CN105311947A - Boiler fume denitration and desulfuration dedusting device and process - Google Patents

Abstract

The invention discloses a boiler fume denitration and desulfuration dedusting device and process. The device comprises a supergravity rotation bed pollution control device I, wherein the air inlet of the supergravity rotation bed pollution control device I is connected with the fume outlet of a boiler; the alkaline absorption liquid adding opening of the supergravity rotation bed pollution control device I is connected with an alkaline absorption liquid circulation water pool; the sewage discharging opening of the supergravity rotation bed pollution control device I is connected with the alkaline absorption liquid circulation water pool; the supergravity rotation bed pollution control device I is connected with a low-temperature plasma purification device; and the low-temperature plasma purification device is connected with a supergravity rotation bed pollution control device II. By using the scheme, the structure design is reasonable, waste water, waste gas and waste solids are not generated, the ammonia escape is avoided, the environment protection is realized, no catalyst is used, the dependence on ammonia is avoided, certain safety problems generated in use of ammonia are thoroughly avoided, the efficiency of removing fume particulate matters, sulfur oxides and nitric oxides is high, and the stable standard discharging is realized.

Description

A kind of denitration of boiler smoke, desulfation dust-extraction device and technique

Technical field:

The present invention relates to a kind of denitration of boiler smoke, desulfation dust-extraction device and technique.

Background technology:

Harmful substance in boiler smoke is flue dust, SO mainly₂and NOx, what desulfurization and dedusting tradition adopted is bag-type dust+desulfurizing tower, and SR is large, and operating cost is high, and treatment effect is unstable, and maintenance cost is high, and can not denitration simultaneously.Denitration generally adopts SCR and SNCR, SNCR method i.e. SNCR method at present, and its primary raw material is urea, and existing problems are: denitration efficiency is low, is less than 50%, and the escaping of ammonia is serious, affects surrounding enviroment and affects boiler efficiency; SCR method i.e. selective catalytic reduction, its primary raw material is urea.Existing problems are: denitration efficiency is low, 60-80%, and catalyst easily blocks, and flue dust affects catalyst life, and the escaping of ammonia is serious, has corrosion, affects surrounding enviroment.

Summary of the invention:

The present invention is in order to make up the deficiencies in the prior art, provide a kind of denitration of boiler smoke, desulfation dust-extraction device and technique, produce without waste water, waste gas and useless solids, without the escaping of ammonia phenomenon, environment-friendly and green, do not use catalyst, do not rely on ammonia, some safety problems in ammonia use are thoroughly stopped, as liquefied ammonia reveals poisoning, the frostbite, blast etc. caused, remove flue gas particles, oxysulfide and nitrogen oxide efficiency high, stably reaching standard discharge can be realized, solve problems of the prior art.

The present invention for solving the problems of the technologies described above adopted technical scheme is:

A kind of denitration of boiler smoke, desulfation dust-extraction device, comprise a high-gravity rotating bed pollution control device, a high-gravity rotating bed pollution control device air inlet is connected by pipeline with boiler flue gas outlet, the alkaline absorption solution of a high-gravity rotating bed pollution control device is added entrance and is connected with alkaline absorption solution circulating water pool by a water circulating pump, a high-gravity rotating bed pollution control device sewage draining exit is connected with alkaline absorption solution circulating water pool, a high-gravity rotating bed pollution control device air outlet is connected with the air inlet of low temp plasma purifier, the air outlet of low temp plasma purifier is connected with the air inlet of No. two high-gravity rotating bed pollution control devices, the nox adsorption liquid of No. two high-gravity rotating bed pollution control devices is added entrance and is connected with nox adsorption liquid circulating water pool by No. two water circulating pumps, the sewage draining exit of No. two high-gravity rotating bed pollution control devices is connected with nox adsorption liquid circulating water pool, the air outlet of No. two high-gravity rotating bed pollution control devices is connected with smoking blower fan.

Use the denitration of boiler smoke of above-mentioned denitration of boiler smoke, desulfation dust-extraction device, desulfurization dust-removing technique, comprise the following steps:

(1) desulfurization and dedusting: boiler smoke enters a high-gravity rotating bed pollution control device and fully mixes with the alkaline absorption solution in a high-gravity rotating bed pollution control device and contact, and removes particle and oxysulfide;

(2) pyrolysis oxidization: the flue gas removed after particle and oxysulfide enters low temp plasma purifier, oxidation of nitric oxide water-fast in nitrogen oxide, by saturated with moisture, nitrogen oxide pyrolysis oxidization, is risen valency and becomes high price nitrogen oxide by the high energy electron produced by discharge of plasma in low temperature and strong oxidizer hydroxyl radical free radical;

(3) oxidative absorption: the flue gas of pyrolysis oxidization enters No. two high-gravity rotating bed pollution control devices, the strong oxidizer that in step (2), low temperature plasma produces together enters No. two high-gravity rotating bed pollution control devices in company with flue gas to be continued and flue gas oxidation reaction, the nox adsorption liquid injected to No. two high-gravity rotating bed pollution control devices absorbs higher-priced nitrogen oxide, removes nitrogen oxides in effluent.

