JP2001276560A - Exhaust gas treatment apparatus - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enhance cleaning efficiency by certainly removing various harmful substances without increasing treatment cost in an exhaust gas treatment apparatus. SOLUTION: In the exhaust gas treatment apparatus 11, water is brought into contact with exhaust gas introduced into a cleaning tower 12 to remove impurites in the exhaust gas and activated carbon with a particle size of 20-50 μm is supplied to the cleaning tower by an activated carbon supply device 61 to adsorb dioxin and the waste liquid from the cooling tower is filtered under pressure by the filter elements 33 of a pressure filter device 31 to separate and remove a suspended substance.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an exhaust gas treatment apparatus for purifying exhaust gas discharged from a sintering facility or a waste treatment facility.

[0002]

2. Description of the Related Art As an exhaust gas treatment apparatus for purifying exhaust gas, for example, harmful substances such as hydrogen chloride (HCl), sulfur oxides (SO _x ), and nitrogen oxides (NO _x ) and dust in the exhaust gas are removed. There is a wet gas treatment device, and there is a combination of a pressurized filtration device for removing suspended substances in the wet gas treatment device. In this conventional exhaust gas treatment device, first, an exhaust gas is introduced into a washing tower by a wet gas treatment device, and an absorbent is brought into contact with the exhaust gas by spraying or the like, thereby absorbing and purifying the acid gas. ,
Next, by filtering the effluent containing harmful substances and dust discharged from the washing tower with a filter of a pressurized filtration device, a suspended substance containing harmful substances is separated and treated as a dehydrated cake, The water is clarified to produce treated water.

[0003]

However, in recent years,
Trace components such as dioxin are contained as harmful substances in the exhaust gas, and it is necessary to remove these trace components together with the above-mentioned harmful substances such as hydrogen chloride and dust. Generally, when removing trace components such as dioxin in exhaust gas, adsorption is performed using activated carbon. However, by supplying activated carbon to the above-described exhaust gas treatment apparatus, dioxin and the like can be adsorbed and removed, but activated carbon is expensive and there is a problem that the treatment cost is increased.

An object of the present invention is to solve such a problem, and an object of the present invention is to provide an exhaust gas treatment apparatus capable of removing various harmful substances and dust contained in exhaust gas without significantly increasing treatment costs. I do.

[0005]

According to a first aspect of the present invention, there is provided an exhaust gas treating apparatus for contacting water with exhaust gas introduced into a tower, thereby causing harmful substances and dust in the exhaust gas. A gas treatment means for removing water, a pressurized filtration means for separating and removing suspended substances by filtering a waste liquid discharged from the gas treatment means, and a particle diameter of 20 to 50 microns for the gas treatment means. And activated carbon supply means for supplying activated carbon.

Further, in the exhaust gas treatment apparatus according to the second aspect of the present invention, the activated carbon supply means supplies activated carbon to an exhaust gas supply path to the gas treatment means.

Further, in the exhaust gas treatment apparatus according to the third aspect of the present invention, the activated carbon supply means supplies activated carbon into a treatment tank of the gas treatment means.

[0008]

Embodiments of the present invention will be described below in detail with reference to the drawings.

FIG. 1 is a schematic diagram showing an exhaust gas treatment apparatus according to a first embodiment of the present invention, FIG. 2 is a graph showing dioxin concentration as an example of trace components in exhaust gas with respect to the concentration of activated carbon supplied, and FIG. 3 is a graph showing the amount of filtration with respect to the filtration time.

In the exhaust gas treatment apparatus of the present embodiment, as shown in FIG. 1, a gas treatment apparatus 11 An introduction unit 14 for introducing is provided. A gas discharge unit 15 for discharging purified gas is provided at the upper end of the washing tower 12.
5 is provided with a demister 16 for removing water mist in the gas. On the other hand, a drainage discharge unit 17 that discharges drainage is provided below the washing tower 12. A water discharge pipe 19 having a large number of spray nozzles 18 is disposed above the washing tower 12, and a water supply path 22 for supplying fresh water from a water storage tank 20 to a water supply pump 21 is connected to the water discharge pipe 19. Have been.

