KR102166370B1 - Fly ash stabilization method using chelate injection - Google Patents

Abstract

The present invention is configured to simultaneously inject liquid slaked lime and a chelating agent into the combustion gas introduced into the interior of the semi-dry reaction tower for purification after incineration of waste, and separately collect and store fly ash during the purification treatment process of the combustion gas. And, it relates to a fly ash stabilization treatment method that can present a simplified process compared to the conventional method of stabilizing.
The method of stabilizing fly ash using chelating agent injection according to the present invention is an incineration step of incineration of the waste introduced into the incinerator. After processing, stabilizing the fly ash by spraying a chelating agent, and discharging the fly ash accumulated in the lower part to the outside, powdered slaked lime and activated carbon are added to the combustion gas flowing into the dry reaction tower through the first treatment step. The second treatment step of purifying another part of the harmful components by spraying, and the remaining fly ash contained in the combustion gas flowing into the filter dust collector through the second treatment step are collected by filtration using a filter and discharged to the outside. 3 Treatment step, the blowing step of inducing the combustion gas inside the filter dust collector using a manned blower and blowing it to the wet scrubbing tower, and spraying a caustic soda solution to the combustion gas flowing into the wet scrubbing tower to It characterized in that it comprises a fourth treatment step of purifying a part and a discharge step of discharging the combustion gas introduced into the stack through the fourth treatment step to the outside.

Description

Fly ash stabilization method using chelate injection}

The present invention relates to a method for stabilizing fly ash using chelating agent injection, and more specifically, liquid slaked lime and a chelating agent are simultaneously added to the combustion gas introduced into the interior of a semi-dry reaction tower for purification treatment after it is generated by incineration of waste. It is configured to inject, it relates to a fly ash stabilization treatment method capable of presenting a simplified process compared to the conventional method of separately collecting and storing and stabilizing fly ash during the purification treatment process of combustion gas.

As one of the efforts to protect the environment, various household wastes generated at home and industrial wastes generated at industrial sites are partially recycled through separate collection, and wastes that cannot be recycled such as separate collection are landfilled, It is being treated by sea discharge and incineration.

However, such a method of landfilling wastes requires an enormous amount of land for landfilling and at the same time has a problem of causing soil pollution, and the method of discharging wastes to the sea has problems such as causing marine pollution, so the waste is incinerated. Although the treatment method is mainly used, there is a problem that air pollution is caused by combustion products such as combustion gases and dust of harmful components generated when the waste is incinerated.

Therefore, by installing a semi-dry reaction tower, a dry reaction tower, a filter dust collector, and a wet scrubbing tower in the incineration facility that incinerates waste, harmful components such as hydrogen chloride, sulfur oxides, and dioxins are removed from the combustion gas. The collected fly ash is stabilized using a cement solidification method, a melt treatment method, a chelate treatment method, etc., and then treated by a method such as landfill.

On the other hand, conventional inventions related to a method of stabilizing and treating fly ash include “stabilization treatment method for incinerated fly ash” in Korean Patent Publication No. 10-0506331, and “Fly ash treatment method and uses thereof” in Korean Patent Publication No. 10-2025350 ”And “stabilization apparatus and stabilization method for combustion fly ash” of Korean Patent Application Publication No. 10-2020-0003651 have been proposed and disclosed.

In the “stabilization treatment method of incineration fly ash” of the Korean Patent Publication No. 10-0506331, waste acid generated by industries is used instead of using expensive neutralizing acid to neutralize the waste alkali obtained after the treatment of incineration fly ash generated in a waste incinerator. By using, an invention has been proposed for a method for stabilizing incineration fly ash economically, and the “fly ash treatment method and its use” of Korean Patent Publication No. 10-2025350 includes a neutralizing agent and sodalite, which are acid solutions in the reactor, Invention related to a method for facilitating handling for disposal by converting fly ash classified as designated waste into general waste and solidifying it at the same time by adding and mixing an inorganic solidifying agent including hematite and magnesite, etc. Was proposed.

