KR101065792B1 - Purification method and purifier for contaminated soils using microwaves - Google Patents

Abstract

According to the present invention, both the drying and pyrolysis of contaminated soil are made by using high-frequency heating and high-efficiency ultra-high frequency, thereby reducing the time for purifying contaminated soil and increasing the purification efficiency. The present invention relates to a soil purifier and a method for purifying the soil, the apparatus for purifying contaminated soil using ultra-high frequency, comprising: a microwave dryer for drying contaminated soil to remove moisture and waste gas; A mixer for mixing the contaminated soil dried in the microwave dryer and the ultrahigh frequency susceptor; The mixer comprises a high frequency pyrolysis device that directly heats the contaminated soil mixed with the ultra high frequency susceptor to ultra high frequency to thermally desorb and thermally decompose nonvolatile organic components into a gas, and the purification method includes (a) using high frequency contaminated soil. Heating to remove moisture and volatile and semivolatile gases, followed by drying; (b) mixing a susceptor to promote absorption of microwaves in the dried contaminated soil; (c) directly heating the dried contaminated soil mixed with the susceptor to ultra-high frequency to thermally desorb and pyrolyze nonvolatile organic components into a gas to produce purified soil.

Pollution, soil, purification, microwave, susceptor, pyrolysis, thermal desorption, organic components

Description

Purification method and purification method for polluted soil using ultra high frequency {Purification method and purifier for contaminated soils using microwaves}

The present invention relates to an apparatus for purifying contaminated soil using ultra high frequency and a method of purifying the same. More specifically, the contaminated soil contaminated with various oils, heavy metals and organic wastes is dried using ultra high frequency, and the susceptor is dried on the contaminated soil. After mixing, the present invention relates to an apparatus and a method for purifying the purified soil by thermal desorption or pyrolysis using ultra-high frequency.

Recently, human civilization has developed due to the rapid development of science and technology, which has greatly improved the convenience of human living environment.

However, due to the development of human civilization, the generation of various pollutants and wastes is accompanied, and these pollutants and wastes provide a problem that the biological living environment becomes more devastated by destroying the natural environment.

In order to improve the biological living environment, the human race has been continuously conducting research to reduce the pollutants and wastes and to make the treatment more effective.

On the other hand, the pollutants and wastes are often buried in the soil or discarded without permission, contaminating the soil causing great problems for the ecosystem, although the soil has its own natural purification function, the purification is very If it takes too long, and the pollution degree is serious, the natural purification function is lost, there was a problem that becomes a serious environmental problem.

Thus, conventionally, an apparatus and method for artificially purifying contaminated soil using a thermal desorption system have been proposed and utilized.

Here, the thermal desorption system is a device that separates and removes contaminants contained in a contaminated medium by a thermal desorption reaction, and burns contaminants by directly heating soil that is a contaminated medium to a high temperature.

However, conventionally used thermal desorption system by heating the contaminated soil directly in the air to separate and oxidize the pollutants, water and air vapor in the soil interferes with the combustion of the pollutants pollutants contained in the contaminated soil There was a problem of incomplete combustion. Of course, such incomplete combustion generates a large amount of exhaust gas containing various pollutants, and since such exhaust gas contains environmental pollutants that cause air pollution, the conventional thermal desorption system has a problem of aggravating air pollution. .

Accordingly, in order to solve the above problems, 'polluted soil purification system' is applied and registered to suppress the generation of exhaust gas, which is an air pollution source, and to perform efficient purification work during the soil-based cleaning process of the heating method. (10-847058).

The polluted soil purification system, as shown in Fig. 1, the dryer 10 for drying the contaminated soil and separating and discharging waste gas generated during drying from the contaminated soil; A pyrolysis apparatus 20 for indirectly heating the dried contaminated soil in a sealed state to separate the contaminated soil into purified soil and pyrolysis gas, and then separately separating and discharging the purified soil and pyrolysis gas; A transfer fan 30 for forcibly transferring the discharged pyrolysis gas; A burner 40 for oxidizing the waste gas discharged from the dryer and the pyrolysis gas forcedly transferred from the transfer fan to heat the pyrolysis apparatus; It comprises a cooling facility 50 for cooling by spraying the cooling water directly to the discharged purified soil.