Therefore, the exhaust gas introduced from the introduction section 14 into the washing tower 12 is supplied to the water supply passage 2 by the water supply pump 21.
New water supplied to the water discharge pipe 19 through
By spraying from 8 and bringing the exhaust gas into contact with water, harmful substances in the exhaust gas, that is, harmful substances such as hydrogen chloride, sulfur oxides and nitrogen oxides, and dust can be removed. The purified gas is discharged from the gas discharge unit 15 via the demister 16, while the effluent containing harmful substances and dust collects in the lower part of the washing tower 12 and is discharged from the effluent discharge unit 17.

On the other hand, an example of a pressurized filtration device 31 is shown. A plurality of filtration elements (filtration filters) 33 are suspended from an upper part in a casing 32. 34.
A drainage introduction section 35 is provided on the lower side of the casing 32. The drainage introduction section 35 is connected to a drainage pump 36 from the drainage discharge section 17 of the washing tower 12 in the gas treatment apparatus 11.
Is connected to a supply path 37 for supplying drainage, and an on-off valve 38 is attached to the supply path 37. An air outlet 39 is provided on the upper side of the casing 32, and the air outlet 39 is connected to the washing tower 12 by an air outlet 41 having an on-off valve 40. The liquid collecting pipe 34 is connected to a processed liquid tank 44 by a processing liquid discharge path 43 having an on-off valve 42.

An air inlet 45 is provided at the lower side of the casing 32, and an on-off valve 47 is provided from a compressor 46.
Is connected to the processing liquid discharge path 43 through a connection path 50 having an on-off valve 49. Further, the liquid collecting pipe 34 is connected to the washing tower 12 by a circulation path 52 having an on-off valve 51. On the lower part of the casing 32, an on-off valve 5 for discharging a cake of the suspended substance containing the filtered harmful substance is provided.
3 is attached.

Accordingly, the drainage pump 36 is operated and the on-off valve 38 is opened to discharge the drainage in the washing tower 12 to the supply path 37.
At this time, the casing 32 is filled with drainage by opening the on-off valve 40 and allowing the internal air to overflow into the washing tower 12 through the air discharge path 41. Then, when the inside of the casing 32 is filled with drainage, the on-off valve 40 is closed and the on-off valve 51 is opened, and the drainage is filtered under pressure by the filtration element 33 and the drainage is sent to the washing tower 12 through the circulation path 52. It is returned and filtered by circulation until a predetermined clarity is reached. Then, when the suspended matter containing the harmful substance is separated and removed by the filtration element 33 and the effluent reaches a predetermined clarity, the on-off valve 51 is closed and the on-off valve 42 is opened, and the filtrate is discharged into the treatment liquid discharge passage 43. Through the treated liquid tank 4
Discharge to 4.

When a large amount of cake of suspended solids adheres to the outside of the filter element 33 and the filtration capacity decreases, the on-off valves 47 and 49 are opened to open the casing 32 from the compressor 46 through the air supply path 48 into the casing 32. In addition, connection path 5
By supplying compressed air into the filtration element 33 through the processing liquid discharge path 43 and the processing liquid discharge path 43, the cake attached to the filtration element 33 is dropped, and the on-off valve 53 is opened and discharged.

Incidentally, the cleaning tower 12 of the gas treatment apparatus 11
Since the exhaust gas introduced into the inside contains a trace component such as dioxin, it is necessary to remove this. Therefore, in the present embodiment, the cleaning tower 1 is
The activated carbon supply device 61 is connected to the second introduction portion 14. The activated carbon supply device 61 supplies activated carbon having a particle size of 20 to 50 microns. By introducing activated carbon into the washing tower 12 together with the exhaust gas, dioxin contained in the exhaust gas can be adsorbed and removed by the activated carbon.

