JP3019811B2 - Exhaust gas treatment equipment - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a municipal solid waste incinerator,
The present invention relates to an apparatus for treating exhaust gas discharged from a melting furnace or other similar heat equipment.

[0002]

2. Description of the Related Art Conventionally, exhaust gas discharged from municipal solid waste incinerators, melting furnaces, and other similar heat equipment has a high temperature and contains dust, hydrogen chloride (HCl), and dioxin. Must be released to the atmosphere after removal.

On the other hand, the present applicant has filed a Japanese Patent Application No. Hei 9-1689.
In No. 73, an exhaust gas treatment method and apparatus suitable for reducing the treatment cost and more effective than before, especially suitable for the case of already having a dry dust collector and subsequently taking measures against dioxin and hydrogen chloride, are proposed. is suggesting.

One embodiment of the above proposal will be described with reference to FIG.

[0005] Exhaust gas from, for example, the incinerator 1, which is a heat facility, is subjected to dust collection by a dry dust collector 17 interposed in an exhaust gas line L1, and is introduced into a wet scrubber 8, which is a wet dust collector, to perform gas absorption treatment. Is introduced into the gas cooler 10 through the scrubber outlet line L2, and the water cooler 12
After contacting with the circulating water cooled in the above step to cool to a low-temperature saturated gas and dehumidify the water, a part of the high-temperature exhaust gas from the dry dust collector 17 is passed through the bypass valve 14 through the bypass line L4 at the water cooler outlet line L3. The mixture is mixed and heated, and then introduced into the bag filter 4 for dust collection. In the drawings, reference numeral 5 denotes an activated carbon blowing device, 6 denotes a lime blowing device, 9 denotes a pump, and 16 denotes a fly ash treatment device, all of which are based on known techniques. In this device, the collected fly ash of the dry dust collector 17 is collected independently,
The fly ash is collected by the fly ash processing device 16.

[0006]

Although the above proposal is effective, it has the following problems. (1) The dry type dust collector 17 is 250 to 30 for its purpose.
Operate at 0 ° C. Therefore, the collected fly ash 17 also
It is collected at a temperature close to the temperature.

However, in order to minimize the generation of dioxin in the fly ash 17, it is necessary to cool the collected fly ash to a safe temperature of 100 to 150 ° C. or lower as quickly as possible.
It is not desirable to spend time in transporting or storing until it is fed into the fly ash treatment device 16 in the next step at a temperature of 250 to 300 ° C.

(2) In order for the bag filter 4 to function as an adsorber for dioxin and hydrogen chloride, the presence of powder such as activated carbon or lime as an adsorbent is required. Therefore, if the amount of the powder for adsorption is insufficient, means for blowing the powder further and collecting and circulating the powder is required, and the apparatus becomes complicated.

SUMMARY OF THE INVENTION It is an object of the present invention to provide an exhaust gas treatment apparatus for reducing the temperature of collected fly ash to a safe temperature as quickly as possible and eliminating the shortage of powder for gas adsorption of a bag filter. And

[0010]

According to the exhaust gas treatment apparatus of the present invention, a dry dust collector (17) for collecting exhaust gas from the heat equipment (1) and absorbing the exhaust gas from the dry dust collector (17). A wet scrubber (8) for processing, a gas cooler (10) for introducing exhaust gas from the wet scrubber (8), and a bag filter (4) for introducing gas from the gas cooler (10). , Said dry dust collector (1
A bypass line (L4) for leading the exhaust gas from 7) is connected to an outlet line (L3) of the gas cooler (10) via a bypass valve (14), and fly ash (17) collected by a dry dust collector (17). 7) is provided with a fly ash transport line (L5) for transporting pneumatically to the outlet line (L3) of the gas cooler (10).

Further, according to the exhaust gas treatment apparatus of the present invention, the cyclone (1) for collecting the exhaust gas from the thermal equipment (1) is subjected to dust collection.
7A), a wet scrubber (8) for absorbing and processing exhaust gas from the cyclone (17A), and a gas cooler (10) for introducing exhaust gas from the wet scrubber (8)
And a bag filter (4) for introducing gas from the gas cooler (10), and an exhaust gas transport line (L) for guiding exhaust gas discharged from below the cyclone (17A).
6) is provided with a bypass valve (14A), and the exhaust gas transport line (L6) is connected to the outlet line (L3) of the gas cooler (10).