Here, the dryer is a microwave dryer is applied by drying the microwave irradiation, the microwave is heated at a high speed, because the characteristics of the microwave can not be raised by heating the temperature of the interior space above the evaporation temperature (100 ~ 120) of the moisture Despite its advantages and efficiency, it was used only as a dryer for evaporating moisture.

Therefore, a separate pyrolysis device (20) consisting of a chamber having a predetermined space is provided, and after sending the contaminated soil dried by the dryer (10) to the pyrolysis device (20), waste gas from the dryer (10) and By indirectly heating the chamber at a high temperature with oxygen as the heat source, the organic substances contained in the contaminated soil had to be pyrolyzed and removed.

In other words, the conventional 'Soil Pollution Purification System' does not directly heat the polluted soil existing in the chamber of the pyrolysis (20) device, but raises the temperature by indirectly applying heat by raising the ambient air temperature. As a result of the pyrolysis, the thermal efficiency is not good, and the reaction rate of the pyrolysis is slow, so that the time for purifying the contaminated soil is very long.

The present invention has been made in view of the above-mentioned problems, by making the drying and pyrolysis of the contaminated soil by using a high frequency capable of high-speed heating and high efficiency, to shorten the time to purify the contaminated soil, An object of the present invention is to provide a contaminated soil purification apparatus using ultra-high frequency and its purification method to increase the purification efficiency.

Here, when pyrolyzing the contaminated soil using the ultra-high frequency, by mixing a susceptor capable of absorbing the ultra-high frequency well to increase the temperature, the ultra-high frequency so that the contaminated soil is directly heated to a higher temperature and eventually increase the purification efficiency It is an object of the present invention to provide a contaminated soil purification apparatus and its purification method.

Contaminated soil purification apparatus using ultra-high frequency according to the present invention for achieving the above object, Ultra-high frequency dryer for drying the contaminated soil by heating by ultra-high frequency to remove moisture and volatile and semi-volatile waste gas; A mixer for mixing the contaminated soil dried in the microwave dryer and the ultrahigh frequency susceptor; And a high frequency pyrolysis device for directly heating the contaminated soil mixed with the ultra high frequency susceptor in the mixer to ultra high frequency to purify the contaminated soil by thermal desorption and pyrolysis of nonvolatile organic components with gas.

Here, the ultra-high frequency dryer, it is made of a chamber capable of sealing with a certain space, it is preferable that a conveying means for transferring the contaminated soil introduced therein.

In addition, one side of the microwave dryer is preferably formed with an inlet for introducing contaminated soil, and the other side is preferably formed with an outlet for discharging dried contaminated soil, more preferably between the microwave dryer and the inlet, The screw-type transfer unit is installed to prevent the unit from being fed into the microwave oven in a packed state.

In addition, the ultra-high frequency dryer is preferably provided with a single or a plurality of ultra-high frequency generating unit, a waste gas outlet for discharging the moisture and volatile and quasi-volatile waste gas generated by the soil contaminated by the heating by the ultra-high frequency is further installed. Do.

On the other hand, the mixer is installed so as to be in communication with the ultra-high frequency dryer, it is preferable that one side of the susceptor injector is installed to communicate.

Here, the susceptor supplied to the mixer from the susceptor injector, it is preferable to apply any one of metal powder, carbon, ferrite, silicon carbide, etc., in particular, to apply a magnetic material that is easy to recover from the purified soil It is desirable to.

In addition, it is preferable that the mixer and the ultra-high frequency pyrolyzer are communicatively installed by a connection part including an openable shield.

In addition, the ultra-high frequency pyrolyzer is provided with a single or a plurality of ultra-high frequency generating unit, the gas outlet for discharging the gas generated by the thermal desorption and pyrolysis of the non-volatile organic components contained in the contaminated soil by the heating by ultra-high frequency is installed. desirable.

Here, the gas outlet is connected to be supplied to the microwave dryer, it is preferable to be configured to more efficiently dry the contaminated soil in the microwave dryer.

In addition, the ultra-high frequency pyrolyzer is composed of a chamber capable of being sealed and having a predetermined space, and a transport means for transporting the contaminated soil to be purified therein is preferably provided. More preferably, the transport means is a set time. During the forward and reverse rotation is made possible.

