JP3262720B2 - Two-stage dust collection equipment and method of removing exhaust gas with two-stage dust collection equipment - Google Patents

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 facility for treating exhaust gas generated when incinerating industrial waste including municipal waste, wherein the chemical is produced by blowing an alkaline chemical into the exhaust gas and reacting with an acidic gas. Two-stage dust collection equipment that collects collected solid compounds, dust, and heavy metals with a filter cloth.
The present invention relates to a method for removing exhaust gas using a step-type dust collecting apparatus.

[0002]

2. Description of the Related Art Conventionally, a two-stage bag filter, which is an example of a two-stage dust collector, connects two filtration chambers each having a filter cloth in series to effectively remove solid compounds, dust, and heavy metals. It is to be collected.

As a method for recovering hydrogen chloride gas or sulfurous acid gas contained in exhaust gas, an alkaline agent (powder) such as an alkali powder such as calcium carbonate CaCO ₃ or slaked lime Ca (OH) ₂ is blown into the exhaust gas to cause a reaction. In some cases, a solid compound is generated and collected by a bag filter.

When the above-mentioned alkali powder, for example, slaked lime, is blown, hydrogen chloride and sulfur dioxide gas in the exhaust gas are subjected to the following solid-gas reaction to obtain 2HCl + Ca (OH) ₂ → CaCl ₂ + 2H ₂ O SO ₂ + Ca (OH) ₂ → CaSO ₃ + H ₂ O solid compounds are produced.

In a two-stage bag filter, after dust is removed in a first-stage filtration chamber, an alkaline agent and a reaction aid are blown into an inlet of a second-stage filtration chamber to form a solid compound and remove harmful gas. I have.

[0006]

However, about 50% of the alkaline chemicals recovered by the filter cloth in the filtration chamber at the latter stage are unreacted, so that the amount of chemicals used is large, the operating cost is increased, and the amount of the alkaline chemicals is increased. The amount of fly ash collected by the filter increases, and the amount of fly ash treated increases, resulting in an increase in the size of the fly ash processing equipment.

There is a one-stage bag filter that stores a used drug once and injects a part of the drug together with a new drug to reuse it. However, in order to increase the reaction efficiency of the reused drug, the recycled drug is used. This requires a cooling step and a pulverizing step, which causes a problem that the apparatus becomes complicated.

According to the first aspect of the present invention, the above problems can be solved and an alkaline agent can be effectively reacted with simple equipment, and the amount of the agent used can be reduced. An object of the present invention is to provide a two-stage dust collection facility and a method for removing exhaust gas with the two-stage dust collection facility.

[0009]

According to a first aspect of the present invention, there is provided a two-stage dust collecting apparatus, comprising: an exhaust gas pipe;
The upstream filtration chamber with filter cloth on the upstream side and the filtration
This is a two-stage dust collection system with a post-stage filtration chamber with cloth.
Te, the exhaust gas passage between the front-stage filtering chamber and subsequent filtration chamber, a drug supply device for supplying an alkaline powder medicament in the exhaust gas is provided, unreacted powder medicament recovered with the fly ash by the filter cloth in the subsequent stage filtering chamber The collected chemical re-supply means for blowing into the exhaust gas of the exhaust gas pipe on the inlet side of the pre-stage dust collecting means together with fly ash is provided, and the collected chemical re-supply means is provided in the exhaust gas pipe.
A blow nozzle that blows unreacted powder chemicals together with fly ash into the exhaust gas
And the unreacted powdered drug upstream of the blow nozzle.
And a dispersing nozzle for supplying high-pressure steam to be dispersed .

[0010] According to the above configuration, about half of the unreacted powder drug collected by the filter cloth in the subsequent filtration chamber is introduced into the exhaust gas again, and the unreacted powder drug is dispersed by high-pressure steam. /> and the pre-stage filtering chamber is reacted with the acid gas in the exhaust gas
And it can be collected by the filter cloth of the latter filtration room, and the reaction rate of the alkaline powder drug can be greatly improved. To that extent, the amount of powdered chemical used can be significantly reduced, operating costs can be reduced, and the amount of recovered fly ash can be reduced, making it possible to make fly ash processing equipment more compact. Further, the cooling step and the pulverizing step are not required, and the equipment can be simplified.

