KR100553244B1 - A manufacturing method of powdered cokes using substitute fuel - Google Patents

Abstract

The present invention provides a method for preparing powder coke for use as an alternative fuel for anthracite (PCI-COAL) used in blast furnaces of steel mills by recycling sedimentation coke and powder coke, which are wastes generated during an industrial process, wherein the sedimentation coke and powder coke Collecting the coke and drying the collected coke by passing the collected coke through an interior of a dryer generating hot air at a temperature of 100 to 200 ° C., and putting the dried coke into an impact mill. Process (c), the step of screening only the particle size of 100mesh or more out of the pulverized coke, and repeating the coke of 100mesh or less from the pulverized coke through the c ~ d process again to have a particle size of 100mesh or more The present invention provides a powder coke for use as an alternative fuel consisting of the process (e) to be processed and a method for producing the same. Sedimentation coke and powdered coke, which were classified as phase waste and disposed of or left in a yard, have been limited in their use through a series of processes to replace anthracite (PCI-COAL) in blast furnaces such as steel mills. It can be used as a fuel that can generate huge economic benefits from import substitution effect. In addition, the present invention can be used as a fuel to replace the anthracite coal as well as bituminous coal and oil has the advantage of maximizing the use efficiency and utilization range of the alternative fuel. In particular, the present invention is to be able to recycle the sedimentation coke and powder coke that contaminated the surrounding environment is a very useful invention having the advantage of minimizing environmental pollution as well as recycling of resources.

Powder, Settler, Coke, Recycled, Anthracite, Bituminous Coal, PCI-COAL, Oil, Alternative, Fuel

Description

A manufacturing method of powdered cokes using substitute fuel

The present invention relates to a powder coke for use as an alternative fuel and a method for manufacturing the same, and more particularly, to process the coke, which is a waste generated in various industrial processes to have a constant particle size to increase the ignition efficiency to the blast furnace, kiln, drying furnace Powder coke and its manufacturing method to be used as a substitute fuel that can be recycled to a heat source such as a boiler, a boiler, and can replace an anthracite coal that is imported and used. It is to provide.

In general, cokes are porous solid fuels produced by high temperature dry distillation of coal (coking coal) and are a heat source essential for the steel mill and steel industry. These cokes are manufactured and cooled, Powdered coke is produced in the form of powder due to shock and vibration during transportation. At this time, the powdered coke contains a large amount of carbon as a useful component, but its small particle size can impair the air permeability, which is a requirement of coke, and air. Among them, there is a fear of scattering, which causes problems that cannot be used as it is.

In particular, in the process of manufacturing coke in steel mills, sedimentation coke and powder coke are generated about 120,000 MT per year. However, these cokes have been stored in separate yards for a long time because there is no special use in steel mills. Due to the large amount of dust generated, it polluted the air, and in particular, it was discharged to the ocean as it is in rainy weather with rainwater, thereby providing the main cause of polluting the ocean.

Moreover, this discharged coke depleted dissolved oxygen in seawater, causing asphyxiation of marine life, or directly destroying the habitat of marine life, causing serious problems that shake the roots of marine ecosystems.

On the other hand, some of the powder coke is used as a fuel or steelmaking charcoal in the sinter plant, but this is only a very small amount compared to the total amount of powder coke, and as a result, the waste coke is recycled as a high value-added resource. The way to do this is more urgently needed than ever.

Therefore, the present inventors analyzed the components of the powder coke and found that the raw material composition is almost the same as the anthracite coal imported from abroad, and the calorific value is high, so it is suitable to be used as a fuel to replace the anthracite coal. In addition, it was deemed desirable for the high value-adding of waste resources.

The main components of the powder coke and anthracite are shown in Table 1.

As compared with anthracite and powder coke, some properties and calorific value are higher, so there is no problem in blast furnace operation when replacing anthracite coal. When anthracite coal is used as an ignition type, a problem arises in that the utilization range and use efficiency of the fuel are extremely limited due to the lowering of the ignition efficiency.

Therefore, the present invention was conceived to recycle the coke classified as waste in accordance with the environmental law as described above for use as an alternative fuel for anthracite coal, the present invention is the ignition efficiency through a series of processes of drying, grinding, and sorting the coke to be discarded It is to provide a powder coke and a method for manufacturing the same for increasing the recycle to an heat source that can replace anthracite coal.