In addition, the other portion of the portion where the connection portion is formed in the microwave pyrolyzer is formed with a discharge portion for discharging the purified soil to the outside, it is preferable that the opening and closing the shield is installed.

In addition, the contaminated soil purification apparatus using ultra-high frequency according to the present invention, a mixer for mixing contaminated soil and ultra-high frequency susceptor; Directly heating the contaminated soil mixed with the ultra high frequency susceptor in the mixer to ultra high frequency to remove moisture, volatile and semivolatile waste gases, and to dry, and to purify the contaminated soil by thermal desorption and pyrolysis of nonvolatile organic components with gas. It may be configured to include a high frequency pyrolysis device.

On the other hand, the method for purifying contaminated soil containing water and various organic components, (a) heating the contaminated soil using ultra-high frequency to remove moisture, volatile and semi-volatile gas and dried; (b) mixing a susceptor to promote absorption of microwaves in the dried contaminated soil; (c) directly heating the dried contaminated soil mixed with the susceptor to ultra-high frequency to thermally desorb and pyrolyze the nonvolatile organic component into a gas to produce a purified soil.

In this case, it is preferable to mix any susceptor among metal powder, carbon, ferrite, silicon carbide, and the like to the dried contaminated soil, and in particular, it is preferable to apply a magnetic material that can be easily recovered from the purified soil. .

In addition, the gas generated in the step (c) is, by heating the contaminated soil at a very high frequency to be supplied to the step of drying while removing moisture, volatile and semi-volatile gas, it is preferable to increase the efficiency of the drying step Do.

In addition, the method for purifying contaminated soil using ultra-high frequency according to the present invention comprises the steps of: (a) mixing a susceptor for promoting absorption of ultra-high frequency into contaminated soil; ; (b) directly heating the contaminated soil mixed with susceptors to ultra-high frequency to remove moisture, volatile and semi-volatile waste gases, and to dry them, and to thermally desorb and thermally decompose nonvolatile organic components into gases to produce purified soil. It may be.

As described above, according to the contaminated soil purification apparatus using ultra-high frequency and the purification method thereof according to the present invention, both the drying and pyrolysis of the contaminated soil is made by using high-frequency heating and high efficiency, high efficiency, There is a very useful effect that the purification efficiency is increased, such as shortening the purification time.

In particular, when pyrolyzing the contaminated soil using the ultra-high frequency, the susceptor that can absorb the ultra-high frequency well to increase the temperature is mixed, so that the contaminated soil is directly heated to a higher temperature, thereby increasing the purification efficiency. .

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

<First Embodiment>

2 is a configuration diagram of a contaminated soil purification apparatus using ultra high frequency according to a first embodiment of the present invention, and FIG. 3 schematically illustrates a process of purifying contaminated soil using ultra high frequency according to a second embodiment of the present invention. It is a block diagram.

As shown, the pollution soil purification apparatus 100 using ultra-high frequency according to the first embodiment of the present invention, the ultra-high frequency dryer 110 for drying the contaminated soil by heating by ultra-high frequency to remove moisture and volatile and semi-volatile waste gas (110) ), And a mixer 130 for mixing the contaminated soil dried in the microwave dryer and the ultrahigh frequency susceptor, and the contaminated soil mixed with the ultra high frequency susceptor in the mixer by directly heating at high frequency to heat desorption of nonvolatile organic components into gas. And a pyrolysis device 150 for pyrolysis to purify the contaminated soil.

The ultra-high frequency dryer 110 is composed of a sealable chamber 112 having a predetermined space, and the conveying means 114 for conveying the introduced contaminated soil is installed in the chamber.

Here, the conveying means 114 is preferably applied to the conveyor belt, so that the contaminated soil loaded on the conveying means 114 is evenly exposed to the ultra-high frequency, the conveying means 114 according to the forward, reverse rotation More preferably, the conveying direction is configured to be converted.

One side of the chamber 112 of the microwave dryer 110 is formed with an inlet port 120 into which contaminated soil is input, and an outlet port 124 through which the contaminated soil is discharged to the other side of the site where the inlet port 120 is installed. Is formed.

