CN203848702U - Sintering machine flue gas desulfurization device - Google Patents

Abstract

A sintering machine flue gas desulfurization device comprises a sintering machine, an air box, a cyclone dust collector, a booster fan, a desulfurizing tower, a bag-type dust collector, a main fan and a chimney. The sintering machine flue gas desulfurization device is characterized in that the sintering machine is sequentially connected with the air box, the cyclone dust collector, the booster fan, the desulfurizing tower, the bag-type dust collector, the main fan and the chimney, an electric control valve is connected between the air box and the cyclone dust collector, an outlet of the booster fan is connected with an air inlet of the desulfurizing tower, the upper portion of the air inlet of the desulfurizing tower is connected with a throat pipe, the upper portion of the throat pipe is connected with a powder spray opening of the desulfurizing tower, the upper portion of the powder spray opening is connected with a flue gas outlet, the flue gas outlet is connected with the bag-type dust collector, the lower portion of the bag-type dust collector is connected with an air chute, the bottom of the air chute is connected with a Roots blower, the side face of the air chute is connected with a desulfurizing agent circulating pipeline, and the powder spray opening of the desulfurizing tower is connected with a mixing generator through a spray pipe. The sintering machine flue gas desulfurization device has the advantages of being high in desulfurizing efficiency, low in investment and operation cost, high in reliability, easy to maintain, small in occupied area, long in system service life and the like.

Description

A kind of flue gas of sintering machine equipment

Technical field

The utility model relates to a kind of desulphurization plant of flue gas, especially relates to a kind of flue gas of sintering machine equipment.

Background technology

At present, in the coke powder that SINTERING PRODUCTION is used and coal dust, contain sulphur, in 1200 DEG C of high-temperature firing processes of sintering machine, in raw material, approximately have 90% sulphur to generate SO through chemical reaction ₂enter sinter fume, the SO of sintering machine discharge ₂account for domestic SO ₂a big chunk of total emission volumn, is the emission source that is only second to thermal power plant, according to the analysis to sinter fume, has following features:

(1) in sinter fume, SO2 change in concentration is very fast and fluctuation of concentration amplitude is large;

(2) flue-gas temperature of sintering discharge fluctuation between 100 DEG C～150 DEG C conventionally;

(3) dust concentration in sinter fume is substantially at 100g/Nm ³to 150g/Nm ³between change;

(4) oxygen content of sintering discharge flue gas changes between 14%～18%, and SO in flue gas ₂there is certain corresponding relation in the variation of concentration and the variation of oxygen content: SO when oxygen content is on the low side in flue gas ₂concentration is higher; SO when oxygen content is higher in flue gas ₂concentration is on the low side;

(5) water capacity of sintering discharge flue gas is larger, fluctuation between 8%～10.5% conventionally.

In sum, the flue-gas temperature of sintering machine is relatively low, mostly between 100～150 DEG C, residing flue gas environmental condition is more severe, oxygen content as higher in dust concentration, flue gas is higher, water capacity is large, heavy metal concentration is more high, in the situation that adopting sulphur coal, sintering device handpiece flue gas SO ₂concentration of emission reach 6000～8000mg/Nm ³, environment is caused to severe contamination, but is not also applicable to the desulphurization plant of sintering device flue gas at present.

Summary of the invention

The utility model, for the problems referred to above, provides a kind of flue gas of sintering machine equipment, has desulfuration efficiency high, and investment operating cost is low, reliability is high, and energy consumption is low, safeguards easily, the advantages such as floor space is little, system long service life, for the desulfurization processing of metallurgy sintering smoke.

