KR101979905B1 - Soil cleansing system - Google Patents

Abstract

In the present invention, provided is a soil cleaning system configured to heat contaminated soils in a non-burning manner and heat only dust and gas desorbed from the soils in a burning manner, thereby improving cleaning efficiency of soils. The present invention comprises: a non-burning detachment device (2) heating contaminated soils in an indirect non-burning manner by using a microwave heater (24) installed from an inner side to an outer side of the drum (23) to which the contaminated soils are introduced; a direct burning device (3) connected by a pipe to enable desorbed dust and gas generated at the non-burning detachment device (2) to be introduced thereto, and heating, in a direct burning manner, the desorbed dust and gas by an oil burner (31) installed on one side; a twin cyclone (4) having two cyclones connected to each other and provided to separate burned dust remaining in burned gas generated from the direct burning device (3) so as to separate the burned gas into the burned dust and exhaust gas; and a bag filter (5) provided to collect and filter out fine dust remaining in the exhaust gas discharged from the twin cyclone (4) so as to discharge clean gas into the atmosphere. Accordingly, the contaminated soils are heated in a non-burning manner, and dust and gas are heated in a burning manner, thereby maximizing cleaning efficiency of the soils, gas is cooled and then discharged, thereby minimizing air pollution, it is possible to reduce generation of white smoke while improving heat efficiency, and a plurality of other effects can be expected.

Description

{Soil cleansing system}

The present invention relates to a soil remediation system, and more particularly, to a soil remediation system capable of purifying soil containing various pollutants such as contaminated soil, various sludge and dredged soil.

In general, contaminated soil, where various harmful substances emitted by industrial activities accumulate in the soil, resulting in the production of agricultural products harmful to health or the growth of crops, and sludge (= sludge) collected in the settling tank of various water treatment facilities, And various soils such as polluted sludge discharged from the construction work, sedimented on the bottoms of the sea, rivers and lakes and the like, and dirt discharged from the dredging, contain a large amount of pollutants. And soil remediation devices that purify the soil are emerging as global issues.

In the early days, soil remediation methods were limited to cleaning or burning oil or various foreign substances contained in the soil. However, since the wastewater generated during washing and the harmful gas and dust generated during the combustion can not be treated, water and air pollution And the need for peripherals capable of treating such wastewater, oil gas, dust, and the like.

As a conventional soil remediation system, there has been developed a technique of spraying washing water from the inside of a drum to wash the contaminated soil, as disclosed in Korean Patent Publication No. 2000, 19833 (published April 15, 2000) The purification of the soil by the washing water was limited in purifying various oils and heavy metals contained in the soil.

As disclosed in Korean Patent No. 864409 (published on Oct. 20, 2008), a technique for allowing contaminated soil to be inputted into a rotary kiln and receiving heat from the ROT to desorb the contaminants in the soil However, since the ROT supplying the heat source is separately installed outside the rotary kiln in which the contaminated soil is fed and is supplied through the pipe, there is a problem of generating heat loss and a separate facility is required. Therefore, Is complicated and bulky, so that the equipment cost and the manufacturing cost are increased.

As described in Korean Patent Publication No. 120748 (published on Nov. 5, 2013), a technology has been developed in which a kiln drying furnace and a combustion furnace equipped with a burner are combined, And the contaminated soil is directly burnt by the burner. Therefore, in order to generate a large amount of noxious gas and discharge it to the air, a considerable air purification facility must be provided, and the soil is burned on the burner, It was.

KR 10-2000-0019833 A 2000. 4. 15. KR 10-0864409 B1 Oct. 20, 2008. KR 10-2013-0120748 A Nov. 11, 2013.

The present invention has been made to solve the above-described problems of the prior art, and it is an object of the present invention to maximize the purification efficiency of the soil by directly burning the dust and gas desorbed from the soil by heating the polluted soil to the non- So as to solve the problem.

In addition to this, the gas generated after the first non-burning heating and the second combustion heating passes through the cyclone and passes the discharged gas through the heat exchanger while cooling it, so that exhaust gas discharged through the bag filter can be discharged cleanly Can be added as a challenge.

In this case, the heat exchanger for cooling the gas discharged through the cyclone may be used for cooling the waste discharged during the secondary combustion so as to maximize thermal efficiency.

It is to be understood that the scope of the present invention is not limited to the above embodiments, and may be modified in various ways within the scope of the present invention. It is included in the solution.

