KR102180572B1 - Method for manufacturing formed charcoal using semi-carbonized wood powder and formed charcoal manufactured thereby - Google Patents

Abstract

The present invention relates to a method for producing shaped charcoal using semi-carbonized wood powder to facilitate ignition and combustion by containing semi-carbonized wood powder and to minimize the generation of harmful combustion gases while making the combustion time relatively long. A wood chip manufacturing step of pulverizing the silver wood into chip form to produce wood chips; A superheated steam semi-carbonization step of placing the wood chips in a semi-carbonization facility and heating with superheated steam of 250 to 400 degrees Celsius to semi-carbonize them to produce semi-carbonized chips; Producing half-carbonized wood powder by pulverizing the half-carbonized chips into powder; Mixing a natural adhesive to form a mixture by adding a natural adhesive to the semi-carbonized wood powder, stirring, and homogeneously mixing; Putting the mixture in which the natural adhesive is mixed into a molding mold, and pressing the mixture at a high temperature to produce molding charcoal; Include.

Description

BACKGROUND OF THE INVENTION (Method FOR MANUFACTURING FORMED CHARCOAL USING SEMI-CARBONIZED WOOD POWDER AND FORMED CHARCOAL MANUFACTURED THEREBY}

The present invention relates to a method for manufacturing shaped charcoal, and more particularly, to a semi-carbonized wood powder containing semi-carbonized wood powder to facilitate ignition and combustion, and to minimize the generation of harmful combustion gases while making the combustion time relatively long. It relates to a method for producing shaped charcoal using and to a shaped charcoal manufactured thereby.

In general, it is estimated that the carbonization of wood began about 5,000 years ago, and with the development of the industry, the carbonization industry of wood has also developed rapidly. The carbonization of wood refers to a chemical change made by pyrolyzing various organic compounds that make up wood into other substances.

Charcoal is called charcoal and is manufactured by carbonizing wood to more than 90% by weight. Such charcoal has been mainly used as a base material for various fuels in the past, but in recent years, it is widely used as a main fuel for grilling meat in restaurants and the like with the improvement of living standards.

Typically, gas fires and charcoal fires have been mainly used as fuels for grilling meat, and although gas fires are relatively excellent in convenience, the use of charcoal fires is increasing significantly in response to consumers' desire to enjoy a taste close to nature.

In recent years, efforts have been made to further improve the function of charcoal. For example, thermal coal and formed charcoal using sawdust, bark, rice hull, etc. are manufactured and used as fuel for charcoal grilling in homes or restaurants.

Such shaped charcoal is formed by selecting sawdust, rice husk, bark powder, etc., drying it to less than 10% moisture, forming with a molding machine, and heating it to carbonize a hexagonal or octagonal shape with a hole in the center. Formed charcoal is suitable as a fuel for cooking and home, and is also used as a raw material for carbon disulfide for industrial use.

However, the prior art as described above has the following problems.

Conventional charcoal is relatively excellent in ignition and combustion, but burns relatively quickly, resulting in a short combustion time. In order to manufacture charcoal, there is a problem in that a large amount of wood must be burned.

In addition, conventionally formed charcoal manufactured from sawdust, etc., has a relatively long combustion time compared to charcoal, but it is inconvenient to use in restaurants, etc. because ignition and combustion are relatively poor, and the degree of carbonization is relatively low, so that a lot of harmful combustion gases are generated. There was a problem.

Registered Patent No. 1550538 "Molded charcoal without harm" (2015.08.31.)

Accordingly, the present invention was devised to solve the problems of the prior art,

An object of the present invention is a method for producing shaped charcoal using semi-carbonized wood powder to facilitate ignition and combustion by containing semi-carbonized wood powder and to minimize the generation of harmful combustion gases while making the combustion time relatively long and manufactured thereby It is to provide molded charcoal.

In order to achieve the above object, the "formed charcoal manufacturing method using half-carbonized wood flour" according to the present invention includes a wood chip manufacturing step of manufacturing wood chips by pulverizing wood into chips; A superheated steam semi-carbonization step of placing the wood chips in a semi-carbonization facility and heating with superheated steam of 250 to 400 degrees Celsius to semi-carbonize them to produce semi-carbonized chips; Producing half-carbonized wood powder by pulverizing the half-carbonized chips into powder; Mixing a natural adhesive to form a mixture by adding a natural adhesive to the semi-carbonized wood powder, stirring, and homogeneously mixing; Putting the mixture in which the natural adhesive is mixed into a molding mold, and pressing the mixture at a high temperature to produce molding charcoal; It characterized in that it includes.

