KR20140080712A - The manufacturing method of carbon and pyroligneous liquor by carbonizing a palm shell continuously - Google Patents

Abstract

The present invention relates to a method for producing carbon and pyroligneous liquor by continuously carbonizing a palm shell, wherein, more specifically, a shell of a fruit seed, which is one of the byproducts generated during a palm oil extraction process, is used as a raw material for continuous carbonization in order to be provided as a raw material of charcoal or activated carbon, and gas that is generated during the carbonization process is condensed in order to produce pyroligneous liquor.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0002] The present invention relates to a method for producing carbon and wood vinegar by continuous carbonization of a palm shell,

The present invention relates to a method for producing carbon by continuously carbonizing a shell, which is the shell of a fruit seed, as a raw material among the by-products generated in the process of extracting palm oil, and at the same time condensing smoke generated during the carbonization process to continuously produce a wood vinegar , That is, a method of continuously carbonizing a palm shell to produce carbon and wood vinegar.

The oil palm extracts the oil contained in the pulp of palm kernel fruit grown in tropical regions such as Indonesia, Malaysia, Thailand and Nigeria to obtain palm oil.

Hundreds of palm trees are clustered together in bunch stalks to form a bunch, which weighs about 20 kilograms.

Each palm fruit is made up of external flesh and hard nuts, which consist of a hard shell and an internal kernel.

Palm oil is rich in oil in the flesh and seeds of the palm. Palm oil is extracted from the pulp, and kernel oil is extracted from the seed.

In addition, palm oil is better known as a commodity harvested in many parts of East Asia, the Middle East, and the continent of Africa (oil palm refers to the plant and palm oil refers to the oil produced by it)

On the other hand, after oiling the oil in the oil palm, shells of the fruit seeds of the by-products were generated, which were not treated in a satisfactory manner in most cases.

The most preferred method of disposal is incineration, which is problematic in that it causes a lot of pollution. In another method, the oil palm shell is simply deposited in the area around the crop to be decayed or degraded. Typically, Was not satisfactory because it tends to accumulate at a faster rate than the decay rate.

In addition, the oil palm shell is difficult to biodegrade by microorganisms and takes a long time.

Therefore, in some cases, a method of making an oil palm shell as a fertilizer has been developed for recycling the oil palm shell, but the production method is not efficient or the produced product is not economically useful.

Therefore, in recent years, palm char is used in which anion emission and far-infrared emission are emitted higher than wood charcoal.

The palm char is referred to as "palm char," "palm kar," or "barbecue char," meaning that the shell of the palm fruit is carbonized.

These palm charcoal has advantages such as easy to purchase raw materials compared to wood charcoal, low cost because it can be produced continuously, and it is advantageous to use environmentally friendly by using by-product of oil palm without cutting trees to produce charcoal.

However, as a method of producing charcoal, a charcoal kiln, which is a conventional method for producing charcoal, is produced continuously, not continuously. Therefore, every time it is produced, the quality is changed according to conditions such as temperature, temperature, There is a problem that it is not possible to uniformly adjust the quality and the production amount because it is possible to adjust it evenly by the operator's skillful sense.

Patent Application No. 1999-3408 entitled " Loess Charcoal Using Natural Coconut Fruit "

In order to solve the above-mentioned problems, the present invention provides a method for environmentally treating a palm shell, which is a by-product generated in the step of extracting palm oil, in a process for producing carbon, The quality of the carbon to be produced is uniform, and the smoke generated in the carbonization process is condensed to continuously produce the wood vinegar.

In order to solve the above problems, the present invention is characterized in that the smoke generated in the process of carbonizing and supplying the palm shell into the rotary kiln is subjected to a dust collecting process to remove dust and impurities through the first and second dust collectors, After cooling, the wood vinegar is produced, and the wood vinegar is separated from the tar and taken out. After the precipitation process is completed, the wood vinegar is completed and the cooled air is discharged. The carbon which has been supplied into the rotary kiln and carbonized is cooled with water- And cooled to 60 ° C or below. The mixture is supplied to a screening machine, screened by screen, classified by size, and carbon adsorbed on the screen is pulverized by grinding and then screened again. , The dust generated in the sorting process and the rotary kiln are discharged through the carbonization process The air removed by the dust collecting the dust discharged from the process of ejecting a small water-cooled condenser is by carbonizing a palm shell, characterized in that for discharging the chimney continuously provides a method for producing a carbon and wood vinegar.