Further, the invention according to claim 2 is an exhaust gas pipe.
In addition, a cyclone type dust collector is arranged on the upstream side,
Post-stage filtration with filter cloth downstream of the cyclone type dust collector
A two-stage dust collecting facility having a chamber, wherein the cyclone
In the exhaust gas passage between the dust collector and the downstream filtration chamber,
A drug supply device for supplying an alkaline powder drug to
Unreacted powder collected together with fly ash by the filter cloth in the latter filtration room
Exhaust powder, together with fly ash, exhaust gas line on the inlet side of the pre-stage dust collection means
A means for resupplying recovered chemicals that blows into the exhaust gas of
In the exhaust gas installed in the exhaust gas line,
A blowing nozzle for blowing unreacted powdered chemicals with fly ash to
Disperse unreacted powder drug upstream of this blowing nozzle
Dispersion nozzle for supplying high-pressure steam is arranged.
I do.

[0012] According to the above configuration, the filter cloth is captured by the filter cloth in the downstream filtration chamber.
About half of the unreacted powder drug collected is re-injected into the exhaust gas.
And disperse unreacted powdered drug by high pressure steam
Reacts with the acidic gas in the exhaust gas
It can be collected by the dust collector and the filter cloth in the subsequent filtration chamber,
The reaction rate of alkaline powder drugs can be greatly improved.
Wear. The amount of powdered drug used can be significantly reduced.
Operating costs can be reduced and fly ash collected
Processing capacity can be reduced, and fly ash processing equipment cost
Impact can be reduced. In addition, cooling and pulverizing processes are necessary.
The facility can be simplified without the need.

[0013]

[0014]

[0015]

According to a fourth aspect of the present invention, there is provided a method for removing exhaust gas using a two-stage dust collecting apparatus , wherein the exhaust gas has a filter cloth on an upstream side.
Exhaust chamber or cyclone type dust collector
After the dust is removed, a filter
Ri upon to dedusting exhaust gases using a two-stage dust collecting equipment for dust removal, the reacted with an acidic gas in the exhaust gas is blown alkaline agent in the exhaust gas at the inlet of the downstream side filtration chamber, the resulting solid compound and unreacted Fly ash containing the reactive powder chemicals is collected by the filter cloth in the subsequent filtration chamber, and the collected fly ash is blown into the nozzle.
Again into the exhaust gas at the inlet of the pre-stage dust collection means,
High pressure steam from the dispersing nozzle
The unreacted powder drug and fly acid in the fly ash
The solid compound thus produced is collected together with fly ash by means of a pre-stage dust collecting means and a filter cloth in a post-stage filtration chamber.

According to the above configuration, about half of the unreacted powder drug collected by the filter cloth in the subsequent filtration chamber is introduced again into the exhaust gas, and the unreacted powder drug is dispersed by high-pressure steam. As a result, it is possible to react with the acid gas in the exhaust gas and to collect the gas by the pre-stage dust collecting means, thereby greatly improving the reaction rate of the alkaline powder drug. To that extent, the amount of powdered chemical used can be significantly reduced, operating costs can be reduced, and the amount of recovered fly ash can be reduced, making it possible to make fly ash processing equipment more compact. Further, the cooling step and the pulverizing step are not required, and the equipment can be simplified.

In each of the above structures, “fly ash” refers to solid compounds such as dust and heavy metals contained in exhaust gas, unreacted chemicals, and salts and sulfides formed by reaction with chemicals.

[0019]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A first embodiment of a side-by-side two-stage bag filter dust collecting apparatus according to the present invention will be described with reference to FIGS. 1 and 2. FIG.

A first-stage filtration chamber 1A and a second-stage filtration chamber 1B formed by casings 2A and 2B are integrally arranged side by side through a partition wall 3, and a lower filter cloth chamber 1a and an upper filter chamber 1a are provided in the filtration chambers 1A and 1B. Partition walls 4A, 4B for partitioning the discharge chamber 1b
Are formed with a plurality of insertion holes 4a, 4b.
b, a bag-shaped filter cloth 5 suspended in the filter cloth chamber 1a.
A and 5B are provided.

