KR101940088B1 - Screening method for bottom ash - Google Patents

Abstract

In the present invention, provided is a screening method for bottom ash, the screen method comprising: a first step of receiving and collecting bottom ash in coal ash burned at a power plant; a second step of selectively collecting bottom ash with a predetermined size using a first selection means, wherein the bottom ash is to be used as artificial soil; a third step of pulverizing bottom ash that is not selected in the second step by a crusher into a particle size of at least 20 mm or less; a fourth step of separately collecting, based on a predetermined particle size, the bottom ash pulverized by the crusher by using a second selection means as artificial soil and a material for mulching; and a fifth step of mixing a reinforcing agent with the bottom ash whose pH is alkaline among the bottom ash collected in any one of the second and fourth steps at a predetermined ratio to at least neutralize or acidify the bottom ash. According to the present invention, it is possible to separately collect, in at least one particle size range, all or most of bottom ash supplied from a power plant through collection and selection operations, thereby increasing recycling of resources. Particularly, during the selection operation, a reinforcing agent is added to fine particles with a high acidic level such that it is possible to collect the bottom ash with a lowered acidic level.

Description

{Screening method for bottom ash}

More particularly, the present invention relates to a method of sorting bottom ashes by collecting classified bottom ashes, and more particularly, to a method of sorting bottom ashes by blending the bottom ashes of specific grains having a high pH To a method of selecting a bottom ash that can be acidified.

Bottom ash generally refers to residual minerals that remain after the organic combustible components of coal are burned, generally ash (ash). Much of the fly ash is generated in thermal power plants, and it is also generated by combustion processes in waste incinerators, cogeneration plants and other industrial sites. Ash is a material that can be recycled as an inorganic material (eg, SiO ₂ , Al ₂ O ₃ , Fe ₂ O ₃ ) in that it is a residue of a combustible material. However, the fact that the unburnt carbon is included incidentally in the combustion process is always a problem in the technical application.

Such fly ash is classified into two types according to the particle size. When the particle size is less than 100 탆, it is fly ash and when it is more than that, it is treated as botton ash. Fly ash particles are scattered lightly, dispersed, collected by a dust collector together with combustion gas, and bottom ash is heavy and particles fall to the bottom of the combustion furnace. Since these coal fly ash is collected at different positions in the combustion facility, physical properties such as sintering state, density and particle size are different.

Of these, fly ash has improved in quality as power generation facilities have improved, and now more than 90% is being recycled as concrete admixture and cement raw material. On the other hand, the bottom ash that has fallen to the bottom of the boiler in the state where the particles are formed by sintering in the furnace and solidified by the cooling water is crushed to a particle size of 25 mm or less by using a crusher for transportation to the landfill.

Generally, the bottom ash shredded by the crusher has a particle size of about 1 ~ 10mm and 10 ~ 15% of total fly ash is generated. This bottom ash was mainly landfilled in the coal ash plant (company head) installed in the power plant. In the past, when the utilization rate of the land was high, the ash treatment was somewhat easy. However, It is relatively difficult to obtain a company headquarters that requires three to four times the plant space.

However, in the case of bottom ash, almost all of them are simply buried in landfills near the power plant, mixed with fly ash in inland or coastal landfills, and used in small quantities as a backfill material around the power plant. Therefore, not only the difficulty in securing the papermaking paper but also the problem of environmental pollution as a main material, has been a problem.

As a technique using bottom ash, an environmentally friendly concrete block composition (hereinafter, referred to as "Prior Art 1") using a bottom ash of Korean Registered Patent No. 10-1134221 has been registered.

Prior Art 1 relates to an environmentally friendly concrete block composition using a bottom ash in which a bottom ash mixed with a fine aggregate and a coarse aggregate is mixed with Portland cement to maintain durability, compressive strength, freezing and melting properties better.

As another technique using bottom ash, a water permeable composition for road pavement using a bottom ash of Korean Patent Registration No. 10-1038796 (hereinafter referred to as " Prior Art 2 "

Prior Art 2 relates to a water permeable composition for road pavement comprising a bottom ash characterized in that it comprises a cement based alkaline synthetic binder and slag cement, bottom ash, waste stone, loess and fluidizing agent.

As described above, Bottom ash has been utilized in various fields, and research and development on its utilization has been actively carried out.