In order to solve the above-mentioned problems, according to the present invention, a soil purification system is provided. In the soil purification system of the present invention, contaminated soil is contaminated by a microwave heater installed inside the rotary drum, And a non-combustive desorption device for heating the soil to be indirectly non-burning, and an oil burner connected to the pipe for the desorption dust and desorption gas generated from the non-combustion desorption device to be inserted therein, , The soil is non-combustion type, the desorbing dust and the desorbing gas are respectively combusted by heating, and the combustion dust remaining in the combustion gas discharged from the flue gas combustion device is separated to discharge the combustion dust and exhaust gas A twin cyclone coupled with two cyclones configured to separate into gas And a bag filter configured to dust and filter the fine dust remaining in the exhaust gas discharged from the twin cyclone to discharge the clean gas into the atmosphere.

And a cooling device provided with a heat exchanger configured to cool the high-temperature exhaust gas discharged from the twin cyclone to be cooled by cooling water supplied from a cooling tower when passing therethrough. The cooling water supplied from the cooling tower of the cooling device, The cooling jacket further comprises a cooling jacket having cooling water introduced into the outside of the discharge casing provided with the discharge screw so that the high-temperature combustion material discharged from the apparatus is cooled and discharged when discharged by the discharge screw.

In addition, when the clean gas cleaned through the bag filter is discharged to the atmosphere, the coolant supplied from the cooling tower of the cooling device is cooled by the cooling water supplied from the cooling tower of the cooling device or the sub- And the clean gas is cooled and cleaned by the cooling water while the water cooled and cleaned by the clean gas is recovered to the cooling tower of the cooling device.

 The combustion material cooled by the cooling jacket and discharged from the direct burning device, the combustion dust discharged from the twin cyclone, and the fine dust filtered from the bag filter are transferred to the filtration device using the filter material having finer air spaces than the filter material of the bag filter. A sub-bag filter configured to be separated into a mixed dust to be collected and a clean gas discharged to the atmosphere, and a sub-bag filter to filter the mixed dust filtered and discharged from the sub-bag filter by supply water supplied from a water tank for supplying replenishing water to a cooling tower of the cooling apparatus A pelletizer configured to be molded into a pellet can be further provided.

According to the concrete means for solving the above-mentioned problems, the soil purification system of the present invention employs a method of heating the contaminated soil to the first non-burning state and then heating the dust and gas discharged after the second combustion type The effect of maximizing the purification efficiency of the soil and the effect of minimizing the air pollution by discharging the gas discharged after the double heating to the atmosphere through the bag filter after cooling using the circulating heat exchanger.

In addition, the circulating heat exchanger configured to cool the gas discharged after the double heating can cool not only the exhaust gas but also the dust generated and discharged during the secondary combustion directly heated by the flame, The exhaust gas cooled by the heat exchanger passes through the bag filter and is cooled again after the final filtration so that the exhaust gas is cooled down again. It is possible to provide the effect of significantly reducing the white smoke of the exhaust gas.

1 is a flow sheet showing a preferred embodiment of the present invention.
Figure 2 shows a flow sheet < RTI ID = 0.0 >
Figure 3 shows a flow sheet < RTI ID = 0.0 >

The present invention is a method for recovering pollutants such as polluted soil accumulated in various kinds of hazardous substances emitted by industrial activities, sedimentation tanks of various water treatment facilities, sludge containing waste water discharged from construction works, sediments on the bottoms of sea, The present invention is to provide a soil purification system capable of purifying soil containing various pollutants such as polluted dredged soil discharged at the time of dredging, which will be described in more detail below with reference to the drawings, The present invention is not limited thereto and the terms used herein are for illustrative purposes only and should not be construed as limiting the scope of the present invention.

The soil purifying system of the present invention is characterized in that the contaminated soil is introduced into a hopper 1 through a feeding means 11 through a feeding means 11 composed of a belt feeder 12 and a feed conveyor 13, The soil contaminated by the microwave heater 24 installed on the outer side of the drum 23 from the inside of the rotary drum 23 through which the contaminated soil is introduced through the inlet 21 is disposed in the indirect non- And a discharge port 22 for discharging the desorbed soil from which dust and gas are desorbed from the rotary drum 23 is discharged by a microwave heater 24 to one side of the opposite side of the discharge port 21, (2) is provided, wherein the non-combustion / desorption device (2) is inclined downward from the charging port (21) toward the discharging port (22).