In described step (1), first boiler smoke temperature is down to less than 150 DEG C, and then carries out desulfurization and dedusting.

Described alkaline absorption solution is NaOH.

Described nox adsorption liquid is NaOH.

Described boiler smoke intake is 50000m³/ h, and described kind of dust is 450mg/m³, sulfur dioxide concentration is 1800mg/m³, nitrous oxides concentration is 900mg/m³time, the alkaline absorbent flow quantity of pH value 10 ~ 12 used is 15m³/ h, consumption is 6kg/h, and the nox adsorption flow quantity of pH value 10 ~ 12 is 10m³/ h, consumption is 4kg/h.

The present invention adopts such scheme, reasonable in design, produce without waste water, waste gas and useless solids, without the escaping of ammonia phenomenon, environment-friendly and green, do not use catalyst, do not rely on ammonia, thoroughly stopped ammonia use in some safety problems, as liquefied ammonia reveals poisoning, the frostbite, blast etc. caused, remove flue gas particles, oxysulfide and nitrogen oxide efficiency high, stably reaching standard discharge can be realized.

Accompanying drawing illustrates:

Fig. 1 is the structural representation of denitration of boiler smoke of the present invention, desulfation dust-extraction device.

In figure, 1, a high-gravity rotating bed pollution control device, 2, high-gravity rotating bed pollution control device air inlet, 3, alkaline absorption solution adds entrance, 4, a water circulating pump, 5, a high-gravity rotating bed pollution control device sewage draining exit, 6, high-gravity rotating bed pollution control device air outlet, 7, low temp plasma purifier, 8, No. two high-gravity rotating bed pollution control devices, 9, nox adsorption liquid adds entrance, 10, No. two water circulating pumps, and 11, smoking blower fan.

Detailed description of the invention:

For clearly demonstrating the technical characterstic of this programme, below by detailed description of the invention, and in conjunction with its accompanying drawing, the present invention will be described in detail.

As shown in Figure 1, a kind of denitration of boiler smoke, desulfation dust-extraction device, comprise a high-gravity rotating bed pollution control device 1, a high-gravity rotating bed pollution control device air inlet 2 is connected by pipeline with boiler flue gas outlet, the alkaline absorption solution of a high-gravity rotating bed pollution control device 1 is added entrance 3 and is connected with alkaline absorption solution circulating water pool by a water circulating pump 4, a high-gravity rotating bed pollution control device sewage draining exit 5 is connected with alkaline absorption solution circulating water pool, a high-gravity rotating bed pollution control device air outlet 6 is connected with the air inlet of low temp plasma purifier 7, the air outlet of low temp plasma purifier 7 is connected with the air inlet of No. two high-gravity rotating bed pollution control devices 8, the nox adsorption liquid of No. two high-gravity rotating bed pollution control devices 8 is added entrance 9 and is connected with nox adsorption liquid circulating water pool by No. two water circulating pumps 10, the sewage draining exit of No. two high-gravity rotating bed pollution control devices 8 is connected with nox adsorption liquid circulating water pool, the air outlet of No. two high-gravity rotating bed pollution control devices 8 is connected with smoking blower fan 11.

Use the denitration of boiler smoke of above-mentioned denitration of boiler smoke, desulfation dust-extraction device, desulfurization dust-removing technique process as follows: being cooled to after below 150 DEG C through cooling process from boiler flue gas out and entering a high-gravity rotating bed pollution control device 1 through a high-gravity rotating bed pollution control device air inlet 2, take kind of dust as 450mg/m³, sulfur dioxide concentration is 1800mg/m³, nitrous oxides concentration is 900mg/m³, boiler smoke intake is 50000m³/ h is example, and add through a water circulating pump 4 and alkaline absorption solution entrance 3 to add alkaline absorption solution from pH value 10 ~ 12 to a high-gravity rotating bed pollution control device 1, flow is 15m³/ h, alkaline absorption solution can select NaOH, utilizes the effect of hypergravity to make gas, liquid, solid three fully mix contact, and reach and remove particle dust and oxysulfide object in flue gas, alkaline absorption solution consumption is 6kg/h.Absorb saturated alkaline absorption solution and enter circulating water pool by a high-gravity rotating bed pollution control device sewage draining exit 5, after filtering-depositing, reuse.

Remove after the flue gas after particle and oxysulfide is discharged by a high-gravity rotating bed pollution control device air outlet 6 and enter low temp plasma purifier 7, the high energy electron produced by discharge of plasma in low temperature and strong oxidizer hydroxyl radical free radical are by saturated with moisture, nitrogen oxide pyrolysis oxidization, oxidation of nitric oxide water-fast in nitrogen oxide is risen valency and becomes high price nitrogen oxide, as: nitrogen dioxide, nitrogen trioxide, dinitrogen tetroxide etc.