The technical solution of the utility model is: a kind of flue gas of sintering machine equipment, comprise sintering machine, bellows, cyclone dust collectors, booster fan, desulfurizing tower, sack cleaner, main air blower, chimney, it is characterized in that: the described sintering machine bellows that are linked in sequence, cyclone dust collectors, booster fan, desulfurizing tower, sack cleaner, main air blower, chimney, between described bellows and cyclone dust collectors, be connected with electric control valve, cyclone dust collectors bottom is connected with electric cinder valve, described booster fan outlet is connected with desulfurizing tower air intake, desulfurizing tower air intake bottom is connected with taper ash collection slot, taper ash collection slot connects electric cinder valve, desulfurizing tower air intake top is connected with trunnion, trunnion top is connected with the desulfurizing tower mouth that dusts, mouthful top of dusting is connected with exhanst gas outlet, exhanst gas outlet connects sack cleaner, sack cleaner bottom is connected with air flume, air flume bottom is connected with roots blower, air flume side connects desulfurizing agent circulating line, desulfurizing agent circulating line one tunnel connects desulfurizing agent recycle feed valve, another road connects ash silo motor-driven valve, ash silo motor-driven valve connects ash silo, ash silo bottom connects electric cinder valve, desulfurizing tower dusts and mouthful connects mixture generator by playpipe, mixture generator one tunnel connects roots blower, mixture generator top connects frequency conversion rotary feeder, frequency conversion rotary feeder connecting electronic spiral claims, electron helical claims to connect discharger, discharger connects desulfurizing agent feed bin.

The beneficial effects of the utility model are: the utlity model has the advantages such as desulfuration efficiency is high, and investment operating cost is low, and reliability is high, and energy consumption is low, safeguards easily, and floor space is little, system long service life.

Compared with prior art, the utlity model has following advantage, economic effect:

1) doctor solution consumption is few and utilization rate is high, and in cyclic process, sorbent particle is under rubbing action mutually, and constantly the exposed surface that makes new advances, constantly carries out desulphurization reaction fully, and desulfurization degree is up to 95%;

2) reaction tower has been strengthened homogenizing process, has extended the time of desulphurization reaction, has ensured system running quality;

3) in whole sweetening process, operating temperature is higher than dew point, and corrosion or condensation, do not produce without waste water;

4) desulfurizing tower is made of common iron, and without special anti-corrosion measures such as alloy, coating and rubber linings;

5) waste gas is without heating and can discharge again.

Brief description of the drawings

Fig. 1 is structural representation of the present utility model.

In Fig. 1, 1. sintering machine, 2. bellows, 3. electric flow control valve, 4. cyclone dust collectors, 5. electric cinder valve, 6. booster fan, 7. desulfurizing tower air intake, 8. taper ash collection slot, 9. electric cinder valve, 10. trunnion, 11. mouths that dust, 12. desulfurizing towers, 13. exhanst gas outlets, 14. desulfurizing agent recycle feed valves, 15. desulfurizing agent circulating lines, 16. ash silo motor-driven valves, 17. ash silos, 18. electric cinder valves, 19. playpipes, in 20., press roots blower, 21. air flumes, 22. sack cleaners, 23. desulfurizing agent feed bins, 24. dischargers, 25. electron helicals claim, 26. frequency conversion rotary feeders, 27. high pressure roots blower fans, 28. mixture generators, 29. main air blowers, 30. chimneys.

Detailed description of the invention

Below in conjunction with accompanying drawing, the utility model is further described.