Further, in the pressurized filtration device 31, the suspended matter in the discharged liquid is collected and separated by the filtration element 33, and the filtrate passed through the filtration element 33 is discharged as a treated liquid having a predetermined clarity. are doing. However, diatomaceous earth having a particle diameter of 20 to 50 microns is generally supplied to the drainage in the casing 32 because the filtration element 33 is clogged with the suspended substance and the filtration capacity is reduced at an early stage. To prevent clogging. In the present embodiment, in the gas treatment device 11, the activated carbon supply device 61 supplies activated carbon having a particle size of 20 to 50 microns to the washing tower 12, so that the activated carbon is mixed into the wastewater and the pressurized filtration device 31 is introduced into a casing 32. Therefore, this activated carbon adheres to the filter element 33 instead of diatomaceous earth to prevent clogging and reduce pressure loss, and to increase the peelability of cake from the filter element 33 during washing.
There is no need to supply diatomaceous earth.

As described above, in the exhaust gas treatment apparatus of the present embodiment, fresh water is sprayed from the injection nozzle 18 to the exhaust gas introduced into the washing tower 12 and brought into contact with the exhaust gas in the gas treatment apparatus 11, so that the By removing harmful substances and dust, and supplying activated carbon having a particle size of 20 to 50 microns, the activated carbon supply device 61 can remove trace components contained in exhaust gas and purify the gas. Then, in the pressurized filtration device 31, the effluent containing harmful substances is removed
, A suspended substance containing a harmful substance is separated and removed here to obtain a filtrate having a predetermined clarity. At this time, the particle diameter supplied by the gas treatment device 11 is 20 to 50.
When the micron activated carbon adheres to the filtration element 33 together with the drainage, pressure loss due to clogging of the filtration element 33 is suppressed, and peelability of the cake during washing is increased. Therefore, there is no need to supply diatomaceous earth, and raw material costs can be reduced.

The operation and effect of the above-described exhaust gas treatment apparatus of the present embodiment are proved as shown in the graph of FIG.
In the gas treatment device 11, the dioxin concentration in the exhaust gas decreases as the activated carbon concentration increases. Further, as shown in the graph of FIG. 3, in the pressurized filtration device 31, the amount of filtration with respect to the filtration time is increased as compared with the conventional one,
The pressure loss in the filter element 33 due to 50 micron activated carbon is suppressed.

FIG. 4 shows a schematic configuration of an exhaust gas treatment apparatus according to a second embodiment of the present invention. Note that members having the same functions as those described in the above-described embodiment are denoted by the same reference numerals, and redundant description will be omitted.

In the exhaust gas treatment apparatus of the present embodiment, as shown in FIG. 4, a gas treatment apparatus (wet desulfurization apparatus) 71
Is provided on the side of the washing tower (treatment tank) 12 with an exhaust gas introduction section 14.
, A gas discharge unit 15 is provided at an upper end portion, and a drainage discharge unit 17 is provided at a lower portion. A water discharge pipe 73 having a large number of spray nozzles 72 is disposed above the washing tower 12. The water discharge pipe 73 has a circulation path 74 having a circulation pump 74 for circulating the drainage stored in the washing tower 12. 75 are connected. In the present embodiment, the gas processing device 1
At 1, an activated carbon supply device 61, a fresh water supply device 76, and an absorbent supply device 77 are connected to the washing tower 12. The activated carbon supply device 61 supplies activated carbon having a particle size of 20 to 50 microns, and adsorbs and removes trace components such as dioxin contained in exhaust gas. The circulation path 75 removes harmful substances and dust in the exhaust gas by spraying a large amount of circulating water into the exhaust gas and bringing them into contact. The absorbent supply device 77 uses sodium hydroxide, slaked lime chiller, and calcium carbonate slurry to adsorb harmful substances and dust in the exhaust gas efficiently by keeping the properties of the circulating water constant.

The structure and operation and effect of the pressurized filtration device 31 are the same as those of the first embodiment.