Korean Patent Publication No. 10-1134221 Korean Patent No. 10-1038796

SUMMARY OF THE INVENTION The present invention has been made in order to overcome the limitations of the prior art described above, and it is an object of the present invention to provide a method and apparatus for collecting and sorting bottom ash supplied from a power plant, And to provide a bottom ash screening method capable of collecting lowering acidity by blending an antidote with fine particles having a high acidity during the screening process.

Another object of the present invention is to reduce the load on the crusher by selecting the bottom ash having a particle size of 0 to 6 mm or less in the bottom ash supplied from the power plant and crushing the bottom ash having a particle size of at least 20 mm or more to 20 mm or less in the crusher And to provide a bottom ash sorting method capable of maintaining the continuity of work and expecting an improvement in production amount.

Another object of the present invention is to provide a bottom ash sorting method capable of quickly and accurately collecting the bottom ash by at least one mouth only by its own weight since the bottom ash is collected through the gravity structure selection means.

It is still another object of the present invention to provide a bottom ash screening method capable of forming a stable growth environment of plants by presenting a detergent, which is blended with at least a fine-grained bottom ash having high acidity, as nutrients of plants.

Another object of the present invention is to provide a bottom ash having a particle size of at least 8 to 20 mm or less as a porous material, which can be used as a filler for topsoil, drainage material, mulching material, .

Another object of the present invention is to provide a crusher in which an inverter for adjusting the rotating speed of the impacting blade is provided to reduce the rotation speed of the impacting blade to reduce the impact and friction applied to the bottom ash to reduce dust generation and surface damage, And a method of selecting a bottom ash that can maintain light weight and moisture retention.

In order to accomplish the above-mentioned object, the present invention provides a method for producing coal ash, comprising: a first step of supplying and collecting bottom ash among coal ash burnt in a power plant; A second step of sorting and collecting bottom ashes of a specified size to be used as artificial soil through the first sorting means; A third step of crushing the bottom ash not selected in the second step to a particle size of at least 20 mm in the crusher; A fourth step of collecting the bottom ash crushed in the crusher through artificial soil and mulching, based on the specified particle size, through the second sorting means; And a fifth step of mixing at least one of the bottom ashes of the bottom ash collected in at least one of the second step and the fourth step with alkaline bottom ash at a predetermined ratio to neutralize or acidify the bottom ash And a method of selecting a bottom ash is provided.

The dust collecting step collects the bottom ash dust due to the friction impact in at least one of the steps selected from the first through the fifth steps.

The bottom ash for artificial soil collected in the fourth step may have a particle size of 0 to 8 mm.

The bottom ash for artificial soil is preferably at least 45 parts by weight of bottom ash having a particle size of 2 to 8 mm.

It is preferable that the detergent contains bark which is a natural acidic substance and is blended in a weight ratio or a volume ratio of 10 to 50% to bottom ash.

According to the present invention as described above, the bottom ash supplied from the power plant is collectively collected in at least one particle size through dust collecting and sorting operations, so that the recycling rate of resources can be increased and, in particular, It is possible to expect the effect of lowering the acidity by collecting the detergent.

In addition, since the bottom ash having a particle size of 0 to 6 mm or less is selected in the bottom ash supplied from a power plant, only the bottom ash having a particle size of at least 20 mm or more is crushed to 20 mm or less in the crusher. It is possible to expect an improvement in productivity.

In addition, since the bottom ash is collected through the selection means of the gravity structure, it is possible to quickly and accurately collect the bottom ash by at least one mouth alone.

In addition, the present invention can be expected to have an effect of providing a stable growth environment of plants by presenting a detergent, which is blended with at least a fine-grained bottom ash having high acidity, as nutrients of plants.

Further, the bottom ash having a particle size of at least 8 to 20 mm or less can be used as a porous material, and can be used as a filler for filling up the topsoil, the drainage material, the mulching material and the pores in the soil.

In addition, the present invention provides an inverter for controlling the rotation speed of the impact blades in the crusher, thereby reducing shock and friction applied to the bottom ash by reducing the rotation speed of the impact blades, thereby reducing dust generation and surface damage, An effect of maintaining the moisture retention can be expected.