In addition, the natural adhesive of the "formed charcoal manufacturing method using half-carbonized wood powder" according to the present invention is any one of starch, gelatin, glue, agar, coco peat, or a mixture of two or more, and the semi-carbonization facility is a combustion gas The wood chip is provided with a hollow combustion section through which the gas passes, an overheated steam generator that is formed on the outer circumference of the combustion section to generate overheated steam, and the overheated steam supplied from the overheated steam generator while the wood chip is falling downward. Characterized in that it comprises a semi-carbonization unit for producing semi-carbonized chips by spraying and continuously heating and semi-carbonizing the wood chips, and a separation and discharge unit for separating and discharging the semi-carbonized chips manufactured through the semi-carbonization unit from superheated steam. do.

In addition, in the superheated steam half-carbonization step of the "formed charcoal production method using half-carbonized wood powder" according to the present invention, an oxygen-free atmosphere is formed inside the half-carbonization facility so as to prevent combustion of the wood chips during the half-carbonization process. The process of forming an oxygen-free atmosphere, the process of separating the superheated steam from the semi-carbonization chip when the semi-carbonization chip is completed, and the superheated steam used as a heat source by recycling the separated superheated steam to the semi-carbonization facility It characterized in that it further comprises a recirculation process and an impurity removal process of removing tar and sap contained in the superheated steam during recirculation of the superheated steam.

In addition, in the superheated steam semi-carbonization step of the "formed charcoal manufacturing method using semi-carbonized wood flour" according to the present invention, after the superheated steam separation process, the semi-carbonized chip from which the superheated steam is separated is placed in a chamber in an oxygen-free atmosphere. And injecting nitrogen gas at room temperature into the chamber to cool the semi-carbonized chips in a state in which combustion is blocked.

In addition, the "formed charcoal manufacturing method using half-carbonized wood powder" according to the present invention is a step of applying a complexing agent to dry after applying a liquid complexing agent to the outer surface of the formed charcoal after the forming of the formed charcoal To; It characterized in that it further includes.

The present invention, as described above, contains semi-carbonized wood powder so that ignition and combustion are smoothly performed, the combustion time is relatively long, the generation of harmful combustion gases is minimized, and accordingly, safety and convenience in use are improved. Has an effect.

Figure 1 is a step diagram showing a method for manufacturing formed charcoal according to the present invention,
2 is a schematic configuration diagram of a semi-carbonization facility used in the manufacturing method of the present invention,
Figure 3 is an enlarged longitudinal sectional view of the main part of the anti-carbonization facility according to Figure 2;

Hereinafter, a preferred embodiment of the present invention will be described in more detail with reference to the accompanying drawings. However, it should be understood that the present invention may be implemented in a number of different forms and is not limited to the described embodiments.

Figure 1 is a step diagram showing a method for producing shaped charcoal according to the present invention. As shown, in the method of manufacturing molded charcoal using half-carbonized wood powder according to the present invention, a wood chip manufacturing step (S10) of crushing wood to produce wood chips, and half-carbonization by half-carbonizing the wood chips with superheated steam. Superheated steam half-carbonization step (S20) to generate chips, half-carbonized wood powder generation step (S30) of producing half-carbonized wood powder by pulverizing the half-carbonized chips, and natural adhesive mixing of a natural adhesive to the half-carbonized wood powder And a step (S40) and a step (S50) of producing shaped charcoal by pressing the mixture in which the natural adhesive is mixed at a high temperature.

The wood chip manufacturing step (S10) refers to a step of manufacturing wood chips by pulverizing wood, especially green wood, into chips. This step is to pulverize the wood to be half-carbonized into chips of about 1 cm so that drying and half-carbonization of the wood can be smoothly and quickly performed.

Here, as the wood, various types of wood, such as general wood, domestic thinning wood, domestic small hardwood, disease-damaged wood, general waste wood, construction waste wood, industrial waste wood, etc., can be used, and in particular, thinning wood, damaged wood, or waste wood is recycled. It is most desirable to do it.

