KR20210058247A - Animal carcass composting method using vacuum fermentation dryer and vacuum dry fermenter - Google Patents

Abstract

The present invention relates to a vacuum fermentation dryer and an animal carcass composting method using the same, and specifically, to a vacuum fermentation dryer and an animal carcass composting method using the same, in which animal carcasses that could not be eaten and should be disposed are utilized and composted, wherein the vacuum fermentation dryer is used to rotate the animal carcasses at a high temperature in a vacuum state such that the animal carcasses are decomposed quickly into high-quality compost. Therefore, the present invention can produce high-quality compost using discarded animal carcasses, thereby being very useful. In addition, the present invention produces compost by using a vacuum fermentation dryer that operates automatically, thereby removing odor generated in a composting process, increasing an output thereof, and exhibiting excellent quality of produced compost. In addition, the present invention can produce high-quality compost through a process of performing re-fermentation at an appropriate temperature through a separate fermenter.

Description

Animal carcass composting method using vacuum fermentation dryer and vacuum dry fermenter}

The present invention relates to a method for composting animal carcasses using a vacuum fermentation dryer and a vacuum fermentation dryer, in particular, composting using animal carcasses to be disposed of without tasting, but rotating at high temperature in a vacuum state using a vacuum fermentation dryer The present invention relates to a method for composting animal carcasses using a vacuum fermentation dryer and a vacuum fermentation dryer that can be quickly decomposed and transformed into high-quality compost.

In general, in the case of pigs, cows, and chickens raised in farms, the survival rate is high, but there is no possibility that all livestock that are reared will survive.

Therefore, a small number of livestock that are reared are bound to be produced in large quantities that die before they are fully grown and sold.

Moreover, each livestock has a deadly pandemic virus, and it is not uncommon for more livestock to die than live livestock due to the outbreak of pathogens.

However, these dead animals have not been able to find any use in the past, and are often buried in the ground.

This is a waste of resources, and there are parts that do not help improve intelligence.

The present invention relates to a method of composting animal carcasses using a vacuum fermentation dryer and a vacuum fermentation dryer. In particular, the animal carcasses that cannot be sampled and should be disposed of are used to compost, but by using a vacuum fermentation dryer to rotate at high temperature in a vacuum The purpose of this study is to provide a method for composting animal carcasses using a vacuum fermentation dryer and a vacuum fermentation dryer that can be quickly decomposed and converted into high-quality compost.

In the method for composting animal carcasses using a vacuum fermentation dryer and a vacuum fermentation dryer, the first step: inserting the animal carcasses into the inside of the vacuum fermentation dryer, but adding 100% based on the weight ratio and the second step: animals 700-1500% of animal excrement in proportion to the weight ratio of the animal carcasses is injected into the vacuum fermentation dryer in which the carcasses are inserted, and 150-250% of the sawdust is injected in proportion to the weight ratio of the animal carcasses, and vacuum fermentation Stirring at a temperature of 70-80℃ in the drying room of the dryer to dry and decompose, and the third step: Transfer the decomposition product of the vacuum fermentation dryer and heat it at 40-60℃ in a fermentation tank through which air passes, and ferment for 15-30 days to compost. It is intended to provide a method for composting animal carcasses using a vacuum fermentation dryer to form useful compost from decaying animal carcasses.

In a vacuum fermentation dryer that composts animal carcasses, the drying chamber door can be opened when the drying chamber is operated with a heat distribution plate that increases the combustion chamber temperature and facilitates ignition by the residual heat re-ignited by prolonging the residence time of the heating medium in the combustion chamber. Therefore, when the dryer is operated, the viewing window installed on one side of the drying room and the contents of the drying room are mixed in the rotational direction of the agitation furnace. It is intended to provide a vacuum fermentation dryer for composting animal carcasses consisting of an agitating furnace and a manure inlet tube attached to one side of the drying chamber so that the contents in the gel state are inserted into the drying chamber using a vacuum state in the drying chamber.

The invention is a very useful invention because it is possible to produce high-quality compost by using discarded animal carcasses.