In addition, in the "stabilization device and stabilization method for combustion fly ash" of the Korean Patent Application Publication No. 10-2020-0003651, the method of dividing the fly ash generated in the combustion facility into boiler ash and fly ash and constantly putting it into the stabilizing device is used. Thus, by making the quality of the solidified fly ash uniform, an apparatus and method for minimizing environmental pollution by fly ash has been proposed.

However, in the conventional techniques including the above-described conventional inventions, the process of purifying the combustion gas generated in the process of incineration of waste and the process of stabilizing the fly ash collected in the process are configured to be separated into separate processes. In addition, there is a problem that the entire process of purifying and treating combustion gases is complicated, such as a storage tank for storing the collected fly ash, and a separate equipment for stabilizing fly ash such as a mixer for mixing the fly ash, and a considerable cost is incurred.

Therefore, in order to solve such a problem, a process of purifying the combustion gas and the process of stabilizing the fly ash collected in the process are separated into separate processes. In this situation, there is a need for an invention regarding a method that can reduce the burdened cost.

Republic of Korea Patent Publication No. 10-0506331 (2005. 07. 28) Korean Patent Publication No. 10-2025350 (2019. 09. 19) Republic of Korea Patent Publication No. 10-2020-0003651 (2020. 01. 10)

The method for stabilizing fly ash using chelating agent injection according to the present invention is a technology proposed to solve the above problems,

Conventional techniques are commonly configured to separate the process of purifying the combustion gas generated in the process of incineration of waste and the process of stabilizing the fly ash collected in the process to be separated into separate processes.

The solution to this problem is that the entire process of purifying and treating combustion gases is complicated, such as the need to separately equip a storage tank for storing the collected fly ash and a mixer for mixing fly ash. Its purpose is to present.

The present invention is to achieve the above object,

An incineration step of incineration of the waste introduced into the incinerator; A first treatment step of purifying some of the harmful components by spraying liquid slaked lime into the combustion gas introduced into the semi-dry reaction tower, stabilizing the fly ash by spraying a chelating agent, and discharging the fly ash accumulated in the lower part to the outside; A second treatment step of purifying another part of harmful components by spraying powdered slaked lime and activated carbon into the combustion gas flowing into the dry reaction tower through the first treatment step; A third treatment step of collecting the remaining fly ash contained in the combustion gas flowing into the filter dust collector through the second treatment step through a filtration method using a filter and discharging it to the outside; A blowing step of inducing the combustion gas inside the filter dust collector using a manned blower and blowing air to the wet cleaning tower; A fourth treatment step of purifying another part of the harmful components by spraying a caustic soda solution to the combustion gas introduced into the wet cleaning tower; And a discharge step of discharging the combustion gas introduced into the stack through the fourth treatment step to the outside. It presents a method for stabilizing fly ash using chelating agent injection, characterized in that it comprises a.

In addition, the present invention includes a mixing treatment step of mixing and discharging fly ash discharged to the outside of the semi-dry reaction tower in the first treatment step and fly ash discharged to the outside of the filter dust collector in the third treatment step. It characterized in that it is configured.

A method for stabilizing fly ash using chelating agent injection according to the present invention,

In the process of purifying the combustion gas generated by the incineration of waste, the composition of injecting liquid slaked lime and a chelating agent into the combustion gas flowing into the semi-dry reaction tower is proposed. By allowing the solidification treatment of fly ash to occur in the same space, there is an effect of realizing cost reduction due to simplification of the entire process.

1 is a flow chart showing in order each step of a method for stabilizing fly ash using a chelating agent injection according to the present invention.
2 is a block diagram showing the configuration of an incineration facility in which the present invention is implemented and components input for the treatment of combustion gas.
3 is a flow chart showing each step of the present invention in order according to an embodiment.
Figure 4 is a flow chart showing in order each step of the present invention according to another embodiment.