The superheated steam semi-carbonization step (S20) refers to a step of producing semi-carbonization chips by placing the wood chips in a semi-carbonization facility and heating them with superheated steam at 250 to 400 degrees Celsius. This step is to heat the wood chips with high-temperature superheated steam and carbonize them in a state that is not completely carbonized, i.e., about half, so that the ignition and combustion of the wood are well performed, and the combustion time is prolonged by containing the non-carbonized wood part. .

The semi-carbonization facility is formed on the outer circumferential surface of the hollow combustion unit 1 through which combustion gas passes as shown schematically in Figs. 2 and 3 to generate superheated steam. The superheated steam supplied from the superheated steam generating unit 2 is sprayed onto the wood chip while the wood chip is dropped to the lower part 2 and the wood chip is continuously heated and semi-carbonized to produce a semi-carbonized chip. It includes a semi-carbonization unit 3, and a separation and discharge unit 5 for separating and discharging the semi-carbonized chips manufactured through the semi-carbonization unit 3 from superheated steam.

The superheated steam separated and discharged from the separating and discharging part 5 is recycled to the superheated steam generating part 2 and supplied after the tar and sap are removed through the impurity removing part 6.

As shown in FIG. 3, the anti-carbonization part 3 rotates the hollow body 31 while the superheated steam is horizontally sprayed along the inside of the hollow body 31. The wood chips 101 in the hollow body 31 are pushed upward by the wings 32 attached to the surface and then fall from the top, and in this way, the wood chips 101 fall horizontally. It is heated by superheated steam that is sprayed to achieve half-carbonization.

The present manufacturing method includes a process of forming an oxygen-free atmosphere in the interior of the semi-carbonization facility to prevent combustion of the wood chips during the semi-carbonization process in the superheated steam semi-carbonization step (S20), and the generation of the semi-carbonization chips. Upon completion, a superheated steam separation process for separating the semi-carbonization chip and superheated steam, a superheated steam recycling process used as a heat source by recirculating the separated superheated steam to the semi-carbonization facility, and the superheating during the recirculation of the superheated steam It further includes a process of removing impurities to remove tar and sap contained in the steam.

In the process of forming an oxygen-free atmosphere, the air inside the hollow body 31 in which the wood chips are half-carbonized is discharged to the outside and then sealed to form an oxygen-free atmosphere inside the hollow body to form a high-temperature overheating during the half-carbonization of the wood chips. It serves to prevent or block the combustion of wood chips by steam.

The superheated steam separation process, superheated steam recirculation process, and impurity removal process are performed by the separation and discharge unit 5 and the impurity removing unit 6, and after removing impurities from the separated superheated steam, the superheated steam generation unit 2 ) To be recycled and reused as a heating source to save energy.

In this manufacturing method, in the superheated steam semi-carbonization step (S20), after the superheated steam separation process, the semi-carbonized chip from which the superheated steam is separated is put into a chamber in an oxygen-free atmosphere, and nitrogen gas at room temperature is injected into the chamber to combust. It further includes a semi-carbonization chip cooling process of cooling the semi-carbonization chip in a state where is blocked.

In the process of cooling the anti-carbonization chip, nitrogen gas is continuously injected into the chamber instead of external air containing oxygen, so that the high-temperature semi-carbonization chip is not ignited or burned in an oxygen-free atmosphere and quickly returns to room temperature. It is to be able to cool.

The semi-carbonized wood powder generating step (S30) refers to a step of pulverizing the semi-carbonized wood chips into powder to generate semi-carbonized wood powder. This step is to pulverize the semi-carburized chips so that they can be easily and homogeneously mixed with natural adhesives, while making the product molding smoothly with formed charcoal.

The natural adhesive mixing step (S40) refers to a step of homogeneously mixing by adding a natural adhesive to the semi-carbonized wood powder and stirring to form a mixture. This step is to solidify the semi-carbonized powder with a natural adhesive so that it can be molded into a shaped charcoal product.

Here, the natural adhesive may be any one of starch, gelatin, glue, agar, coco peat, or a mixture of two or more. The starch, gelatin, glue, and agar are liquid or gel substances, and the coco peat is a powder substance. In particular, the coco peat is useful for solidifying the semi-carbonized wood powder into a lump while being mixed into powder and pressed at a high temperature.