INDUSTRIAL APPLICABILITY As described above, the present invention can continuously carbonize palm shells and continuously produce carbon and wood vinegar, so that the temperature, the amount of raw materials,

And the like can be adjusted evenly to continuous production without depending on the skilled sense of the operator, and the quality and production amount can be adjusted to be constant, which is very useful in mass production.

Therefore, the carbon produced by continuous carbonization of the palm shell is effective as a raw material for activated carbon or a raw material for forming charcoal.

In addition, the vinegar is effective in promoting bacterial growth and physiologically promoting plant growth, strengthening roots, and eliminating various insects such as flies and mosquitoes due to its unique smell, and secondly purifying wood vinegar. And it is effective to provide an environmentally friendly product which is very useful as a base material of organic farming rather than a chemical method.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a process chart showing a method of continuously carbonizing a palm shell of the present invention to produce carbon and wood vinegar. FIG.
2 is a flow chart showing a method of continuously carbonizing a palm shell of the present invention to produce activated carbon and wood vinegar.

In order to achieve the above objects and effects, the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a process diagram showing a method of continuously carbonizing a palm shell of the present invention to produce carbon and wood vinegar. FIG. 2 shows a method of continuously carbonizing the palm shell of the present invention to produce carbon and wood vinegar It is the flowchart shown.

The present invention is a method capable of continuously producing carbon and wood vinegar while carbonizing a palm shell.

As a method of continuously carbonizing the palm shell to produce carbon and wood vinegar, a palm shell, which is a shell of fruit seed, is supplied to the raw material tank 1 from the by-products generated in the step of extracting palm oil.

When the raw material tank 1 is supplied with a predetermined amount of the palm shell by a conveying screw provided therein, the screw conveyor is supplied through the phosphorous chamber 3 of the rotary kiln 2, and at this time, Is preferably located up to 0.5 m inside the rotary kiln (2) for continuous feeding of the palm shell.

The rotary kiln 2 is provided with an in-chamber 3 and an out-chamber 4 at both left and right ends, and a rotary kiln 2 ) Is carbonized at a temperature of 600 to 800 ° C while being rotated at a minimum of 0.2 rpm to 3.8 rpm by an inverter mounted on a drive motor in an inclined state.

On the other hand, in the out chamber 4 of the rotary kiln 2, the internal temperature is raised to 250 DEG C in a state where the burner 5 made of diesel fuel is mounted, and then the burner 5 is stopped, ), The inside of the palm shell was ignited 10 minutes later and gradually tilted to the out chamber (4). When the temperature rose to 400 ° C, the oxygen supply to the rotary kiln (2) was stopped and the Palm shell Prevent ashes from becoming red, 800 < 0 > C to carry out a carbonization process, and then the out chamber 4 is opened to discharge oxygen to the water-cooled cooler 6 so that the carbon is incinerated.

Since the internal temperature of the rotary kiln 2 is maintained at 450 ° C. or higher within 24 hours after the completion of the carbonization process, the rotary kiln 2 can be reused without heating the burner 5, The process can produce carbon.

Meanwhile, the smoke generated in the carbonization process is discharged from the phosphorus chamber 3 through the flue connected to the coated phosphorus chamber 3 to the primary dust collector 9, and the dust discharged from the primary dust collector 9 And the impurities are firstly collected by the cyclone method, and then the smoke is discharged to the second dust collector 9 '.

The smoke collected by the first dust collection is discharged to the second dust collector 9 'and the dust and impurities are discharged to the water-cooled condenser 10 through the second dust collection process by the cyclone method, Production.

The produced wood vinegar is separated from tar and supplied to a sedimentation tank 13 to be precipitated to complete a wood vinegar solution.