Between the inlet 120 and the chamber 112 of the microwave dryer 110, a transfer unit 122 for transferring the contaminated soil into the chamber 112 of the microwave dryer 110 is installed, the transfer unit 122 It is preferable that the contaminated soil is made of a screw type in order to prevent it from being transported in a state of agglomeration.

On the other hand, the single side or the plurality of ultra-high frequency generator 116 is provided on the chamber 112, the upper side of the microwave dryer 110, the transfer means in the furnace chamber 112 by the ultra-high frequency generator 116 ( A waste gas outlet 118 for discharging moisture and volatile and quasi-volatile waste gas generated as the contaminated soil loaded on the soil is dried is also provided.

The ultra-high frequency generating unit 116 is preferably a frequency of 915 MHz ± 25 MHz or 2450 MHz ± 50 MHz, but other frequencies are possible.

Here, the temperature at which the contaminated soil may rise due to the heating by the ultra-high frequency generating unit 116 is about 100 to 120 ° C., that is, 200 ° C. or less, so that only water, volatile and some semi-volatile waste gases contained in the contaminated soil evaporate. And drying takes place.

Therefore, in the microwave dryer 110, only the soil is dried, and most of the non-volatile organic components are included as it is. Thus, the dried soil containing the non-volatile organic components as described above discharge section 124 Is sent to the mixer 130 through.

On one side of the mixer 130, a susceptor injector 132 is installed to communicate with each other. The susceptor injector 132 contains a susceptor for absorbing ultra-high frequency and raising the temperature to a high temperature. Accordingly, the susceptor is introduced into the mixer 130.

Here, the susceptor may be provided with metal powder, carbon, ferrite, silicon carbide, etc. In addition, any material may be applied as long as the material can be heated at a high temperature with good absorption of ultra-high frequency.

As described above, the mixer 130 mixes the dried contaminated soil supplied from the microwave dryer 110 and the susceptor supplied from the susceptor injector 132, and then pyrolyzes the microwave through the shieldable connection 134. Supply to the machine (150).

In the figure, reference numeral 136 denotes a shielding portion that allows the ultrahigh-frequency pyrolyzer 150 to be sealed by being shielded according to a signal applied between the connection portion and the ultra-high frequency pyrolyzer 150.

The ultra-high frequency pyrolyzer 150, like the above-described ultra-high frequency dryer 110, is composed of a chamber capable of being sealed and having a predetermined space, and conveying means 154 for transferring the contaminated soil to be purified therein. Is installed.

In this case, the conveying means 154 is also preferably applied to the conveyor belt, so that the contaminated soil loaded on the conveying means 154 is evenly exposed to the very high frequency so that the direct heating can be performed, the conveying means 154 is positive, More preferably, the conveying direction can be changed according to the reverse rotation.

In addition, at least one microwave generator 156 is installed on the upper side of the chamber 152 of the microwave pyrolyzer 150, and the organic components included in the contaminated soil by the heating by the microwave generator 156 are thermally desorbed and pyrolyzed. The gas outlet 158 for discharging the gas generated while the outside is also provided.

The microwave generator 156 installed in the microwave pyrolyzer 150 is also preferably a frequency of 915 MHz ± 25 MHz or 2450 MHz ± 50 MHz, but other frequencies are possible.

Here, the temperature at which the contaminated soil may rise due to the heating by the microwave generator 156 is about 100 to 120 ° C. or about 200 ° C. or less, but the contaminated soil supplied to the ultra-high frequency pyrolyzer 150 is as described above. The susceptor is included to promote the absorption of ultra-high frequency, the soil is raised by the susceptor temperature above 400 ℃.

Therefore, the contaminated soil in the ultra-high frequency pyrolyzer 150 is generated as a gas while the nonvolatile organic components are thermally desorbed and pyrolyzed, and the gas is discharged to the outside through the gas outlet 158, so that only the purified soil remains. The purified soil is discharged to the outside through the discharge unit 160 in which the openable shield 162 is installed.

On the other hand, the gas generated by thermal desorption and pyrolysis in the ultra-high frequency pyrolyzer 150 is maintained at a very high temperature bar, by connecting and installing the gas outlet 158 to be supplied to the ultra-high frequency dryer 110, a high temperature When the gas in the state is used as a heat source when drying the contaminated soil in the microwave dryer 110, it is possible to further increase the drying efficiency.