The exhaust gas introducing pipe 6A forming the exhaust gas pipe is connected to the filter cloth chamber 1a of the first filtration chamber 1A, and the exhaust gas discharge pipe 6B is connected to the discharge chamber 1b of the second filtration chamber 1B. In addition, the discharge chamber 1b of the first-stage filtration chamber 1A and the second-stage filtration chamber 1
The filter cloth chamber 1a of B is communicated with a connection passage (exhaust gas passage) 7 formed along the partition wall 3, and a medicine supply device 8 is disposed at the top of the casing 2A at the entrance of the connection passage 7. The medicine supply device 8 includes a medicine tank and a fixed amount supply device (not shown), and a plurality of (four in the illustration) medicine nozzles 8a for supplying an alkaline powder medicine, for example, slaked lime and a reaction aid for accelerating the reaction, to the exhaust gas. It consists of.

In the lower part of the first-stage filtration chamber 1A and the second-stage filtration chamber 1B, a first-stage fly ash collecting device 9A composed of, for example, a screw conveyor device for discharging fly ash naturally dropped or fly ash forcibly dropped by backwash air. , Post-stage fly ash recovery device 9
B are provided respectively. Then, between the downstream fly ash recovery device 9B and the exhaust gas introduction pipe 6A, a recovered chemical re-supply means 10 for blowing the unreacted powdered chemical recovered together with the fly ash from the downstream filtration chamber 1B into the exhaust gas again together with the fly ash is provided. The collected medicine re-supplying means 10 is provided with a medicine circulating nozzle 12 connected via a rear rotary valve 11B provided at an outlet of the rear fly ash collecting device 9B, and penetrates near an upstream side thereof. And a dispersion nozzle 13 is provided.

Therefore, fly ash containing the unreacted chemicals collected in the downstream filtration chamber 1B by the chemical circulation nozzle 12 is blown into the exhaust gas in the exhaust gas introduction pipe 6A, and the unreacted chemicals and the hydrogen chloride gas and sulfurous acid gas in the exhaust gas are blown. And can be reacted. Further, compressed air or high-pressure steam for dispersion is jetted from a compressed air supply device or a steam generator (not shown) by the dispersion nozzle 13, and fly ash containing the unreacted drug is effectively dispersed to reduce the reaction efficiency of the unreacted drug. It can be further improved.

In the above configuration, the exhaust gas supplied from the exhaust gas introduction pipe 6A is introduced into the pre-stage filtration chamber 1A and
After passing through A and being dust-removed, it is introduced into the connection passage 7, where an alkaline powder drug (eg, slaked lime) and an auxiliary agent are blown into the exhaust gas from the chemical nozzle 8a, and the hydrogen chloride gas and the sulfurous acid contained in the exhaust gas are blown into the exhaust gas. Reacts with gas to produce solid compounds. The fly ash containing the solid compound and the unreacted chemical is collected by the filter cloth 5B in the downstream filtration chamber 1B, and the exhaust gas is discharged from the exhaust gas discharge pipe 6B as clean exhaust gas.

The fly ash containing unreacted chemicals collected in the filter cloth 5B in the downstream filtration chamber 1B is collected by a fly ash recovery device 9B by natural fall or backwash air and discharged, and is discharged through the downstream rotary valve 11B. From the chemical circulation nozzle 12 into the exhaust gas of the exhaust gas introduction pipe 6A. At this time, compressed air or high-pressure steam for dispersion is injected from the dispersion nozzle 13 to effectively disperse the fly ash containing the unreacted drug, and the unreacted drug and the acid gas in the exhaust gas are effectively reacted,
The reaction efficiency of the drug is further improved. Then, fly ash containing dust and solid compounds is collected by the filter cloth 5A of the pre-stage filtration chamber 1A, collected and discharged by the fly ash collection device 9A, and conveyed to the fly ash treatment device.