The smoke discharged after being cooled in the water-cooled condenser 10 is sucked by the turbo fan 12 and discharged to the chimney 11, and the discharged air is dusted several times to minimize environmental pollution.

The carbon that has been ignited through the carbonization step is sealed in the phosphorus chamber 3 and the out chamber 4 to shut the oxygen supply to the inside of the rotary kiln 2 and open the out chamber 4, (6).

The water-cooled cooler 6 is composed of a water tank and a water pump, and circulates cooling water to cool the high-temperature carbon to 60 ° C or lower so that screen sorting can be performed.

The carbon that has undergone the cooling process is supplied to the sorting device 8 for sorting and screened by screen operation.

In addition, the carbon that has been screened through the screening step is sent to the crusher 7, is crushed in the crusher 7, is supplied to the separator 8 again, is screened,

The dust and impurities generated during the sorting operation in the sorting device 8 and the dust generated in discharging the carbon by opening the out chamber 4 are collected by the carbon dust collector 14 and then the filtered air passes through the chimney 11 ' So that there is no pollution.

Therefore, the carbon produced by continuous carbonization of the palm shell of the present invention can be used as a raw material of activated carbon or as a raw material of char, and the wood vinegar can be used as fertilizer or pesticide.

1: raw material tank 2: rotary kiln
3: In chamber 4: Out chamber
5: Burner 6: Water-cooled cooler
7: Grinder 8: Selector
9, 9 ': primary and secondary dust collectors 10: water-cooled condenser
11, 11 ': Chimney 12, 12': Turbo fan
13: settling paper 14: carbon dust collector

Claims (3)

Supplying a plam shell, which is a shell of fruit seed, out of the by-products generated in the step of extracting palm oil to a raw material tank; Wow
Supplying the palm shell to the rotary kiln by supplying a predetermined amount of the palm shell to a screw conveyor provided outside by the feed screw installed in the raw material tank; Wow
The rotary kiln forms an in-chamber and an out-chamber at both ends of the left and right sides, and the pump chamber is opened by opening the chamber, the rotary kiln is rotated at the lowest 0.2 rpm Carbonization at a temperature of up to 800 DEG C while rotating at about 3.8 rpm; Wow
Discharging the smoke generated in the carbonization process to the primary chamber by the primary chamber; Wow
Collecting dust and impurities discharged from the primary dust collector; Wow
Discharging the primary collected dust to a secondary dust collector and collecting the collected secondary dust; Wow
The smoke after the second dust collecting process is discharged to a water-cooled condenser and cooled to produce wood vinegar; Wow
Separating and precipitating the produced wood vinegar with tar; Wow
Discharging the smoke after being cooled in the water-cooled condenser to a chimney; Wow
The carbon being ignited through the carbonization step is sealed in the in-chamber and out-chamber, the oxygen is shut off into the rotary kiln, the incinerator is opened, and the out chamber is opened to discharge the coolant into the water-cooled cooler; Wow
Cooling the carbon in a high-temperature state to 60 ° C or less so that screen sorting can be performed in the water-cooled cooler; Wow
The carbon that has undergone the cooling process is supplied to a sorter for sorting and screened by a screen operation; Wow
Passing the carbon filtered by the screen through the screening step to a crusher and crushing it in a crusher; Wow
Wherein the pulverized carbon is supplied to a sorter, re-screened, and packed with sorted carbon by size; Wow
Collecting particulates and impurities generated during the sorting operation in the sorter, and dust generated when discharging the carbon by opening the out chamber; Wow
And discharging the filtered air through the dust collecting process to a chimney. The method of manufacturing carbon and wood vinegar by continuously carbonizing the palm shell.
The rotary kiln as set forth in claim 1, wherein the rotary kiln is heated by a burner only at an internal temperature of up to 250 ° C and then subjected to a carbonization process at a temperature rising to 800 ° C by ignition of a palm shell without heating, Characterized in that the rotary kiln can be continuously used without heating of the separate burner, as long as it does not stop for more than an hour.
[2] The method of claim 1, wherein the primary and secondary dust collectors collect dust in a cyclone manner.

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