In addition, since the present invention uses an automatically operated vacuum fermentation dryer to produce compost, it is possible to remove odors generated in the process of composting, the production amount is high, and the quality of the produced compost is excellent.

In addition, the present invention can produce high-quality compost through a process of re-fermenting at an appropriate temperature through a separate fermentation tank.

1 is a view showing the overall vacuum fermentation and drying system of the present invention.
Figure 2 is a perspective view showing the vacuum fermentation dryer of the present invention.
3 is a cross-sectional view of the vacuum fermentation dryer of the present invention.
Figure 4 is a side cross-sectional view of the vacuum fermentation dryer of the present invention.

The present invention relates to a method for composting animal carcasses using a vacuum fermentation dryer and a vacuum fermentation dryer.

Accordingly, the present invention will be described in detail together with FIGS. 1 to 5 shown.

That is, the present invention is a method of composting animal carcasses, and goes through the first step: inserting the animal carcasses into the inside of the vacuum fermentation dryer 100, but adding 100% based on the weight ratio.

That is, the animal carcasses to be discarded are put into the inside of the vacuum fermentation dryer 100 shown in the drawing.

At this time, it is preferable to be supplied automatically through the transfer conveyor 60 substantially.

Then, the second step: In the interior of the vacuum fermentation dryer 100 into which the animal carcasses were put, 700-1500% of animal excrement was added in proportion to the weight ratio of the animal carcasses, and sawdust was added in proportion to the weight ratio of the animal carcasses. 150-250% is added, and the vacuum fermentation dryer 100 undergoes a step of drying and decomposing while stirring at a temperature of 70-80°C in the drying chamber 30 of the vacuum fermentation dryer 100.

That is, animal excrement and sawdust are supplied to the inside of the vacuum fermentation dryer 100 into which the animal carcasses are inserted, as shown in FIG. 1.

Then, looking at the supplied amount in detail, first, it is supplied at a weight ratio based on the carcasses of animals supplied, and the input weight of other inputs is selected based on the weight ratio of the animal carcasses as 100.

That is, if the weight of the animal's corpse is set as 100, the animal's excrement is added at 700-1500%.

And in the case of sawdust compared to the weight of the animal carcasses, it is preferable to add about 150-250% by weight.

In addition, in the vacuum fermentation dryer 100, a drying chamber 30 is installed in the center thereof, and heat is applied to the burner 63 from the outside.

In addition, the drying chamber 30 is configured to maintain a vacuum state, and is formed to be stirred at a temperature of about 70-80°C.

Accordingly, animal carcasses, animal excreta, and sawdust put into the drying chamber 30 are stirred by the operation of a screw or an impeller in a high-temperature vacuum state.

Although the time for such agitation varies somewhat depending on the situation, in the case of dead sadon, the result is that all of the dead sadon is decomposed through stirring for about 1-6 hours.

In other words, the quality of the flesh is decomposed, and even the bones, which are the skeletons, are almost melted.

On the other hand, the present invention through these steps, the third step: the decomposition product of the vacuum fermentation dryer 100 is transferred, heated by heat at 40-60° C. in the fermentation tank 70 through which air passes, and fermented for 15-30 days to complete compost. Go through the steps.

That is, as illustrated in FIG. 1, the decomposed product decomposed in the vacuum fermentation dryer 100 moves to the fermentation tank 70 shown through the transfer conveyor 61.

This fermentation tank 70 is in a state in which a boiler is formed inside the ground.

Therefore, the fermentation tank 70 can adjust a suitable temperature, and about 40-60° C. is suitable as a temperature for fermentation.

And the fermentation time is somewhat different depending on the situation, but fermenting for about 15-30 days is the most reasonable for compost use.

In other words, such a time difference must elapse a little longer in case of dead pigs or dead saws, and in case of dead seasons, a little time may be used.

And there is also a relationship to the moisture content of the discharged decomposition products. If the moisture content is high, it is advantageous to ferment for a longer period of time, and if the moisture content is low, it will be the opposite.

Therefore, the present invention is transformed into a very suitable compost through this process.