According to the above embodiment, about 50% of the unreacted chemical conventionally treated with fly ash, together with the recovered fly ash, is blown into the exhaust gas again to react with the exhaust gas, and the pre-stage filtration chamber 1A Since it is introduced and collected, the reaction rate of the alkaline powder drug can be greatly improved, the amount of use thereof can be reduced, and the operating cost can be reduced. Further, as a result, the amount of fly ash containing the solid compound can be reduced, so that the amount of processing of the fly ash processing device can be reduced and the equipment can be made compact. Further, since the re-use of the medicine does not require a cooling step or a pulverizing step as in the related art, the whole can be extremely simplified.

Next, a second embodiment of the flat type two-stage bag filter dust collecting apparatus according to the present invention will be described with reference to FIGS. Casing 22A, 22B provided with collecting inclined plates 22a, 22b inclined downward toward the center at the bottom.
Thereby, the latter-stage filtration chamber 21B and the former-stage filtration chamber 21A are vertically stacked and integrally configured.

The pre-stage filtration chamber 21A is divided into a filter cloth chamber 21a on the right side and a discharge chamber 21b on the left side by a partition wall 23A provided on the left side of FIG. 3, and has a flat plate-like shape in an insertion hole 23a formed in the partition wall 23A. A filter cloth 24A having a cross section is attached and extends to the filter cloth chamber 21a side. And the filter cloth chamber 21a
The exhaust gas introduction pipe 25A is connected to the
A connection pipe (exhaust gas passage) 27 is connected to 1b. A fly ash collecting device 26A composed of a screw conveyor device is provided below the collecting inclined plate 22a.

The downstream filtration chamber 21B is divided into a filter cloth chamber 21c on the left side and a discharge chamber 21d on the right side by a partition wall 23B provided on the right side of FIG. 3, and a flat plate-like shape is formed in an insertion hole 23b formed in the partition wall 23B. A filter cloth 24B having a cross section is attached and extends to the filter cloth chamber 21c side. And the filter cloth chamber 21c
Is connected to a connection pipe 27, and an exhaust gas discharge pipe 25B is connected to the discharge chamber 21d. Collecting inclined plate 2
A fly ash collecting device 26B composed of a screw conveyor device is provided below the 2b. Reference numeral 28 denotes a fly ash discharge pipe for sending fly ash collected via a rotary valve 29A to the fly ash processing device.

Between the outlet of the fly ash collecting device 26B and the exhaust gas introduction pipe 25A, a latter-stage rotary valve 29B constituting the recovered chemical re-supply means 30 is provided, and a chemical circulation nozzle 31 is connected to the rotary valve 29B. ing. A dispersion nozzle 32 is provided near the upstream of the nozzle.

The connection pipe 27 is provided with a medicine supply device 33. The drug supply device 33 includes a drug tank and a fixed-rate supply device (not shown), a drug nozzle 33a that penetrates through the connection pipe 27 and blows an alkaline powder drug, for example, slaked lime, into the exhaust gas, and an auxiliary nozzle 3 on the downstream side thereof.
3b.

In the above configuration, the exhaust gas supplied from the exhaust gas introduction pipe 25A is first introduced into the pre-stage filtration chamber 21A, passes through the filter cloth 24A and is dust-removed, and then is introduced into the connection pipe 27, where the chemical nozzle 33a The alkaline powder chemical (eg, slaked lime) and the auxiliary are blown from the auxiliary nozzle 33b and reacted with the hydrogen chloride gas or the sulfur dioxide contained in the exhaust gas to generate a solid compound. The fly ash containing the solid compound and the unreacted chemical is collected by the filter cloth 24B of the latter filtration chamber 21B, and the exhaust gas is discharged from the exhaust gas discharge pipe 25B as clean exhaust gas.