1 is a flowchart illustrating a method of selecting a bottom ash according to an embodiment of the present invention,
FIG. 2 is a schematic view for explaining a selection process according to a preferred embodiment of the present invention,
3 is a schematic view for explaining an example of a blending part of a bottom ash and a descending agent according to a preferred embodiment of the present invention,
4 is a schematic view for explaining another example of a blending part of bottom ash and a descending agent according to a preferred embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

In describing the present invention, the defined terms are defined in consideration of the function of the present invention, and it can be changed according to the intention or custom of the technician working in the field, and the definition is based on the contents throughout this specification It should be reduced.

FIG. 1 is a flowchart illustrating a method of selecting a bottom ash according to an embodiment of the present invention, and FIG. 2 is a schematic diagram illustrating a selection process of the present invention.

More particularly, the present invention relates to a method of sorting bottom ashes by collecting and collecting bottom ashes according to use, The present invention relates to a method of sorting bottom ashes by increasing the recycling rate of resources and, more particularly, to a method for sorting bottom ashes by mixing with a descending agent for a specific particle size having a high pH, (100).

The present invention includes a first step of collecting the bottom ash, a second step of collecting and collecting the bottom ash of the specified particle size through the first sorting means, the third step of crushing the bottom ash not selected in the second step, And a fifth step of acidifying the bottom ash having a high acidity among the collected bottom ashes by collecting the broken bottom ash through at least one particle size by collecting through the second sorting means, It is preferable that the dust collecting device further comprises a dust collecting means that is conveyed through a dedicated conveying means and at least one stage in which dust is generated.

Meanwhile, since the conveying means is a conventional conveying means such as a belt conveyor or an elevator, a description thereof will be omitted.

The first step is a step of collecting the bottom ash among the coal ash burnt in the power plant through a transportation means such as a vehicle and collecting the bottom ash in the bottom of the house.

The first step further includes a dust collecting step of collecting the bottom ash dust due to the friction impact during the collecting process. The dust collecting step is performed through the dust collecting part 111 installed in the lower housing 110.

The dust collecting part 111 includes at least one dust collecting part. Through the dust collecting part 111, the bottom ash dust generated in the collecting process is scattered to the surroundings and prevents loss.

The bottom ash dust collected through the bottom portion 110 may be collected at a particle size of 0 to 8 mm and collected for an artificial soil or may be used as an artificial soil through the fifth step.

The second step is a step of collecting and collecting the bottom ash of a specific particle size among the bottom ashes supplied through the conveying means from the bottom of the house 110. The bottom ashes are collected through the first sorting means 120, And collecting the bottom ashes.

The first sorting means 120 means a gravity structure, that is, a structure selected by its own weight as shown in FIG. 2. This gravity structure does not require any additional power, and is particularly environmentally friendly, And is capable of quickly and accurately collecting the bottom ash in at least one particle size.

The first screening means 120 includes a first screen 121 having a mesh structure for screening bottom ashes having a size ranging from 0 to 6 mm among the bottom ashes supplied from the bottom portion 110, And a first collecting unit 123 collecting the bottom ashes selected through the first collecting unit.

At this time, though not shown, the first screen 121 is further provided with a vibrator, and can serve as a vibrating feeder. In other words, vibration is applied to the first screen 121 to double the bottom ash screening force, and the undetected bottom ash is moved to the conveying means.

The bottom ash collected through the first screen 121 is collected into the artificial soil in the first collecting part 123. However, in the case of the bottom ash, the smaller the particle size, the higher the acidity. Accordingly, in the case of at least the artificial soil, as shown in the figure, the fifth step of lowering the acidity to at least neutral or acidic by mixing the lowering agent with at least a part of the bottomsheash before or after collecting in the first collecting part 123 It is preferable to collect after roughing.

The first collecting part 123 is a receptacle to which the bottom ash is usable and is a receptacle of a predetermined unit. Preferably, the first collecting part 123 is a receptacle of a predetermined unit, , Ton back).

However, since the bottom ash has a higher acidity as the particle size is smaller, the use of the bottom ash of the first collecting unit 123 as an artificial soil adversely affects plant growth. Therefore, it is preferable that at least the alkaline bottom ash is converted into a neutral or acidic state through the fifth step and then used as an artificial soil.

The third step is a step of crushing the bottom ash. When the bottom ash having a particle size of about 20 mm or more, which is not collected by the first sorting means 120, is supplied through the conveying means,

In the third step, since the predetermined bottom ash is supplied through the second step, the load on the crusher 130 is reduced, and the continuity of the operation is maintained to improve the productivity.