The forming charcoal manufacturing step (S50) refers to a step of manufacturing forming charcoal by putting the mixture in which the natural adhesive is mixed into a forming mold and pressing at a high temperature. This step is a known molding process in which the mixture is put in a high-temperature molding mold to produce molded charcoal, and at the same time, moisture contained in the natural adhesive is removed.

As described above, the formed charcoal manufactured by the present manufacturing method is made of semi-carbonized powder of a natural material and a natural adhesive of a natural material, so that no artificial synthetic material is added to minimize the generation of harmful gases during combustion.

The present manufacturing method further includes a step of applying a complexing agent (S60) of drying after applying a liquid complexing agent to the outer surface of the formed charcoal after the manufacturing step (S50) of the formed charcoal. This step is to apply a complexing agent to the formed charcoal so that it can be used as a ignited coal. Here, the ignition charcoal acts as a ignition to easily ignite charcoal or the like.

The complexing agent may be used in various forms such as oil form, gel form, liquid form, powder form, and may include materials such as ignition oil and explosives, and it is preferable to use natural materials in accordance with the spirit of the present invention.

Although the preferred embodiment of the present invention has been described above, the present invention can use various changes, modifications, and equivalents. It is clear that the present invention can be applied in the same manner by appropriately modifying the above embodiments. Therefore, the above description does not limit the scope of the present invention determined by the limits of the following claims.

Meanwhile, although specific embodiments have been described in the detailed description of the present invention, it will be apparent to those of ordinary skill in the art that various modifications can be made without departing from the scope of the present invention.

Claims (6)

A wood chip manufacturing step of pulverizing wood into chips to produce wood chips;
A superheated steam semi-carbonization step of placing the wood chips in a semi-carbonization facility and heating with superheated steam of 250 to 400 degrees Celsius to semi-carbonize them to produce semi-carbonized chips;
Producing half-carbonized wood powder by pulverizing the half-carbonized chips into powder;
Mixing a natural adhesive to form a mixture by adding a natural adhesive to the semi-carbonized wood powder, stirring, and homogeneously mixing;
Putting the mixture in which the natural adhesive is mixed into a molding mold, and pressing the mixture at a high temperature to produce molding charcoal; Including,
The natural adhesive,
It is a mixture of gelatin, glue, agar, and coco peat,
The anti-carbonization facility,
A hollow combustion section through which combustion gas passes,
A superheated steam generation unit formed on the outer peripheral surface of the combustion unit to generate superheated steam,
A semi-carbonization unit for manufacturing a semi-carbonization chip by continuously heating and semi-carbonizing the wood chip by spraying superheated steam supplied from the superheated steam generation unit onto the wood chip while the wood chip is falling downward,
And a separation and discharge unit for separating and discharging the semi-carbonized chips manufactured through the semi-carbonized unit from superheated steam.
delete The method of claim 1,
In the superheated steam half-carbonization step,
An oxygen-free atmosphere forming process of forming an oxygen-free atmosphere inside the semi-carbonization facility so as to prevent combustion of the wood chips during the semi-carbonization process,
When the generation of the semi-carbonized chip is completed, a superheated steam separation process of separating the semi-carbonized chip from the superheated steam,
A process of recycling superheated steam used as a heat source by recycling the separated superheated steam to the semi-carbonization facility,
An impurity removal process of removing tar and sap contained in the superheated steam during recirculation of the superheated steam,
Formed charcoal manufacturing method using half-carbonized wood powder, characterized in that it further comprises.
The method of claim 3,
In the superheated steam half-carbonization step,
After the process of separating the superheated steam, the semi-carbonized chip from which the superheated steam is separated is placed in a chamber in an oxygen-free atmosphere, and nitrogen gas at room temperature is injected into the chamber to cool the semi-carbonized chip in a state where combustion is blocked. Carbonization chip cooling process,
Formed charcoal manufacturing method using half-carbonized wood powder, characterized in that it further comprises.
The method of claim 1,
The manufacturing method,
After the forming of the formed charcoal, a complexing agent application step of applying a liquid complexing agent to the outer surface of the formed charcoal and then drying it;
Formed charcoal manufacturing method using half-carbonized wood powder, characterized in that it further comprises.
It is manufactured by the manufacturing method of claim 1, and contains semi-carbonized wood powder and a natural adhesive,
The natural adhesive,
Formed charcoal, characterized in that it is a mixture of gelatin, glue, agar, and coco peat.

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