The present invention relates to a method for stabilizing fly ash using chelating drug injection,

As shown in FIG. 1, an incineration step 100 of incineration treatment of waste introduced into the incinerator; The first treatment step of purifying some of the harmful components by spraying liquid slaked lime into the combustion gas flowing into the semi-dry reaction tower, stabilizing the fly ash by spraying a chelating agent, and discharging the fly ash accumulated in the lower part to the outside ( 110); A second treatment step 120 of purifying another part of harmful components by spraying powdered slaked lime and activated carbon into the combustion gas introduced into the dry reaction tower through the first treatment step 110; A third treatment step 130 of collecting the remaining fly ash contained in the combustion gas flowing into the filter dust collector through the second treatment step 120 through a filtration method using a filter and discharging it to the outside; A blowing step (140) of inducing the combustion gas inside the filter dust collector using a manned blower and blowing air to the wet cleaning tower; A fourth treatment step 150 of purifying another part of harmful components by spraying a caustic soda solution to the combustion gas flowing into the wet cleaning tower; And a discharge step 160 of discharging the combustion gas introduced into the flue through the fourth treatment step 150 to the outside. It relates to a fly ash stabilization treatment method using a chelating agent injection, characterized in that configured to include.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

First, the incineration step 100 is a step of incineration of non-recyclable wastes, such as various household wastes generated at home and industrial wastes generated at industrial sites.

To this end, in the incineration facility where each step according to the present invention is performed, an incinerator for incineration of waste must be installed, a waste storage warehouse in which waste before incineration is stored, a conveyor device for transferring the stored waste to the incinerator, etc. Can be.

At this time, in the incineration facility for incineration of waste, a semi-dry reaction tower, a dry reaction tower, a filter dust collector, and a wet scrubbing tower for purifying and treating the combustion gas generated by the incineration of the waste in the incinerator are sequentially as shown in FIG. It is generally installed, and a manned blower for blowing the combustion gas inside the filter dust collector to the wet cleaning tower and a stack for discharging the purified combustion gas to the outside may be further installed.

Accordingly, the combustion gas generated in the incinerator is introduced into the interior of the semi-dry reaction tower and is first purified, and after the first purification is performed, it is introduced into the interior of the dry reaction tower and is secondarily purified, followed by second purification. The filter is introduced into the interior of the filter dust collector and subjected to the third purification treatment, followed by the third purification treatment, and then introduced into the interior of the wet cleaning tower, followed by the fourth purification treatment.

Specifically, the first treatment step 110 is a step of purifying the combustion gas first. As shown in FIG. 2, liquid slaked lime is injected into the combustion gas flowing into the semi-dry reaction tower, It characterized in that it comprises a purification treatment process of purifying a part, a stabilizing treatment process of stabilizing fly ash by spraying a chelating agent into the combustion gas, and a discharge process of discharging the fly ash accumulated in the lower part to the outside.

In other words, among the harmful components contained in the combustion gas introduced into the semi-dry reaction tower, harmful components such as hydrogen chloride and sulfur oxide can be purified by liquid slaked lime, and a significant amount of fly ash contained in the combustion gas is added to the chelating agent. By stabilizing treatment, the bottom of the semi-dry reaction tower can be discharged to the outside after the fly ash, which can be stabilized and classified as general waste, is accumulated.

As described above, since the fly ash discharged to the outside of the semi-dry reaction tower may be classified as general waste rather than designated waste containing heavy metals, the present invention relates to conventional techniques configured to discharge fly ash classified as designated waste. Compared with the above, the ease of treatment of the discharged fly ash and the reduction of the treatment cost are simultaneously achieved.

That is, the conventional techniques are configured to separate the process of purifying the combustion gas generated in the process of incineration of waste and the process of stabilizing the collected fly ash in separate processes, so the collected fly ash is stored. There is a problem in that the entire process of purifying and treating combustion gas is complicated, such as having to separately equip a fly ash stabilization equipment such as a storage tank and a mixer for mixing fly ash, and incur a considerable cost.

On the contrary, the present invention proposes a configuration in which the purification treatment of harmful components contained in the combustion gas and the stabilization treatment of fly ash occur in the same space, thereby simplifying the entire process and reducing the cost due to the simplification of the entire process. The effect that can realize is to occur.

Meanwhile, it is preferable that at least one spray nozzle for spraying liquid slaked lime and at least one spray nozzle for spraying a chelating agent are separately provided on the upper side of the semi-dry reaction tower.

At this time, as the spraying method using each spray nozzle, a simultaneous spraying method of liquid slaked lime and a chelating agent may be used, but a sequential spraying method in which the liquid slaked lime is sprayed for a certain time and then the chelating agent is sprayed for a certain time is used. desirable.