The flue gas of pyrolysis oxidization enters No. two high-gravity rotating bed pollution control devices 8 after the air outlet of low temp plasma purifier 7 is discharged, the strong oxidizer that low temperature plasma produces together enters No. two high-gravity rotating bed pollution control devices 8 in company with flue gas to be continued and flue gas oxidation reaction, add through No. two water circulating pumps 10 and nox adsorption liquid entrance 9 to inject nox adsorption liquid from pH value 10 ~ 12 to No. two high-gravity rotating bed pollution control devices 8, flow is 10m³/ h, nox adsorption liquid can select NaOH, and under the effect of hypergravity, make gas-liquid two-phase fully mix contact absorption risen the high price nitrogen oxide of valency, remove nitrogen oxides in effluent, nox adsorption liquid consumption is 4kg/h.Absorb saturated nox adsorption liquid and enter circulating water pool by the sewage draining exit of No. two high-gravity rotating bed pollution control devices 8, after filtering-depositing, reuse.Flue gas after denitration, desulfurization and dedusting is qualified discharge air under the blast of smoking blower fan.

The running temperature interval of apparatus of the present invention can between 30 DEG C to 150 DEG C, energy smoke treatment air quantity 3000 ~ 100000m³/ h, dust concentration 1500 ~ 100mg/m³, sulfoxide concentration 1500 ~ 100mg/m³, nitrous oxides concentration 10000 ~ 100mg/m³.Can by dust concentration from 1500mg/m³be down to 5mg/m³within, nitrous oxides concentration can from 10000mg/m³be down to 50mg/m³within, sulfur dioxide concentration can from 1500mg/m³be down to 30mg/m³within.

The present invention does not describe part in detail, is the known technology of those skilled in the art of the present technique.

Claims (6)

1. a denitration of boiler smoke, desulfation dust-extraction device, it is characterized in that: comprise a high-gravity rotating bed pollution control device, a high-gravity rotating bed pollution control device air inlet is connected by pipeline with boiler flue gas outlet, the alkaline absorption solution of a high-gravity rotating bed pollution control device is added entrance and is connected with alkaline absorption solution circulating water pool by a water circulating pump, a high-gravity rotating bed pollution control device sewage draining exit is connected with alkaline absorption solution circulating water pool, a high-gravity rotating bed pollution control device air outlet is connected with the air inlet of low temp plasma purifier, the air outlet of low temp plasma purifier is connected with the air inlet of No. two high-gravity rotating bed pollution control devices, the nox adsorption liquid of No. two high-gravity rotating bed pollution control devices is added entrance and is connected with nox adsorption liquid circulating water pool by No. two water circulating pumps, the sewage draining exit of No. two high-gravity rotating bed pollution control devices is connected with nox adsorption liquid circulating water pool, the air outlet of No. two high-gravity rotating bed pollution control devices is connected with smoking blower fan.

2. use denitration of boiler smoke, the denitration of boiler smoke of desulfation dust-extraction device, desulfurization dust-removing technique described in claim 1, it is characterized in that: comprise the following steps:

(1) desulfurization and dedusting: boiler smoke enters a high-gravity rotating bed pollution control device and fully mixes with the alkaline absorption solution in a high-gravity rotating bed pollution control device and contact, and removes particle and oxysulfide;

(2) pyrolysis oxidization: the flue gas removed after particle and oxysulfide enters low temp plasma purifier, oxidation of nitric oxide water-fast in nitrogen oxide, by saturated with moisture, nitrogen oxide pyrolysis oxidization, is risen valency and becomes high price nitrogen oxide by the high energy electron produced by discharge of plasma in low temperature and strong oxidizer hydroxyl radical free radical;

(3) oxidative absorption: the flue gas of pyrolysis oxidization enters No. two high-gravity rotating bed pollution control devices, the strong oxidizer that in step (2), low temperature plasma produces together enters No. two high-gravity rotating bed pollution control devices in company with flue gas to be continued and flue gas oxidation reaction, the nox adsorption liquid injected to No. two high-gravity rotating bed pollution control devices absorbs higher-priced nitrogen oxide, removes nitrogen oxides in effluent.

3. denitration of boiler smoke according to claim 2, desulfurization dust-removing technique, is characterized in that: in described step (1), first boiler smoke temperature is down to less than 150 DEG C, and then carries out desulfurization and dedusting.

4. denitration of boiler smoke according to claim 2, desulfurization dust-removing technique, is characterized in that: described alkaline absorption solution is NaOH.

5. denitration of boiler smoke according to claim 2, desulfurization dust-removing technique, is characterized in that: described nox adsorption liquid is NaOH.

6. denitration of boiler smoke according to claim 2, desulfurization dust-removing technique, is characterized in that: described boiler smoke intake is 50000m³/ h, and described kind of dust is 450mg/m³, sulfur dioxide concentration is 1800mg/m³, nitrous oxides concentration is 900mg/m³time, the alkaline absorbent flow quantity of pH value 10 ~ 12 used is 15m³/ h, consumption is 6kg/h, and the nox adsorption flow quantity of pH value 10 ~ 12 is 10m³/ h, consumption is 4kg/h.