Second Embodiment

4 is a configuration diagram of a contaminated soil purification apparatus using ultra-high frequency according to a second embodiment of the present invention, and FIG. 5 schematically illustrates a process of purifying contaminated soil using ultra-high frequency according to a second embodiment of the present invention. It is a block diagram.

According to the first embodiment of the present invention, a contaminated soil purification apparatus using ultra-high frequency and a method for purifying the soil are first dried by ultra-high frequency to remove moisture, volatile and semi-volatile waste gases, and the susceptor is mixed with the dried contaminated soil. After that, it has already been explained that thermal desorption and pyrolysis of nonvolatile organic components using ultra-high frequency to generate purified soil.

In particular, the high-temperature gas generated when the non-volatile organic components are thermally desorbed and thermally decomposed into the gas using the ultra-high frequency may be configured to be recycled when the contaminated soil is dried by the ultra-high frequency, wherein the non-volatile organic components are thermally desorbed by the gas. And when the waste gas generated by pyrolysis can be collected separately and used for other purposes, it is not necessary to separately provide a microwave oven as in the first embodiment.

Thus, the present invention is to contaminate the waste gas generated from the ultra-high frequency pyrolysis machine to separate the waste gas to be used for other purposes or to prevent the environmental pollution does not occur, the implementation of the contaminated soil purification apparatus using ultra-high frequency excluding the extra high-frequency dryer and its purification method I found it possible.

For reference, in describing the second embodiment of the present invention, the same parts as in the first embodiment will be described with the same reference numerals, and the repeated description thereof will be omitted.

As shown, the contaminated soil purification apparatus 100 using the ultra-high frequency according to the second embodiment of the present invention, a mixer 130 for mixing the contaminated soil and the ultra-high frequency susceptor, and the ultra-high frequency susceptor in the mixer 130 And a pyrolysis device 150 for directly heating the contaminated soil mixed with the high frequency to separate moisture and volatile and semi-volatile waste gases, as well as thermally desorbing and pyrolyzing non-volatile organic components with gas to purify the contaminated soil. .

When contaminated soil is supplied to the mixer 130 and the susceptor is also supplied to the mixer 130 from the susceptor injector, the contaminated soil and the susceptor are mixed in the mixer 130. It is fed to the pyrolyzer 150.

The contaminated soil supplied to the pyrolyzer 150 is directly heated by ultra-high frequency. At this time, the contaminated soil is heated to 400 ° C. or more by a susceptor having excellent absorption rate of ultra-high frequency.

Accordingly, the water contained in the contaminated soil, volatile and semi-volatile waste gases are separated, and non-volatile organic components are also thermally desorbed and pyrolyzed into gas, so that only the purified soil remains inside the chamber 152 of the pyrolyzer 150. In addition, the moisture, volatile and quasi-volatile waste gas, and the thermally desorbed and pyrolyzed gaseous nonvolatile organic components are discharged to a separate collecting facility through the outlet 158.

Figure 1 is a schematic diagram showing the configuration of a conventional contaminated soil purification apparatus.

2 is a block diagram of a contaminated soil purification apparatus using ultra-high frequency according to the first embodiment of the present invention.

3 is a block diagram schematically illustrating a process for purifying contaminated soil using ultra-high frequency according to a first embodiment of the present invention;

Figure 4 is a block diagram of a contaminated soil purification apparatus using ultra-high frequency according to a second embodiment of the present invention.

FIG. 5 is a block diagram schematically illustrating a process of purifying contaminated soil using ultrahigh frequency according to a second embodiment of the present invention; FIG.

<Explanation of symbols on main parts of the drawings>

100: purifier 110: ultra-high frequency dryer

112 chamber 114 transfer means

116: ultra-high frequency generating unit 118: waste gas outlet

120: input part 122: transfer part

124: outlet 130: mixer

132: susceptor injector 134: communication unit

150: high frequency pyrolysis unit 152: transfer means

154: ultra-high frequency generating unit 156: gas outlet

Claims (20)