Meanwhile, in the present invention, the carcasses of animals introduced in the first step can be used in a wide variety.

That is, all livestock and animals can be used for composting, but it is most preferable to use dead pigs, wastesau, and dead chickens.

And it is most suitable that the moisture content of the cadaver of the animal introduced in the first step of the present invention is 80-90%.

In other words, in the case of the animal carcasses that are initially introduced into the vacuum fermentation dryer 100, the moisture content contained in the body is maintained at about 80-90%.

It is natural to maintain the above moisture content unless it is a specially dried animal carcass.

However, it is preferable to supply an appropriate amount of water through the moisture control unit 80 shown in FIG. 1 if a somewhat dried animal carcass is put through some lapse.

And it is preferable that the animal excrement introduced in the second step of the present invention has a moisture content of 80-97% as pig manure, cow manure, and chicken manure.

That is, the excrement used in the present invention can be used in a wide variety of excrement.

However, it would be more advantageous in terms of production to select pig manure, cattle manure, and chicken manure that are convenient to obtain from farms.

In addition, as described above, in the present invention, the moisture content, which is the amount of moisture remaining in the input material, is very important since the action of drying the moisture through the vacuum fermentation dryer 100 and the fermentation tank 70 is also performed.

Therefore, the applicant of the present invention selected the optimum value through a wide variety of experiments, and the moisture content of the injected excrement was preferably about 80-97%.

Of course, when the moisture content of the excrement is less than the selected moisture content, supplying moisture through the hand control unit 80 as described above will help in the calculation of the final product.

And it is preferable that the moisture content of the sawdust introduced in the second step is 55-70%.

That is, sawdust may have different moisture content depending on the time it was produced and the place where it was dried.

Therefore, in the case of such sawdust, it is preferable to adjust the moisture content through the operation of the moisture control unit 80.

And, in the case of the moisture control unit 80 described above, a known means that does not have a special technical point is used as it is.

That is, it may be used in the form of a valve attached to a pipe, or a pump may be attached to this valve to automatically suction.

Meanwhile, the most important point in the present invention is that the decomposition product transferred to the fermentation tank in the third step preferably has an initial moisture content of 45-65%.

That is, as described above, animal carcasses, sawdust, and excrement that have been put into the vacuum fermentation dryer 100 with a constant moisture content are dried to a certain extent through the drying chamber 30.

And as it decomposes along with the drying, the decomposition product is formed, and it moves to the fermentation tank 70.

At this time, the moisture content of the decomposition product should be about 45-65%.

This moisture content makes it possible to predict the exact time of the fermentation process, which is a later production process, and is an optimal value that can expand the availability of produced compost.

Therefore, it is preferable to adjust the drying time through the vacuum fermentation dryer 100 in order to maintain the moisture content as described above.

Then, the configuration and operation of the vacuum fermentation dryer 100 of the present invention that enables the use of the animal carcass composting treatment method of the present invention will be described in detail together with the drawings shown.

That is, in the vacuum fermentation dryer 100 for composting animal carcasses according to claim 1, the present invention causes a vortex phenomenon by lengthening the residence time of the heating medium in the combustion chamber 20 to facilitate ignition by residual heat re-ignited, and the combustion chamber (20) Since there is a heat distribution plate 10 to increase the temperature, and the door of the drying room 30 cannot be opened when the vacuum fermentation dryer 100 is operating, it is installed on one side of the drying room 30 so that the inside of the drying room 30 can be viewed when operating the dryer. There is an old viewing window (32).

And the mixing of the contents of the drying chamber 30 in the rotational direction of the stirring furnace 41, the stirring furnace 41 is formed in a comb screw type to mix the contents in the lengthwise direction of the drying chamber 30. ), and there is a manure inlet pipe 50 attached to one side of the drying chamber 30 so that the contents in the gel state are inserted into the drying chamber 30 using a vacuum state in the drying chamber 30.