The fly ash containing unreacted chemicals collected in the filter cloth 24B of the latter filtration chamber 21B is collected and discharged by the fly ash collecting device 26B by natural fall or backwashing air, and is discharged from the latter rotary valve 29B. It is sent to the circulation nozzle 31 and blown into the exhaust gas of the exhaust gas introduction pipe 25A.
At this time, compressed air or high-pressure steam for dispersion is injected from the dispersion nozzle 32 to effectively disperse the fly ash containing the unreacted drug, and the unreacted drug and the acid gas in the exhaust gas are effectively reacted, The reaction efficiency of the drug is further improved. And
Fly ash containing dust and solid compounds is collected by the filter cloth 24A of the pre-stage filtration chamber 21A, collected and discharged by the fly ash collection device 26A, and conveyed to the fly ash treatment device.

According to the above configuration, the same effects as in the previous embodiment can be obtained. FIG. 5 shows a third embodiment of a two-stage dust collecting equipment employing a cyclone dust collecting device for reaction as a pre-stage dust collecting means.

The exhaust gas introducing pipe 41 is connected to a cyclone for reaction (cyclone dust collecting apparatus) 42 as a pre-stage dust collecting means, and a downstream filtration chamber 44 is provided downstream of the exhaust gas introducing pipe 41 via a connecting pipe 43 constituting an exhaust gas passage. Have been. Post-stage filtration chamber 44
A plurality of insertion holes 45a are formed in a partition wall 45 that separates a lower filter cloth chamber 44a and an upper discharge chamber 44b, and the bag-shaped filter cloth attached to the insertion holes 45a and hung down in the filter cloth chamber 44a. 46 are provided.

The reaction cyclone 42 is provided at an eccentric position above the cylindrical casing 42a at an exhaust gas introduction pipe 41.
Are connected to form a swirling flow of exhaust gas inside, and the centrifugal force causes dust and fly ash to fall and catch along the inner surface of the casing 42a, and agitate the exhaust gas to promote the reaction with the medicine. it can. And the casing 42
At the lower end of “a”, an upstream fly ash collecting device 47 composed of, for example, a screw conveyor device for discharging the captured fly ash is provided.

A connection pipe 43 is connected to the lower part of the casing 42a and communicates with the filter cloth chamber 44a of the latter filtration chamber 44. The connection pipe 43 is provided with one or more medicine nozzles 48a constituting the medicine supply device 48,
The chemical supply device 48 can supply an alkaline powdery chemical, for example, slaked lime, and a reaction aid for accelerating the reaction into the exhaust gas from the chemical nozzle 48a by a chemical tank and a quantitative supply device (not shown).

An exhaust gas discharge pipe 49 is connected to the discharge chamber 44b of the downstream filtration chamber 44, and fly ash captured by natural fall or backwash air is discharged to the lower end of the downstream filtration chamber 44, for example. A downstream fly ash recovery device 50 including a screw conveyor device is provided. Further, a collecting agent re-supplying means 51 for blowing the unreacted powdered drug collected together with the fly ash from the latter-stage filtration chamber 44 by the latter-stage fly ash collecting device 50 into the exhaust gas together with the fly ash is provided. The supply means 51 includes a post-stage rotary valve 51 a provided at an outlet of the post-stage fly ash collection device 50.
And a dispersion nozzle 51c penetrating near the upstream side of the medicine circulation nozzle 51b.

Therefore, fly ash containing the unreacted chemicals collected in the downstream filtration chamber 44 by the chemical circulation nozzle 51b is blown into the exhaust gas in the exhaust gas introduction pipe 41, and the unreacted chemicals and the hydrogen chloride gas or the sulfurous acid gas in the exhaust gas are blown. And can be reacted. Further, compressed air or high-pressure steam for dispersion is jetted from a compressed air supply device or a steam generator (not shown) by a dispersion nozzle 51c, and fly ash containing the unreacted drug is effectively dispersed to reduce the reaction efficiency of the unreacted drug. It can be further improved.

In the recovered medicine re-supply means 51, a pneumatic pipe is interposed between the rotary valve 51a and the medicine circulation nozzle 51b, and the medicine circulation nozzle 51b and the dispersion nozzle 51c react as indicated by the phantom line. It may be arranged near the entrance of the service cyclone 42.