Therefore, in the semi-dry reaction tower, after the purification treatment of the combustion gas by the liquid slaked lime sprayed at the priority level occurs, stabilization treatment of the fly ash by the chelating agent injected at the lower priority occurs, and before the injection of the chelating agent One or more spray nozzles for injecting air may be additionally provided for the purpose of improving the stabilization efficiency by spraying the chelating agent by scattering the sunken fly ash again.

At this time, one or more spray nozzles additionally provided below the semi-dry reaction tower to inject air are separate from conventional spray nozzles provided for injecting air from the upper side of the semi-dry reaction tower.

As an embodiment of the present invention, in the interior of the semi-dry reaction tower, the liquid slaked lime is injected first and the chelating agent is injected in the second order, but after the injection of the liquid slaked lime, the air is injected from the lower side before the chelating agent is injected. The injection of air may be stopped at the same time as the injection of the chelating agent, or the injection of air may be stopped several seconds after the chelating agent is injected.

In addition, the second treatment step 120 is a step of purifying the combustion gas secondly, and as shown in FIG. 2, powdered slaked lime and powdered lime in the combustion gas introduced into the inside of the dry reaction tower through the semi-dry reaction tower. It is characterized in that it is configured to purify some of the harmful components other than the harmful components such as hydrogen chloride and sulfur oxide, which have already been removed among the harmful components included in the combustion gas by spraying activated carbon.

That is, among the harmful components contained in the combustion gas flowing into the dry reaction tower, harmful components such as dioxins are adsorbed and purified by powdered slaked lime and activated carbon sprayed into the dry reaction tower. There is no external discharge of the remaining fly ash.

On the other hand, as shown in Figure 3, the present invention is a heat recovery step 101 of installing a waste heat boiler between the incinerator and the semi-dry reaction tower, and recovering the waste heat of the combustion gas flowing into the inside of the waste heat boiler. It can be configured to include.

That is, the combustion gas generated in the incinerator is in a state of having high-temperature heat due to combustion, but loses all the high-temperature heat in the purification process by the semi-dry reaction tower, dry reaction tower, filter dust collector, and wet cleaning tower. , In the present invention, by installing a waste heat boiler between the incinerator and the semi-dry reaction tower to recover waste heat, the recovered waste heat can be usefully used for generation of steam.

In addition, the third processing step 130 is a step of purifying the combustion gas in a third manner, and the remaining fly ash contained in the combustion gas that has passed through the dry reaction tower and introduced into the filter dust collector is filtered using a filter. It is characterized in that it is configured to be discharged to the outside after collecting dust.

That is, the combustion gas introduced into the filter dust collector goes through the first treatment step 110 and the second treatment step 120 in order, and harmful components such as hydrogen chloride, sulfur oxide, and dioxin are removed, and a significant amount Although the fly ash has been removed, a certain amount of fly ash that has not been removed may remain.

Accordingly, in the third processing step 130, all fly ash remaining in the combustion gas is collected inside the filter dust collector, and the collected fly ash is discharged to the outside of the filter dust collector in the same manner as the semi-dry reaction tower.

At this time, the fly ash that is stabilized in the semi-dry reaction tower and discharged to the outside and the fly ash discharged to the outside of the filter dust collector may be treated separately, but as shown in FIG. 4, the present invention provides the first treatment step ( It may comprise a mixing treatment step 131 of mixing and discharging the fly ash discharged to the outside of the semi-dry reaction tower in 110) and the fly ash discharged to the outside of the filter dust collector in the third treatment step 130.

That is, as described above, in the conventional techniques, fly ash discharged to the outside of the semi-dry reaction tower contains heavy metals, so it is classified as designated waste, but is discharged to the outside of the semi-dry reaction tower in the first treatment step (110). Fly ash is stabilized by chelating agents and can be classified as general waste.

However, most of the fly ash discharged to the outside of the filter dust collector in the third treatment step 130 may be classified as general waste, but a small amount of heavy metal-containing fly ash that has been moved to the dry reaction tower without stabilization may be included. , In the present invention, the fly ash discharged to the outside of the semi-dry reaction tower and the fly ash discharged to the outside of the filter dust collector are mixed and treated, so that a small amount of fly ash containing heavy metals can be stabilized by the chelating agent component remaining in the fly ash. have.