That is, when half-filling livestock manure and animal carcasses into the drying chamber 30 through the insertion opening, and then operating the burner 63, the heat distribution plate 10 has a portion of the heat distribution plate 10 through the hole and a portion of the heat distribution plate 10 ) By causing a eddy current phenomenon in front of the combustion chamber 20 and delaying the rapid exit to the rear of the combustion chamber 20, the heat distribution in the front and the rear of the combustion chamber 20 is evenly maintained, so that the heat conduction in the drying chamber 30 is kept constant.

When the temperature of the combustion chamber 20 becomes high, the walls of the combustion chamber 20 are likely to be deformed. Therefore, by using a high-temperature insulating material on the inner wall of the combustion chamber 20, the above material is eliminated. The residual heat facilitates ignition and minimizes heat loss so that high heat can be obtained within a short period of time, and in order to mix the contents of the drying chamber 30 evenly, the stirring furnace 41 is installed in a comb screw type. Even if the high load applied to (41) is reduced to a minimum and the speed of the reduction motor (64) is increased, the load is placed on the stirring furnace (41), so that the stirring furnace (41) can rotate at high speed and The stirring of the contents is made quickly, and when the axis of the stirring furnace 41 crosses the forward and reverse rotation, the contents in the drying chamber 30 are mixed in the rotational direction of the stirring furnace 41, and the stirring furnace 41 is formed in a comb screw type. ) Is mixed in the longitudinal direction of the axis so that the contents of the drying chamber 30 are mixed evenly as a whole.

In the past, in order to count the amount of contents in the drying room 30, there were various inconveniences of having to open the door of the insertion opening 67 and see it with a luminous body. Since the inside of the drying room 30 is vacuumed, any door attached to the drying room 30 cannot be opened.Therefore, a lighting window 68 is placed on one side of the drying room 30 to illuminate it, and the drying room 30 is used as a viewing window 32 attached to one side of the drying room 30. ) Since the inside can be viewed, it was possible to eliminate the great inconvenience of not being able to see the inside of the vacuum fermentation dryer 100 when operating the conventional vacuum fermentation dryer 100.

Since the contents of the drying chamber 30 are mostly moisture, it is inconvenient to enter the insertion port using a conveyor, and thus the material suction pipe 72 inserted into the drying chamber 30 is improved to store the gel manure in the drying chamber 30. ) A manure inlet pipe 50 with a manure inlet valve 55 attached to it so that manure can be sucked in by using the vacuum inside was excreted.

Effects of the Invention

As described above, the present invention is a very useful invention because it is possible to produce high-quality compost using discarded animal carcasses.

In addition, since the present invention uses an automatically operated vacuum fermentation dryer to produce compost, it is possible to remove odors generated in the process of composting, the production amount is high, and the quality of the produced compost is excellent.

In addition, the present invention can produce high-quality compost through a process of re-fermenting at an appropriate temperature through a separate fermentation tank.

10: heat distribution plate 20: combustion chamber
30: drying room 32: viewing window
41: stirring furnace 50: excreta inlet pipe

Claims (1)

In the method of composting using animal carcasses, the first step: the animal carcasses that are put into one or more of dead pigs, wastesows, and dead chickens, and have a moisture content of 80-90% inside the vacuum fermentation dryer (100). The step of adding 100% based on the weight ratio, and the second step: an animal with a moisture content of 80-97% made of pig manure, cow manure, and chicken meal inside the vacuum fermentation dryer 100 into which the animal carcasses were inserted. 700-1500% of excrement in proportion to the weight ratio of the animal carcasses, sawdust with a moisture content of 55-70%, 150-250% in proportion to the weight ratio of the animal carcasses, and vacuum fermentation dryer 100 A step of drying and decomposing while stirring at a temperature of 70-80℃ in the drying chamber 30, and the third step: a fermentation tank 70 through which air passes by transferring the decomposition product having an initial moisture content of 45-65% of the vacuum fermentation dryer 100 Composting of animal carcasses using a vacuum fermentation dryer and vacuum fermentation dryer, characterized by forming useful compost from decaying animal carcasses consisting of steps of heating at 40-60℃ and fermenting for 15-30 days to complete compost. Treatment method.

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