In the above configuration, the exhaust gas supplied from the exhaust gas introduction pipe 41 is introduced into the reaction cyclone 42, and is subjected to centrifugal force generated in the casing 42 a to remove dust, and then introduced into the connection pipe 43. Here, the drug nozzle 48
From a, an alkaline powder chemical (eg, slaked lime) and an auxiliary are blown into the exhaust gas and reacted with the hydrogen chloride gas or the sulfur dioxide gas contained in the exhaust gas to generate a solid compound. The fly ash containing the solid compound and the unreacted chemical is collected by the filter cloth 46 in the downstream filtration chamber 44, and the exhaust gas is discharged from the exhaust gas discharge pipe 49 as clean exhaust gas.

The fly ash containing the unreacted chemicals collected in the filter cloth 46 in the downstream filtration chamber 44 is collected by the downstream fly ash recovery device 50 by natural fall or backwashing air and discharged, and is discharged by the downstream rotary valve 51a. The gas is blown into the exhaust gas from the exhaust gas introduction pipe 41 from the chemical circulation nozzle 51b. At this time,
Compressed air or high-pressure steam for dispersion is injected from the dispersion nozzle 51c to efficiently disperse the fly ash containing the unreacted drug, the unreacted drug and the acidic gas in the exhaust gas are effectively reacted, and the reaction efficiency of the drug is increased. Is further improved. Then, the reaction is promoted by the reaction cyclone 42, and fly ash containing dust and solid compounds is collected, collected and discharged by the upstream fly ash recovery device 47, and transported to the fly ash treatment device. Further, fly ash not captured here is surely collected in the post-stage filtration chamber 44.

According to the above embodiment, the same effects as in the first embodiment can be obtained. It should be noted that an electric dust collector can be used instead of the reaction cyclone 42 of the pre-stage dust collecting means.

[0044]

As described above, according to the present invention, about half of the unreacted powder drug collected by the filter cloth in the latter filtration chamber is again injected into the exhaust gas and high-pressure steam is blown from the upstream thereof.
This effectively disperses the alkaline powder drug.
And the contact area with the exhaust gas is increased, and the solid-gas reaction is further promoted.
To increase the reaction rate of unreacted powdered drug
Can be made. As a result , it is possible to react with the acidic gas in the exhaust gas to collect the gas, thereby greatly improving the reaction rate of the alkaline powder drug. To that extent, the amount of powdered chemical used can be significantly reduced, operating costs can be reduced, and the amount of recovered fly ash can be reduced, making it possible to make fly ash processing equipment more compact. Further, the cooling step and the pulverizing step are not required, and the equipment can be simplified.

[0045]

[0046]

[Brief description of the drawings]

FIG. 1 is a front sectional view showing a first embodiment of a two-stage dust collecting facility according to the present invention.

FIG. 2 is a plan view of the same two-stage dust collector.

FIG. 3 is a front sectional view showing a second embodiment of a two-stage dust collecting apparatus according to the present invention.

FIG. 4 is a side view of the two-stage dust collection equipment.

FIG. 5 is a front sectional view showing a third embodiment of the two-stage dust collecting equipment according to the present invention.

[Explanation of symbols]

 Reference Signs List 1A Front filtration chamber 1B Rear filtration chamber 6A Exhaust gas introduction pipe 6B Exhaust gas discharge pipe 7 Connection passage 8 Drug supply device 8a Drug nozzle 9A 9B Fly ash recovery device 10 Recovered drug resupply means 11B Rotary valve 12 Drug circulation nozzle 13 Dispersion nozzle 21A Front stage Filtration chamber 21B Post-stage filtration chamber 24A, 24B Filter cloth 25A Exhaust gas introduction pipe 25B Exhaust gas discharge pipe 26A, 26B Fly ash recovery device 27 Connection pipe 29B Rotary valve 30 Recovered drug resupply means 31 Drug circulation nozzle 32 Dispersion nozzle 33 Drug supply device 33a Chemical nozzle 33b Auxiliary nozzle 41 Exhaust gas introduction pipe 42 Reaction cyclone 43 Connection pipe 44 Rear filtration chamber 47 Front fly ash recovery device 48 Drug supply device 50 Rear fly ash recovery device 51 Recovered drug re-supply means