Therefore, in the incineration facility in which each step according to the present invention is performed, a transfer conveyor for transferring fly ash discharged to the outside of the semi-dry reaction tower, a transfer conveyor for transferring fly ash discharged to the outside of the filter dust collector, and mixing the transferred fly ash A mixing chamber provided with a stirrer may be further installed, and one or more spray nozzles capable of further spraying a small amount of a chelating agent may be provided inside the mixing chamber.

On the other hand, the combustion gas in the state of being purified inside the filter dust collector is drawn toward the manned blower and then blown to the wet cleaning tower, and this step is referred to as a blowing step 140.

In addition, the fourth treatment step 150 is a step of purifying the combustion gas four times, and in this step, as shown in FIG. 2, a caustic soda solution is injected into the combustion gas introduced into the wet cleaning tower. It characterized in that it is configured to purify another part of the harmful ingredients.

That is, the acid component contained in the combustion gas flowing into the wet cleaning tower is neutralized by a caustic soda solution, and the combustion gas is discharged to the outside by finalizing the purification process in the wet cleaning tower. do.

Thereafter, the combustion gas in the state of being finally purified inside the wet scrubber is introduced into the stack and then discharged to the outside, and such a step is referred to as a discharge step 160.

The embodiments introduced above are provided by way of example in order to sufficiently convey the technical idea of the present invention to those of ordinary skill in the technical field to which the present invention pertains, and the present invention is based on the above-described embodiments. It is not limited and may be embodied in other forms.

In addition, the same reference numbers throughout the specification indicate the same elements.

100: incineration step
101: heat recovery step
110: first processing step
120: second processing step
130: third processing step
131: mixing processing step
140: blowing stage
150: fourth processing step
160: discharge step

Claims (4)

Incineration step (100) of incineration treatment of the waste introduced into the incinerator;
The first treatment step of purifying some of the harmful components by spraying liquid slaked lime into the combustion gas flowing into the semi-dry reaction tower, stabilizing the fly ash by spraying a chelating agent, and discharging the fly ash accumulated in the lower part to the outside ( 110);
A second treatment step 120 of purifying another part of harmful components by spraying powdered slaked lime and activated carbon into the combustion gas introduced into the dry reaction tower through the first treatment step 110;
A third treatment step 130 of collecting the remaining fly ash contained in the combustion gas flowing into the filter dust collector through the second treatment step 120 through a filtration method using a filter and discharging it to the outside;
A blowing step (140) of inducing the combustion gas inside the filter dust collector using a manned blower and blowing air to the wet cleaning tower;
A fourth treatment step 150 of purifying another part of harmful components by spraying a caustic soda solution to the combustion gas flowing into the wet cleaning tower; And,
A discharge step 160 of discharging the combustion gas introduced into the stack through the fourth treatment step 150 to the outside; It is composed including,
At least one spray nozzle for spraying liquid slaked lime and at least one spray nozzle for spraying a chelating agent are separately provided in the upper side of the semi-dry reaction tower,
After the senior spraying of the liquid slaked lime, the chelating agent is configured to spray the secondary,
Fly ash stabilization treatment method using chelating agent injection, characterized in that it is configured to be provided with one or more spray nozzles for injecting air to re-disperse the sunken fly ash before injection of the chelating agent on the lower side of the semi-dry reaction tower.
delete The method of claim 1,
The fly ash stabilization treatment method using the chelating agent injection,
By installing a waste heat boiler between the incinerator and the semi-dry reaction tower,
Fly ash stabilization treatment method using a chelating agent injection, characterized in that it comprises a heat recovery step 101 of recovering the waste heat of the combustion gas introduced into the waste heat boiler.
The method of claim 1,
The fly ash stabilization treatment method using the chelating agent injection,
Fly ash discharged to the outside of the semi-dry reaction tower in the first treatment step 110,
And a mixing treatment step (131) of mixing and discharging the fly ash discharged to the outside of the filter dust collector in the third treatment step (130).

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