufactured as described above is to increase the income of the farmhouse by packing and storing and sold by a packaging means provided separately, another solid fuel 10 manufactured according to the present invention It is possible to maximize the use of livestock manure and food waste by applying it to solid fuel manufacturing system, which makes it possible to use not only as a fuel but also as a fuel such as a stove used in farms.

10: solid fuel 100: fuel container
110: discharge screw 120: fuel outlet
200: fuel supply unit 210: fuel transfer pipe
220: fuel receiving pipe 230: fuel supply pipe
300: drying unit 310: stirring chamber
311: stirring outlet 312: opening and closing door
313: agitator 314: stirring shaft
315: belt pulley 316: power motor
320: combustion chamber 321: combustion table
322: cultivation pipe 330: gas discharge pipe
340: cyclone 400: blower
410: coupling plate 411: combustion confirmation
412: combustion blower 413: reprocessing blower
420: distribution pipe 430: blower
500: sorting unit 501: vibrating body
510: powder transport pipe 520: first filter network
530: second filter mesh 600: pallet portion
610: fine powder transfer pipe

Claims (6)

The upper part is opened and the solid fuel (10) is manufactured in the form of a housing that is injected and accommodated, the fuel discharged to the outside through the discharge screw 110 and the discharge screw 110 to the solid fuel (10). A fuel accommodating part 100 in which an outlet 120 is formed;
The fuel receiving pipe 220 is supplied with the solid fuel 10 from the fuel receiving part 100 by the fuel transfer pipe 210 having the screw S embedded therein, and stacked and received from the bottom, and the fuel receiving pipe 220 of the fuel receiving pipe 220. A fuel supply unit 200 having one or more fuel supply pipes 230 in which a screw S is inserted to transfer the solid fuel 10 in a horizontal direction and connected to a lower end thereof;
It is composed of a manure chamber 310 of the upper portion is stirred and the manure and food waste from the upper portion and the combustion chamber 320 to generate combustion and heat by using the solid fuel 10 introduced from the fuel supply unit 200 as a raw material And a drying unit 300 for agitating and drying the food waste to discharge through the stirring outlet 311;
A blowing unit 400 connected to the combustion chamber 320 of the drying unit 300 to inject wind to help ignition and combustion of the solid fuel 10;
A sorting part 500 which receives the dried manure by the powder transfer pipe 510 into which the screw S is inserted from the drying part 300 and sorts the foreign matter contained in the manure and food waste and filters it into certain particles; And
Livestock manure, characterized in that it comprises a pallet part 600 for palletizing the manure and food waste transported by receiving the manure and food waste by the fine powder transfer pipe 610 in which the screw (S) is embedded And solid fuel manufacturing system using food waste.
The method of claim 1,
Of the drying unit 300
The stirring chamber 310 is opened by an opening / closing door 312 whose upper part is opened and hinged, the bottom surface of which is formed in a “U” shape, and inside and outside of the stirring blade 313a of a large and small screw wing type. The stirrer 313 having a built-in rotational power is generated by the power motor 315 connected to the stirring shaft 314 by an external belt pulley 315,
In the combustion chamber 320, a mesh-shaped combustion zone 321 is formed inside, and fuel injected from the fuel supply unit 200 is stacked, and the ash remaining after combustion is discharged to the outside of the combustion zone 321. Livestock manure and solid fuel production system using a food waste, characterized in that the plurality of re-discharge pipe 322 in which the screw (S) is inserted in communication with the lower portion of the combustion table 321 and gradually formed upward inclined outward.
The method of claim 1,
Production of solid fuel using livestock waste and food waste, characterized in that the toxic gas generated during stirring and drying in the stirring chamber of the drying unit 300 is introduced into the blowing unit 400 through the gas discharge pipe 330. system.
The method of claim 1,
Livestock, characterized in that it comprises a cyclone 340 connected by a collecting pipe 341 to collect the dust generated during the combustion of the solid fuel 10 in the combustion chamber 320 of the drying unit 300 Solid fuel production system using manure and food waste.
The method of claim 1,
The blower 400 includes a coupling plate 410 coupled to the combustion chamber 320 of the drying unit 300, a distribution pipe 420 for collecting wind, and a blower for injecting wind into the distribution pipe 420. 430,
A combustion checker 411 and an igniter 412 are formed at an upper portion of the coupling plate 410 to check a combustion state of the combustion chamber 320, and a lower portion of the coupling plate 410 injects wind into the combustion chamber 320. A plurality of combustion blower pipes 412 and a plurality of reprocessing blower pipes 413 are connected to the distribution pipe 420,
The fuel supply pipe 230 of the fuel supply unit 200, solid fuel production system using livestock waste and food waste, characterized in that configured to be connected to the combustion chamber 320 through the coupling plate (410).
The method of claim 1,
The sorting unit 500 forms an inclined surface 520 whose inner side is gradually narrowed from the upper part to the lower part, and the upper part of the first filtering network 530 vibrating by the vibrating body 501 for filtering foreign matters. Is formed inclined downward from the powder transfer pipe 510 to the other side, the lower part of the second filter mesh 540 is vibrated by the vibrating body 501 for obtaining the powder of the dried manure, characterized in that Solid fuel production system using livestock manure and food waste.

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