The exhaust gas is desorbed from the soil heated by the microwave heater 24 in the chamber 25 fixed to the drum 23 before and after the drum 23 of the non-combustion / desorption apparatus 2, The flame burner 3 is installed and is configured to directly burn the desorbing branch and the desorbing gas by the flame injected from the oil burner 31 mounted on one side of the flame burner 3. [

The desorbed soil is discharged to the discharge port 22 while desorbing the desorbed dust and desorbed gas from the soil by heating the contaminated soil discontinuously in the non-combustion desorbing apparatus 2 as described above, And the desorbing dust and desorbed gas discharged from the non-combustive desorption apparatus 2 are transferred to the flame burning apparatus 3 to be supplied to the oil burner 31, And the dust is exhausted to the burned material while exhausting the combustion gas.

In addition, the present invention is characterized in that the combustion gas discharged from the flame burning apparatus (3) flows in a tangential direction and the combustion dust remaining in the combustion gas is separated downward by the winding force of the swirling flow, The exhaust gas is separated and discharged to the upper part. In the present invention, the two dust chambers and the air chambers are separated from each other, and the twin cyclones 4 are formed by coupling two cyclones.

The clean gas discharged from the bag filter (5) is connected to a blower (5) through a dust collecting filter (5) 51 to the atmosphere.

In the present invention, there is provided a cooling device 6 for cooling and filtering the high temperature exhaust gas discharged from the twin cyclone 4 to smoothly filter and collect dust in the bag filter 5, Is cooled by the cooling tower 61 installed to supply the cooling water always by air-cooling the water, and the cooling water supplied from the cooling tower 61 through which the high-temperature exhaust gas discharged from the twin cyclone 4 passes, The cooling water is supplied to the cooling pipe 621 of the heat exchanger 62 from the cooling tower 61 and the cooling water is supplied to the cooling pipe 621 And a transfer pump 64 circulated to be returned to the cooling tower 61 via the cooling tower 61. In addition, when the cooling water is circulated through the cooling tower 61, if the cooling water is reduced due to evaporation or the like, Be water tank 65 is connected to the makeup water supply pipe 66 to the cooling tower 61 to be is further provided.

In the present invention, the cooling water supplied from the cooling tower 61 of the cooling device 6 is communicated with the lower portion of the flame burning device 3 so as to cool the hot burned material discharged from the flame burning device 3 The discharge screw 33 is installed in the discharge casing 32 so as to be rotatably driven by the discharge screw 33. The discharge screw 33 is provided with a discharge screw 33 for cooling and discharging the cooling water to the outside of the discharge casing 32, The cooling jacket 63 is provided with a cooling jacket 63. When the cooling jacket 63 is warmed by the discharge material discharged from the cooling jacket 63, the cooling jacket 63 is recovered by the cooling tower 61 to be air-

The combustion material cooled by the cooling jacket 63 and discharged from the direct-burning combustion device 3, the combustion dust discharged from the twin cyclone 4, and the fine dust filtered in the bag filter 5 are transferred, And a sub-bag filter 5-1 configured to separate the mixed dust collected by filtration and the clean gas discharged into the atmosphere by using a filter material having a finer gap than the filter material of the sub-bag filter 5-1, And a pelletizer 7 configured to be molded into pellets by supply water supplied from a water tank 65 for supplying supplemental water to the cooling tower 61 of the cooling device 6 do.

As described above, in the present invention, the heat exchanger 62 for cooling the exhaust gas discharged from the twin cyclone 4 by one cooling tower 61 and the cooling jacket 63 for cooling the burned material discharged from the flame burning apparatus 3 ) By using one transfer pump 64 at the same time.

2, when the clean gas cleaned through the bag filter 5 is discharged to the atmosphere, the cooling water is supplied to the cooling water supplied from the cooling tower 61 of the cooling device 6 A sub-heat exchanger 67 is provided so that the clean gas is cooled and exhausted and a spiral cooling pipe 621 as provided on the inner circumferential surface of the main heat exchanger 62 is installed on the inner circumferential surface of the sub- And the cooling water supplied from the tower (61) is circulated to cool the clean gas passing through the inside of the sub heat exchanger (67).