Ultra-high frequency dryer for drying the contaminated soil by heating by ultra-high frequency to remove moisture, volatile and semi-volatile waste gas; A mixer for mixing the contaminated soil dried in the microwave dryer and the ultrahigh frequency susceptor; Soil contaminated soil using ultra-high frequency pyrolysis device for cleaning the contaminated soil by directly heating the contaminated soil mixed with the ultra-high susceptor in the mixer to ultra-high frequency by thermal desorption and pyrolysis of non-volatile organic components with gas Purifier. The method according to claim 1, The ultra-high frequency dryer is made of a chamber capable of being sealed with a certain space, the inside of the soil contamination purification apparatus using ultra-high frequency, characterized in that the transfer means for transferring the introduced contaminated soil is installed. The method according to claim 1, One side of the microwave drying machine is provided with an inlet for contaminated soil is formed, the other side is a contaminated soil purification apparatus using an ultrahigh frequency, characterized in that the outlet is formed to discharge the dried contaminated soil. The method of claim 3, Between the ultra-high frequency dryer and the inlet, contaminated soil purification device using ultra-high frequency characterized in that the screw-type transfer unit for preventing the contaminated soil is introduced into the ultra-high frequency dryer is installed. The method according to claim 1, The ultra-high frequency dryer soil purification apparatus using ultra-high frequency, characterized in that a plurality of ultra-high frequency generating unit is installed. The method according to claim 1, The ultra-high frequency dryer, the soil pollution purification apparatus using ultra-high frequency further comprises a waste gas outlet for discharging moisture and volatile and quasi-volatile waste gas generated when the soil is dried by heating by ultra-high frequency. The method according to claim 1, The mixer is installed so as to communicate with the ultra-high frequency dryer, one side of the contaminated soil purification apparatus using a high frequency, characterized in that the susceptor injector is installed to communicate. The method of claim 7, The susceptor supplied to the mixer from the susceptor injector is any one of metal powder, carbon, ferrite, silicon carbide, and the like. The method according to claim 1, The mixer and the ultra-high frequency pyrolyzer is a contaminated soil purifying device using the ultra-high frequency, characterized in that the communication unit is installed so as to be connected to the opening and closing shield. The method according to claim 1, The ultra-high frequency pyrolyzer is a contaminated soil purification device using ultra-high frequency, characterized in that a plurality of ultra-high frequency generating unit is installed. The method according to claim 1, The ultra-high frequency pyrolysis device, the soil contamination purification apparatus using ultra-high frequency further comprises a gas outlet for discharging the gas generated by the thermal desorption and thermal decomposition of the non-volatile organic components contained in the soil contaminated by the ultra-high frequency. The method of claim 11, The gas outlet is connected to be supplied to the ultra-high frequency dryer, so that the soil pollution purification apparatus using ultra-high frequency, characterized in that configured to more efficiently dry the soil in the microwave dryer. The method according to claim 1, The ultra-high frequency pyrolyzer comprises a chamber that has a predetermined space and can be sealed, and a transport means for transporting the contaminated soil to be purified therein is installed. 14. The method of claim 13, The conveying means, soil contaminated soil purification apparatus using ultra-high frequency, characterized in that the forward and reverse rotation is made possible. The method according to claim 9, The discharge portion for discharging the purified soil to the outside is formed in the other side of the portion where the connection portion is formed in the microwave pyrolyzer, the discharge part is a soil contamination purification apparatus using ultra-high frequency, characterized in that the opening and closing shield is installed. delete In the method of purifying contaminated soil containing water and various organic components using the contaminated soil purification apparatus using the ultra-high frequency of any one of Claims 1-15, (a) heating the contaminated soil using ultra-high frequency to remove moisture, volatile and semi-volatile gases and to dry; (b) mixing a susceptor to promote absorption of microwaves in the dried contaminated soil; (c) directly heating the dried contaminated soil mixed with susceptor to ultra-high frequency to thermally desorb and thermally decompose nonvolatile organic components into gas to produce a purified soil; . The method according to claim 17, The contaminated soil purification method using ultra-high frequency, characterized in that any one of the susceptors, such as metal powder, carbon, ferrite, silicon carbide, mixed with the dried soil. The method according to claim 17, The gas generated in step (c) is supplied to a step of drying the soil while heating the contaminated soil at very high frequency to remove moisture, volatile and semi-volatile gases, thereby increasing the efficiency of the drying step. Polluted soil purification method using ultra high frequency. delete

Images