The powder coke production method for use as an alternative fuel of the present invention for achieving the above object is described for each process as follows.

The present invention provides a method for producing powder coke for use as an alternative fuel for anthracite (PCI-COAL) used in blast furnaces of steel mills by recycling sedimentation coke and powder coke, which are wastes generated during industrial processes.

Collecting the precipitated coke and powdered coke (a),

(B) drying the collected coke through an interior of a dryer for generating hot air at a temperature of 100 to 200 ° C., and

(C) putting the dried coke into a pulverizer of impact crushing method, and pulverizing;

(D) selecting only the particle size of 100mesh or more from the pulverized coke,

Among the pulverized coke, the coke of 100 mesh or less is repeatedly processed through the above c to d process, and the process is performed to have a particle size of 100 mesh or more.

The powder coke manufacturing method for use as an alternative fuel of the present invention having the above characteristics will be described in detail by dividing each process as follows.

<Collection process>

The sedimentation coke and powder coke used in the present invention are by-products usually produced in the coke manufacturing process of steel mills, and are mainly composed of 85% by weight or more of fixed carbon and 11% by weight or more of ash. As soon as is generated, it is stored in a separate storage tank and transported to a subsequent process using a transport vehicle again.

At this time, it is preferable that the transport vehicle uses a truck provided with a sealed loading box to prevent scattering.

Therefore, a separate yard and port dock for storing coke is not required, thereby improving utilization efficiency of the yard and dock, and minimizing environmental pollution caused by weather changes and coke during rainy weather.

<Drying process>

In the present invention, the drying process is a process for removing the water contained in the collected sedimentation coke and powder coke, in particular, in the wet digestion process directly compared to the powder coke generated in the CDQ (Coke Dry Quenching) It is to increase the efficiency of the grinding process by completely removing the water contained in the sedimentation coke precipitated in the water.

In other words, if the coke for the crushing process contains moisture, it is impossible to grind to have a constant particle size, and the overload and unnecessary energy consumption of the apparatus are inevitably increased, resulting in a decrease in productivity and a rise in manufacturing price. Because.

To this end, in the present invention, the collected coke passes through the interior of a dryer equipped with a hot air blower, and at the same time, moisture contained in the coke evaporates due to hot air generated from the hot air blower to complete the drying process.

At this time, the internal hot air temperature of the drying furnace is preferably maintained within the range of 100 ~ 200 ° C, because the 100 ° C or less usually takes about 20 to 30 minutes to pass the collected coke through the dryer completely dry during this time As a result, the processing efficiency and the quality of the coke were deteriorated. On the contrary, when the temperature is 200 ° C. or higher, the deterioration of productivity and the economic cost are increased due to the oil cost and unnecessary waste of heat energy compared to the drying efficiency. .

<Grinding process>

In the present invention, the pulverization process is a very important process for utilizing as a fuel that can replace anthracite by increasing the combustion efficiency and ignition efficiency by pulverizing to a constant particle size of the dried coke.

The particle size (classification) and ratio of the powder coke before grinding are shown in Table 2.

As shown in Table 2 above, when checking the overall composition ratio of the dried powder coke by particle size, it was confirmed that most of them had a particle size of less than 100 mesh, and eventually, the ignition point of the powder coke having the same ratio was higher than that of anthracite coal. As a result, it was confirmed once again that the range and efficiency of use as heat sources were extremely limited.

Therefore, in order to increase the unit surface area of the coke and improve the ignition efficiency, the present inventors pulverized the dried powder coke and the sedimentation coke to have a particle size of 100 mesh or more, which means that the particle surface area of the coke decreases when the particle size is 100 mesh or less. This is because it is relatively high compared with anthracite and causes a problem that the value of an alternative heat source is substantially lost.

The ignition point for each particle size of the powder coke is shown in Table 3.

As shown in Table 3 above, when confirming the ignition point for each particle size of the powder coke, the ignition point is gradually increased as the reference point descends to 100mesh having a ignition point similar to that of the anthracite coal at 490 ° C. The pulverization criteria of the powdered coke and the sedimentation coke was confirmed that it is most preferable to grind to have a particle size of 100mesh or more.