3, when the clean gas cleaned through the bag filter 5 is discharged to the atmosphere, the cooling water supplied from the cooling tower 61 of the cooling device 6 And a cooling scrubber 68 for cleaning the clean gas by jetting clean gas to clean the cleaning gas such as a wet scrubber and cleaning the surface of the clean gas more cleanly and discharging the air to the atmosphere. The conventional wet scrubber has a water tank The cleaned water is cooled and cleaned in the present invention is recovered to the cooling tower 61 of the cooling device 6, while the cleaned water is filtered and sprayed directly.

In order to purify the contaminated soil, the soil purification system of the present invention having the above-described structure will be described in more detail. As shown in FIG. 1, the soil is cleaned by the supply means 11 through the hopper 1 Is first introduced into the inlet 21 of the non-combustion / desorption device 2 and indirectly ignited by the microwave heater 24 inside the drum 23 of the non-combustion / desorption device 2 to be discharged to the discharge port 22 The desorbed soil from which dust and gas have been desorbed is discharged and reused as soil or disposed of.

The desorbing branch and the desorbing gas desorbed from the soil by the microwave in the non-combustion desorption apparatus 2 are transferred to the flame burning apparatus 3 through the transfer piping so that the flame of the oil heater in the secondary flame burning apparatus 3 So as to separate and discharge the combustion gas and the burned material.

Then, the combustion gas discharged from the flame burning device 3 is introduced into the twin cyclone in a tangential direction to separate the combustion dust remaining in the combustion gas by the centrifugal force and discharge it to the lower part. The bag filter 5 collects and filters the fine dust remaining in the exhaust gas discharged from the twin cyclone 4 and discharges it to the atmosphere through a clean gas.

In the operation of the present invention as described above, the soil contaminated firstly is heated in a non-combustion mode by the non-combustion / desorption device 2, and the desorbed dust and desorbed gas discharged from the second stage are burned The combustion gas discharged from the flame burning device 3 is passed through the heat exchanger 62 while passing the high temperature exhaust gas obtained by separating the combustion dust from the twin cyclone 4 into the heat exchanger 62 of the cooling device 6, Is cooled by a cooling pipe 621 through which cooling water supplied from a cooling tower 61 provided in a spiral shape on the inner peripheral surface of the cooling tower 61 is circulated and then the clean gas is discharged to the atmosphere through the bag filter 5. [

The cooling water supplied from the cooling tower 61 of the cooling device 6 provided for cooling the exhaust gas is supplied to the cooling jacket 63 outside the discharge casing 32 through which the combustion material under the flame combustion device 3 is discharged So that the high-temperature burned material discharged through the discharge screw 33 in the discharge casing 32 can be cooled together.

In the present invention, as shown in FIG. 2 or 3, the clean gas discharged through the bag filter 5 is supplied to a sub heat exchanger (not shown) provided with a helical cooling tube 621 on the inner circumferential surface to be cooled by the cooling water supplied from the cooling tower 61 67 to minimize dust and minimize air pollution while minimizing the white smoke phenomenon and to minimize the air pollution by directly spraying the cooling water supplied from the cooling tower 61 to the clean gas discharged through the bag filter 5 The cooling gas is cooled by the cooling water and cooled and cleaned and discharged by a cooling scrubber 68 which is also cleaned. In this way too, air pollution is minimized, and a clean gas is supplied by the cooling scrubber 68 as described above The cooled and washed water is recovered to the cooling tower (61) of the cooling apparatus (6) as the original supply source, It may be so.

The desorbing gas discharged from the non-combustion / desorption apparatus 2, the combustion gas discharged from the flue gas combustion apparatus 3, the exhaust gas discharged from the twin cyclone 4, and the clean gas discharged from the bag filter 5 The burned material which is cooled by the cooling jacket 63 and discharged from the flame burning apparatus 3, the combustion dust discharged from the twin cyclone 4, The fine dust is entirely conveyed through the blower to the sub bag filter 5-1 while the sub bag filter 5-1 is collected by filtration using a filter material having finer voids than the filter material of the main bag filter 5 Separated into mixed dust and clean gas discharged to the atmosphere.

Thereafter, the mixed dust filtered and discharged from the sub-bag filter 5-1 is mixed with the supply water separately supplied from the water tank 65 providing the replenishing water to the cooling tower 61 and the pelletizer 7, The pellets can be molded into pellets of the size and shape, and the molded pellets can be made of thermal power.