Therefore, the circulation path 75 injects circulating water to the exhaust gas introduced into the washing tower 12 from the introduction section 14 to bring the exhaust gas into contact with the exhaust gas. Substances and dust are removed, and the activated carbon supply device 61 supplies activated carbon, whereby dioxins and the like in the exhaust gas are removed. Then, the purified gas is discharged from the gas discharge unit 15 via the demister 16, while the waste liquid containing the harmful substance is discharged to the drain discharge unit 17.
Is discharged from

[0024]

As described above in detail in the embodiment, according to the exhaust gas treatment apparatus of the first aspect of the present invention, the exhaust gas introduced into the tower is brought into contact with water so that harmful substances and dust Gas treatment means for removing gas, pressurized filtration means for separating and removing suspended substances by filtering wastewater discharged from the gas treatment means, and activated carbon having a particle size of 20 to 50 microns with respect to the gas treatment means. Activated carbon is supplied by the gas treatment means, and the activated carbon adsorbs and removes trace components such as dioxin in the exhaust gas, and the pressurized filtration means prevents the activated carbon from clogging the filter and causes pressure loss. Therefore, various harmful substances contained in the exhaust gas can be surely removed and the purification efficiency can be improved without increasing the processing cost.

According to the second aspect of the present invention, since the activated carbon supply means supplies activated carbon to the exhaust gas supply path to the gas treatment means, the activated carbon supply means is introduced into the gas treatment means with a simple structure. Dioxins and the like in the exhaust gas can be reliably removed.

According to the exhaust gas treatment apparatus of the third aspect of the present invention, the activated carbon supply means supplies activated carbon into the treatment tank of the gas treatment means. Can be removed.

[Brief description of the drawings]

FIG. 1 is a schematic configuration diagram illustrating an exhaust gas treatment apparatus according to a first embodiment of the present invention.

FIG. 2 is a graph showing the concentration of dioxin as an example of a trace component in exhaust gas with respect to the concentration of activated carbon to be supplied.

FIG. 3 is a graph showing a filtration amount with respect to a filtration time of a filtration filter.

FIG. 4 is a schematic configuration diagram illustrating an exhaust gas treatment device according to a second embodiment of the present invention.

[Explanation of symbols]

 REFERENCE SIGNS LIST 11 gas treatment device 12 washing tower (treatment tank) 13 sintering machine 18 injection nozzle 19 water discharge pipe 31 pressurized filtration device 32 casing 33 filtration element 61 activated carbon supply device 71 gas treatment device 76 fresh water supply device 77 absorbent supply device

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat ゛ (Reference) B01D 47/00 B01D 29/10 530Z 53/60 29/38 510C 53/77 530A 53/68 540 53/70 53/34 133 134B 134F (72) Inventor Yasutoshi Ueda 2-1-1, Shinhama, Arai-machi, Takasago City, Hyogo Prefecture Inside the Takasago Research Laboratory, Mitsubishi Heavy Industries, Ltd. No. 1-1 Inside Mitsubishi Heavy Industries, Ltd.Kobe Shipyard (72) Inventor Shigenari Yamamoto 4-33 Kitahama, Chuo-ku, Osaka-shi, Osaka Sumitomo Metal Industries, Ltd. (72) Inventor Shusaku Komatsu Chuo, Osaka-shi, Osaka 4-33, Kitahama-ku, Tokyo Sumitomo Metal Industries Co., Ltd. F-term (reference) 4D002 AA02 AA12 AA19 AA21 AC02 BA02 BA14 BA20 CA01 DA02 DA05 D A12 DA16 DA35 DA41 EA02 EA07 4D032 AA03 AC07 BA03 BA06 DA04

Claims (3)

[Claims] 1. A gas processing means for removing harmful substances and dust in an exhaust gas by bringing water into contact with the exhaust gas introduced into the tower, and a wastewater discharged from the gas processing means is filtered. An exhaust gas treatment apparatus comprising: a pressurized filtration means for separating and removing suspended substances; and an activated carbon supply means for supplying activated carbon having a particle size of 20 to 50 microns to the gas treatment means. 2. An exhaust gas treatment apparatus according to claim 1, wherein said activated carbon supply means supplies activated carbon to an exhaust gas supply path to said gas treatment means. 3. An exhaust gas treatment apparatus according to claim 2, wherein said activated carbon supply means supplies activated carbon into a treatment tank of said gas treatment means.