On the other hand, in the present invention, the pulverizer for pulverizing the powder coke adopts the impact crushing method, which is generally because the HGI (Hardgrove Grindability Index) of anthracite coal is in the range of 80 ~ 85, whereas the coke's HGI is 34 ~ It has a range of 35, which is because when the vertical roller mill method used to grind a general anthracite coal, the wear caused by the extreme friction occurs to reduce the product value, therefore, in the present invention, the grinder has a reduction in wear rate and grinding effect It is desirable to adopt an impact crushing method that can be met at the same time.

At this time, since the impact pulverizer has various types and specifications, the operation principle and structure thereof may be easily applied by those skilled in the art, and thus the detailed description thereof will be omitted.

<Selection process>

In the present invention, the sorting process is to use only the powder coke having a particle size of 100 mesh or more as an alternative fuel by passing the pulverized powder coke through a classifier, wherein the powder coke of less than 100 mesh again passes the above grinding process and the sorting process By doing so, it can be produced to have a particle size of 100mesh or more.

Therefore, the powder coke having a particle size of 100 mesh or more is selected and stored in a storage tank (Silo), and the transport vehicle has the effect of being able to be used as a heat source to replace anthracite in blast furnaces, kilns, drying furnaces and boilers.

As described above, the present invention processes the sedimentation coke and powder coke, which are wastes generated in industrial processes, to replace the anthracite coal imported from abroad until now to have a particle size of 100 mesh or more, thereby increasing the unit surface area to maintain the same ignition point as the anthracite coal. In addition, it can be used as a fuel to replace anthracite coal such as kilns, drying furnaces, blast furnaces and boilers in steel mills and industrial sites. It can be.

Hereinafter, a device for preparing powder coke for use as an alternative fuel of the present invention will be described.

The present invention passes through the storage tank for the collection and storage of sedimentation coke and powder coke, which is a waste generated during the industrial process, and the coke collected in connection with the storage tank and generates hot air at a temperature of 100 ~ 200 ℃ A dryer for impact, a pulverizer of impact pulverization for pulverizing coke dried in connection with the dryer to have a particle size of 100 mesh or more, a sorter for selecting only coke having a particle size of 100 mesh or more in connection with the pulverizer, and the sorter It consists of a storage tank connected to collect and store the selected coke.

Therefore, powder coke having a particle size of 100 mesh or more produced through the serial manufacturing apparatus as described above can be used as an alternative fuel for blast furnaces, firing furnaces, drying furnaces, boilers, and the like.

Although the embodiment of the present invention has been described in detail as described above, the scope of the present invention is not limited thereto, and it is natural that the scope of the present invention is included in the scope of the present invention to a configuration that is substantially equivalent to the embodiment of the present invention. will be.

As such, the present invention relies on the importation of anthracite coal (PCI-) from blast furnaces, such as steel mills, depending on the total amount of sedimentation coke and powder coke, which are classified as waste according to environmental laws and disposed of or left unattended in a yard. COAL) can be used as a fuel that can be used as a substitute fuel, which can generate enormous economic benefits from import substitution effects.

In addition, the present invention can be used as a fuel to replace the anthracite coal as well as bituminous coal and oil has the advantage of maximizing the use efficiency and utilization range of the alternative fuel.

In particular, the present invention is to be able to recycle the sedimentation coke and powder coke that contaminated the surrounding environment is a very useful invention having the advantage of minimizing environmental pollution as well as recycling of resources.

Claims (2)

In the method of manufacturing powder coke for recycling the sedimentation coke and powder coke, which are wastes generated during the industrial process, to be used as an alternative fuel for anthracite (PCI-COAL) in the blast furnace of the steel mill, Collecting the precipitated coke and powdered coke (a), (B) drying the collected coke through an interior of a dryer for generating hot air at a temperature of 100 to 200 ° C., and (C) putting the dried coke into a pulverizer of impact crushing method, and pulverizing; (D) selecting only the particle size of 100mesh or more from the pulverized coke, The method for producing powder coke for use as an alternative fuel, characterized in that consisting of the step (e) of repeating the coke of less than 100mesh in the pulverized coke again through the c ~ d process to have a particle size of 100mesh or more. Alternative fuel, characterized in that manufactured by the manufacturing method of claim 1 to recycle the sedimentation coke and powder coke, which is a waste generated during the industrial process as an alternative fuel for anthracite (PCI-COAL) used in the blast furnace of the steelworks Powder coke for use.