The soil purifying system of the present invention adopts the method of heating the contaminated soil to the first non-burning mode and heating the discharged dust and gas to the secondary combustion mode to double heat the soil, The water molecules contained in the water are heated to generate soot in the soil or to prevent burning by burning, thereby eliminating the need for a separate washing device for eliminating soot and carbonization.

In addition, since the combustion gas heated and discharged from the flame burning device 3 is hot even through the twin cyclone 4, the cooling device 6 for cooling the combustion gas is connected to the flame burner 3, Cooling, cooling and cleaning are simultaneously performed by cooling the material through the cooling jacket (63) and through the bag filter (5) to the atmosphere, thereby facilitating the operation of each part of the soil purification system while minimizing corrosion and damage It is possible to discharge more clean air at the time of discharge into the atmosphere, and also to reduce the white smoke phenomenon.

In addition, one cooling tower 61 and the heat exchanger 62 are connected to each other in the cooling device 6 to supply cooling water to various devices such as the cooling jacket 63, the sub heat exchanger 67, and the cooling scrubber 68 And so on.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It should be understood that the scope of the claims is not limited to the examples but covers the scope of the claims and the scope of equivalents thereof.

1: hopper 11: feeding means 12: belt feeder 13: feed conveyor 14: discharging means 15: signal conveyor
2: non-combustible desorption device 21: input port 22: exhaust port 23: drum 24: microwave heater 25: chamber
3: flame burner 31: oil burner 32: exhaust casing 33: exhaust screw
4: Twin cyclone
5: bag filter 51: blower 5-1: sub-bag filter
6: cooling device 61: cooling tower 62: heat exchanger 621: cooling pipe 63: cooling jacket 64: feed pump 65: water tank 66: replenishing water supply pipe 67: sub heat exchanger 68: cooling scrubber
7: Pelitizer

Claims (5)

A non-combustion / desorption device (2) for indirectly and non-burning the soil contaminated by the microwave heater (24) installed outside the drum (23) inside the rotary drum (23) into which the contaminated soil is introduced;
(3) for directly heating the desorbed dust and desorbing gas by an oil burner (31) mounted on one side and piping connected to the desorbing dust and desorbing gas generated in the non-combustion desorbing apparatus (2) :
A twin cyclone (4) having two cyclones connected to separate the combustion dust remaining in the combustion gas discharged from the flue gas combustion apparatus (3) into combustion dust and exhaust gas;
A bag filter (5) configured to dust and filter the fine dust remaining in the exhaust gas discharged from the twin cyclone (4) to discharge the clean gas into the atmosphere;
A cooling device (6) provided with a heat exchanger (62) configured to cool the high temperature exhaust gas discharged from the twin cyclone (4) by the cooling water supplied from the cooling tower (61)
Temperature exhaust gas discharged from the direct-burner 3 by the cooling water supplied from the cooling tower 61 of the cooling device 6 is exhausted by the discharge screw 33 so that the discharge screw 33 is cooled and discharged. A cooling jacket 63 in which cooling water is introduced into the outside of the casing 32;
And a soil cleaning system.
The method of claim 1,
A sub heat exchanger (67) configured to cool and discharge the clean gas by the cooling water supplied from the cooling tower (61) of the cooling device (6) when the clean gas cleaned through the bag filter (5) is discharged to the atmosphere;
Wherein the soil purification system further comprises:
The method of claim 1,
The clean water supplied from the cooling tower 61 of the cooling device 6 is jetted by the clean gas when the clean gas cleaned through the bag filter 5 is discharged to the atmosphere so that the clean gas is cooled and cleaned by the cooling water A cooling scrubber 68 configured to recover the cleaned and cleaned water to the cooling tower 61 of the cooling device 6;
Wherein the soil purification system further comprises:
The method of claim 1,
The combustion material cooled by the cooling jacket 63 and discharged from the direct combustion device 3, the combustion dust discharged from the twin cyclone 4 and the fine dust filtered in the bag filter 5 are transferred to the bag filter A sub-bag filter (5-1) configured to be separated into a mixture of dust collected by filtration using a filter material having fine pores and a clean gas discharged into the atmosphere;
The mixed dust filtered and discharged from the sub-back filter 5-1 is supplied to the cooling tower 61 of the cooling unit 6 through the water tank 65 which supplies the replenishing water to the pellet A timer (7);
Wherein the soil purification system further comprises:
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