The crusher 130 may be an impact crusher provided with an inverter 131 for adjusting the rotational speed of the impact blades 133. The crusher 130 may reduce the rotational speed of the impact blades 133 It is possible to minimize the occurrence of dust and surface damage by reducing the impact and friction applied to the bottom ash. In addition, since surface damage is minimized as porosity, it is possible to maximize the role when it is used for artificial soil or mulch materials as well as for drainage materials and fillers by increasing light weight and moisturizing property.

The bottom ash having a particle size of 20 mm or less crushed in the crusher 130 is supplied to the second sorting means 140 through the conveying means, and the fourth step is performed.

In the fourth step, the bottom ash supplied through the conveying means in the crusher 130 is sorted by at least one particle size through the second sorting means 140 and is collected for each particle size.

The second screening means 140 includes a second screen 141 having a mesh structure for screening bottom ashes having a particle size of 0 to 8 mm among the bottom ashes supplied from the crusher 130, A second collecting unit 143 for collecting the selected bottom ash and a third collecting unit 145 for collecting the bottom ash of 8 mm or more that are not selected in the second screen 141, Can be sorted by gravity using only the weight of the bottom ash without any separate power means, as in the case of the first sorting means (120).

The second screen 141 is for sorting the bottom ash of 0 to 8 mm and the bottom ash selected through the second screen 141 is accommodated in the second collecting part 143 and used as artificial soil. As in the case of bottom ash, the smaller the particle size, the higher the acidity. Therefore, in the case of at least the artificial soil, as shown in the figure, the fifth step of lowering the acidity to at least neutral or acidic by mixing the lowering agent to at least a part of the bottomshed before or after the collection in the second collecting part 143 It is preferable to collect after roughing.

Bottom ashes of 8 mm or more that are not selected on the second screen 141 are collected as a mulching material in the third collecting part 145 along the conveying means.

Bottom ash of 8 mm or more stored in the third collecting part 145 is collected as a mulching material without adjusting the acidity since the acidity is neutral or acidic. However, since the bottom ash has good porosity, It can also be used for applications.

Although not shown, the second screen 141 may further include a vibrator such as the first screen 121, which doubles the screening force of the bottom ash, increases the conveyance force of the undersubstance bottom ash Productivity can be expected to be improved.

The second collecting unit 143 and the third collecting unit 145 are receptors to which bottom ash is usable and are receptors of predetermined units. Preferably, It is preferable that the bag is a bag (for example, tone bag).

On the other hand, the raw material bottom ash received from the first power plant includes various sizes ranging from fine grain to 20 mm or more. The pH value (acidity) directly affects the growth of plants and the closer the pH value is to neutral, the more suitable for plant growth. Therefore, consideration should be given to the production of soils based on bottom ash. Accordingly, in the present invention, a process capable of reducing the pH value in raw material processing has been developed through trial and error in consideration of the characteristics of the bottom ash processing type.

Bottom ash has a higher pH depending on the particle size, and in particular, the lower the particle size as shown in Table 1, the higher the acidity.

Particle size (mm) Content ratio (%) pH [1: 5] 0.00 to 8.00 100.0 8.81 5.00 to 8.00 13.4 7.72 2.00 to 5.00 33.5 7.81 1.00 to 2.00 14.7 8.67 0.15 to 1.00 27.3 9.08 0.08 to 0.15 8.1 9.34 0 to 0.08 3.0 -

As described above, the lower the particle size of the bottom ash, the higher the acidity is. In particular, since less than 2 mm of the bottom ash is alkaline, it is not suitable for artificial soil.

As shown in Table 1, the bottom ash of 0 ~ 8mm in size is measured with 6 stages in 5 to 8mm, 2 to 5mm, 1 to 2mm, 0.15 to 1mm, 0.08 to 0.15mm and 0.08mm or less. And the result of the measurement of the content ratio and the pH of the sample. The pH value for 0 to 8 mm of the sample before separation was 8.81, and the pH value and the content ratio for each of the granules classified into 6 stages were as shown in Table 1.

Here, the bottom ash having a particle size of 8 mm or more is used as a mulching material or a drainage material (filling material) according to the processing shape, and a bottom ash having a particle size of 0 to 8 mm is used for producing artificial soil. Bottom ash of 8mm or more is not used as a vegetation base material in use (drainage material) or as a mulching material, it is not affected by the pH value because it is partially used on the vegetation base layer. However, bottom ash of 0 ~ It is necessary to consider the pH value.