────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. ⁷ Identification code FI B01D 53/68 B01D 53/34 136Z 53/81 (72) Inventor Sujita Shimoda 5-3-1 Nishikujo, Konohana-ku, Osaka-shi, Osaka No. 28 Inside Hitachi Zosen Corporation (72) Inventor Mamoru Kondo 3-28 Nishikujo, Konohana-ku, Osaka-shi, Osaka Prefecture No. 28 Kenya Nagai Inventor Kenichi Nagai 5-5-Nishikujo, Konohana-ku, Osaka, Osaka No. 28 of Hitachi Zosen Corporation (72) Nie Peng Inventor 5-28 Nishikujo, Konohana-ku, Osaka-shi, Osaka-ken Inside of Hitachi Zosen Corporation (56) References JP-A-7-204464 (JP, A JP-A-7-31843 (JP, A) JP-A-5-285335 (JP, A) JP-A-1-155936 (JP, A) JP-A-3-52622 (JP, A) (58) Field (Int. Cl. ⁷ , DB name) B01D 46/00-46 / 54 B01D 53/34 B01D 53/40 B01D 53/50 B01D 53/64 B01D 53/68 B01D 53/81

Claims (3)

(57) [Claims] 1. A pre-stage having a filter cloth on the upstream side in an exhaust gas line
A filtration chamber and a downstream filtration chamber having a filter cloth on the downstream side were arranged.
A two-stage dust collecting equipment, in the exhaust passage between the pre-stage filtering chamber and subsequent filtration chamber, a drug supply device for supplying an alkaline powder medicament in the exhaust gas provided by the filter cloth in the subsequent stage filtering chamber fly ash The collected chemical re-supply means for blowing the unreacted powdered chemical collected together with the fly ash into the exhaust gas in the exhaust gas pipe on the inlet side of the pre-stage dust collecting means is provided, and the collected chemical re-supply means is provided in the exhaust gas pipe. Exhaust gas
Nozzle that blows unreacted powdered chemicals with fly ash
And the unreacted powdered drug is dispersed upstream of the blowing nozzle.
And a dispersing nozzle for supplying high-pressure steam to be disposed . 2. A cyclone type dust collector upstream of the exhaust gas line.
And the downstream side of the cyclone type dust collector
A two-stage dust collector with a post-stage filtration chamber with a filter cloth
Waste gas between the matching, the cyclone dust collector and subsequent filtration chamber
To supply alkaline powder chemicals in exhaust gas
Unreacted powder collected along with fly ash by the filter cloth in the downstream filtration chamber
Exhaust powder, together with fly ash, exhaust gas line on the inlet side of the pre-stage dust collection means
A collecting agent re-supplying unit that blows into the exhaust gas of the vehicle, and the collected gas re-supplying unit includes an exhaust gas disposed in the exhaust gas line.
Nozzle that blows unreacted powdered chemicals with fly ash
And the unreacted powder drug is dispersed upstream of the blowing nozzle.
Patent in that a dispersing nozzle for supplying a high-pressure steam to
This is a two-stage dust collector. 3. A pre-stage filtration chamber having a filter cloth for exhaust gas on the upstream side.
Alternatively, remove the dust using a pre-stage dust collection device that becomes a cyclone type dust collector.
After dust, upon which dust exhaust gas by using the two-stage dust collecting equipment dividing <br/> dust by preceding filtration chamber after having filter cloth on the downstream side, alkaline in the exhaust gas at the inlet of the subsequent filtering chamber The chemical is blown to react with the acidic gas in the exhaust gas, and the fly ash containing the generated solid compound and unreacted powdered drug is collected by the filter cloth in the subsequent filtration chamber, and the collected fly ash is re-staged through the blowing nozzle. Dust collection means entrance
Blown into the exhaust gas, and arranged upstream of the blow nozzle.
High-pressure steam is blown from the dispersing nozzle
The powdered chemical is reacted with the acidic gas again, and the generated solid compound is collected together with the fly ash by the first-stage dust collecting means and the filter cloth of the second-stage filtration chamber, and the exhaust gas is discharged by the two-stage dust collecting facility. Dust removal method.