[0012]

[0013]

[0014]

Embodiments of the present invention will be described below with reference to the drawings. In FIGS. 1 and 2, FIG.
The same reference numerals are given to the portions corresponding to and the duplicate description will be omitted. In FIG. 1, fly ash 7 collected by a dry dust collector 17 is supplied to a bypass line L3 of a water cooler outlet line L3.
A fly ash transport run L5 according to a known technique for pneumatic transport to the downstream side of the junction 4 is provided. Therefore, the high-temperature fly ash 7 is immediately transported while being cooled by the low-temperature air by the line L5, and is cooled to a temperature of 90 to 120 ° C. which is safe even if it flows into the bag filter 4. be introduced. Further, the fly ash 7 that has flowed in is used as powder for gas adsorption of the bag filter 4.

FIG. 2 shows another embodiment of the present invention, and FIG.
Is constituted by a known cyclone 17A, a part of the exhaust gas is extracted from under the cyclone 17A, and an exhaust gas transport line L6 for transporting the exhaust gas to a cooler outlet line L3 via a bypass valve 14A is provided.
4 is omitted.

The exhaust gas of the cyclone 17A is usually
Discharging a part of the exhaust gas from below, which is discharged from above (so-called blowdown), requires the cyclone 17
It is known to improve the dust separation efficiency of the exhaust gas discharged from above A. Part of the exhaust gas of the cyclone 17A at an exhaust temperature of 250 to 300 ° C (for example, 20 to 30)
%) Bypasses and enters the cooler outlet line L3, it is used for the heat treatment of the dehumidifying gas in the line L3, and the fly ash flowing into the bag filter 4 instantly reaches a safe temperature, and On the other hand, the ash is used as a powder for gas adsorption of the bag filter 4. On the cyclone 17A side,
This has the effect of improving the separation efficiency, and also reduces the dust concentration of the exhaust gas flowing into the scrubber 8, thereby reducing the load on the scrubber 8, which is advantageous in the operation of the scrubber.

[0017]

Since the present invention is configured as described above, it has the following effects. (1) The temperature of fly ash (250 to 300 ° C.) can be quickly cooled to a safe temperature (100 to 150 ° C. or less) to reduce the generation of dioxin. (2) Fly ash can be used as a powder for gas adsorption of a bag filter, and the shortage of powder can be solved. (3) The burden on the wet scrubber can be reduced,
Operationally advantageous.

[Brief description of the drawings]

FIG. 1 is an overall configuration diagram showing an embodiment of the present invention.

FIG. 2 is an overall configuration diagram showing another embodiment of the present invention.

FIG. 3 is an overall configuration diagram showing an embodiment of a prior application filed by the present applicant.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 ... Incinerator 4 ... Bag filter 5 ... Activated carbon blowing device 6 ... Lime blowing device 7 ... Fly ash 8 ... Wet scrubber 9, 11 ... Pump 10 ... Gas Cooler 12, 12A ... Water cooler 13 ... Gas heating device 14, 14A ... Bypass valve 16 ... Fly ash treatment device 17 ... Dry dust collector 17A ... Cyclone L1 ... Exhaust gas Line L2: Scrubber outlet line L3: Water cooler outlet line L4: Bypass line L5: Fly ash transport line L6: Exhaust gas transport line

────────────────────────────────────────────────── ─── Continuation of the front page (56) References JP-A-5-31475 (JP, A) JP-A-5-71724 (JP, A) JP-A-5-261359 (JP, A) (58) Field (Int.Cl. ⁷ , DB name) F23J 15/00 B01D 46/02 F23J 15/06 F23J 15/08

Claims (2)

(57) [Claims] 1. A dry dust collector (17) for collecting exhaust gas from a thermal installation (1), a wet scrubber (8) for absorbing and treating exhaust gas from the dry dust collector (17), and a wet scrubber (8) ) And a bag filter (4) for introducing gas from the gas cooler (10), and a bypass line for introducing exhaust gas from the dry dust collector (17). (L4) is connected to the outlet line (L3) of the gas cooler (10) via the bypass valve (14), and fly ash (7) collected by the dry dust collector (17) is supplied to the gas cooler (10). An exhaust gas treatment apparatus, wherein a fly ash transport line (L5) for pneumatic transport is provided at the outlet line (L3). 2. A cyclone (17A) for collecting exhaust gas from the thermal equipment (1), and the cyclone (17A).
A wet scrubber (8) for absorbing and processing exhaust gas from
A gas cooler (10) for introducing exhaust gas from the wet scrubber (8) and a bag filter (4) for introducing gas from the gas cooler (10) are provided from below the cyclone (17A). A bypass valve (14A) is provided in an exhaust gas transport line (L6) for guiding exhaust gas to be discharged, and the exhaust gas transport line (L6) is connected to an outlet line (L3) of the gas cooler (10). Exhaust gas treatment equipment.