When producing artificial soil based on 0 ~ 8mm bottom ash, alkaline soil affects the growth of plants. When using as a bottom ash alone, nutrients needed for plant growth are insufficient. Therefore, However, it is necessary to lower the pH value of the bottom ash to near neutrality when the mixing ratio with the organic material is changed according to the aspect of cost reduction to increase the price competitiveness of the product and the application.

Therefore, it is impossible to reduce the original pH value due to the characteristics of the bottom ash of the salt machine material. However, based on the results of the above tests, the bottom ash having a particle size of 2 to 8 mm, which has a neutral or weak alkaline characteristic, And to minimize the amount of microfibrils having a value of at least pH 8.5 at the process step.

The pH value of the bark (manure) and compost used as the mixed material in artificial soil production was 2.96 and 7.96, respectively. The bark was added with strong acidic material to improve the role of pH drop, organic matter supply, moisturization and drainage.

The present invention performs a process of converting an alkaline bottom ash having a small particle size to at least neutral or weak acid, and this process is performed through the fifth step.

The fifth step is a step of neutralizing or acidifying the alkaline bottom ash, and the alkaline bottom ash collected through the second and fourth steps is mixed with the lowering agent at a specified ratio in the mixing part 150 Which is at least neutralized or acidified.

The fifth step may be performed on the bottom ashes of the first collecting unit 123 and the second collecting unit 143, or may be performed selectively.

As shown in FIG. 3, when the first screen 121 and the second screen 141 are used, the first screen 121 and the second screen 141 are accommodated in the first collecting unit 123 and the second collecting unit 143, And at least one organic material selected from bark and fertilizer is added to the compounding part 150 together with the bottom ash and the lowering agent 150. At this time, Is preferably in a ratio of about 5: 5 to about 9: 1 by weight or by volume. Particularly, the present invention is characterized in that the degrading agent is not a chemical agent but a natural substance constituting the soil. This is based on the fact that the bottom ash generally has an alkalinity of about pH 9 or less in the range of 2 to 8 mm, and neutralizes the amount of the upper range according to the acidity of the bottom ash. In particular, the bottom ash having a size of 2 to 8 mm has a weight ratio of at least 45% of the bottom ash of 0 to 8 mm.

These organic materials are supplied through the descending agent supply unit 160 and are uniformly mixed in the longitudinal direction along the screw 151 in the compounding unit 150 together with the bottom ash and received in the fourth collecting unit 153 as artificial soil.

At this time, the blending part 150 is not limited to a horizontal screw structure, and it is preferable that the blending part 150 is a conventional blending device used for kneading or mixing one or more materials, as well as a horizontal screw structure.

In addition, when selectively performed, only the alkaline bottom ash is selected in the first collecting unit 123 and the second collecting unit 143, and mixed with the descending agent in the compounding unit 150 to form the fourth collecting unit 153 .

On the other hand, the organic material mixed in the bottom ash is not limited to a detergent, preferably nutrients can be added, and the nutrients include at least one selected from herbal medicines, coffee beans, oyster shells, zeolite, cocoobit, .

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

100: sorting device 110:
111: dust collector 120: first sorting means
121: first screen 123: first collecting unit
130: Crusher 131: Inverter
133: impact blade 140: second sorting means
141: second screen 143: second collecting section
145: third collecting unit 150: mixing unit
151: screw 153: fourth collecting part
160:

Claims (5)

A first step of supplying and collecting bottom ash among coal ash burnt in a power plant;
A second step of sorting and collecting bottom ashes of a specified size to be used as artificial soil through the first sorting means;
A third step of crushing the bottom ash not selected in the second step to a particle size of at least 20 mm in the crusher;
A fourth step of sorting the bottom ash crushed in the crusher by artificial soil and mulching, based on the specified particle size, through the second sorting means; And
Further comprising the step of adding bark to the bottom ash selected as a natural substance lowering agent before being collected in at least one of the second step and the fourth step or having a pH of alkaline acidity (pH) of the collected bottom ash, And a fifth step of adding ash and bark at a ratio of 9: 1 by weight or volume. The method according to claim 1,
In at least one of the first to fifth steps,
And a dust collecting step of collecting bottom ash dust due to a friction impact. The method according to claim 1,
Wherein the artificial soil bottom ash has a bottom ash having a particle size of 2 to 8 mm of at least 45 parts by weight.

delete delete

Images