As shown in Figure 1, the utility model is a kind of flue gas of sintering machine equipment, comprise sintering machine 1, bellows 2, cyclone dust collectors 4, booster fan 6, desulfurizing tower 12, sack cleaner 22, main air blower 29, chimney 30, it is characterized in that: described sintering machine 1 bellows 2 that are linked in sequence, cyclone dust collectors 4, booster fan 6, desulfurizing tower 12, sack cleaner 22, main air blower 29, chimney 30, between described bellows 2 and cyclone dust collectors 4, be connected with electric control valve 3, cyclone dust collectors 4 bottoms are connected with electric cinder valve 5, described booster fan 6 outlets are connected with desulfurizing tower air intake 7, desulfurizing tower air intake 7 bottoms are connected with taper ash collection slot 8, taper ash collection slot 8 connects electric cinder valve 9, desulfurizing tower air intake 7 tops are connected with trunnion 10, trunnion 10 tops are connected with desulfurizing tower and dust mouthfuls 11, dust mouthful 11 tops are connected with exhanst gas outlet 13, exhanst gas outlet 13 connects sack cleaner 22, sack cleaner 22 bottoms are connected with air flume 21, air flume 21 bottoms are connected with middle pressure roots blower 20, air flume 21 sides connect desulfurizing agent circulating line 15, desulfurizing agent circulating line 15Yi road connects desulfurizing agent recycle feed valve 14, another road connects ash silo motor-driven valve 16, ash silo motor-driven valve 16 connects ash silo 17, ash silo 17 bottoms connect electric cinder valve 18, desulfurizing tower dusts and mouthfuls 11 connects mixture generator 28 by pipeline 19, mixture generator 28Yi road connects high pressure roots blower fan 27, mixture generator 28 tops connect frequency conversion rotary feeder 26, frequency conversion rotary feeder 26 connecting electronic spirals claim 25, electron helical claims 25 connection dischargers 24, discharger 24 connects desulfurizing agent feed bin 23.

The course of work of the present utility model: 180m ²sintering machine 1, exhaust gas volumn 300000Nm ³/ h, SO ₂concentration 8000mg/Nm ³, dust concentration 100mg/Nm ³, 100～150 DEG C of flue-gas temperatures, sintering machine 1 flue gas enters in bellows 2 by the suction function of main air blower 29, connecting each bellows 2 to main pipeline, be provided with electric flow control valve 3, be used for mating each bellows 2 air quantity, then enter cyclone dust collectors 4, sintering machine 1 flue gas is played to the effect of pre-dedusting, the dust that pre-dedusting is got off is discharged by electric cinder valve 5, sintering machine 1 flue gas through cyclone dust collectors 4 enters desulfurizing tower 12 by the effect of booster fan 6, flue gas is accelerated at trunnion 10 places after entering desulfurizing tower 12, high velocity air is in the strong turbulent flow of the interior formation of desulfurizing tower 12, produce efficient sufficient gas-solid contact, through the flue gas that contains high concentrate dust of desulfurization processing from desulfurizing tower 12 top exhanst gas outlets 13 out, enter in the sack cleaner 22 at rear portion and carry out udst separation, flow out sack cleaner 22 through the flue gas purifying, enter the outer row of chimney 30 by main air blower 29 and clean flue,

By the injection apparatus that feed bin 23, discharger 24, electron helical claim 25, frequency conversion rotary feeder 26, high pressure roots blower fan 27, mixture generator 28, playpipe 19 etc. form desulfurizing agent, according to the amount of the exhaust gas volumn of sintering machine 1 and generation sulfide, calculate Ca (OH) ₂consumption, after electron helical claims 25 Weighings, by frequency conversion rotary feeder 26, according to sintering operating mode, adjust powder delivering amount with changing the mode of rotating speed, powder delivering amount is sent into blender 28, from the wind-force of high pressure roots blower fan 27, the powder that falls into blender 28 is sent into the mouth 11 that dusts by playpipe 19 and enter in desulfurizing tower 12, in desulfurizing tower 12, spread in sorbent particle in flue gas under rubbing action mutually, constantly (Asia) calcium sulfate of calcium hydroxide particle Surface Creation is removed, make the constantly exposed surface that makes new advances of calcium hydroxide of granule interior, desulphurization reaction is constantly gone on fully, the SO in flue gas ₂removal efficiency can reach 95%, due to SO ₃, the sour gas such as HF, HCL compares SO ₂easier and calcium hydroxide reacts, the interior SO of desulfurizing tower 12 ₃, HF, HCL removal efficiency can reach more than 99%, pass through air flume 21 at the interior reacted desulfurizing agent of desulfurizing tower 12, desulfurizing agent circulating line 15 carries out desulfurizing agent iterative cycles with desulfurizing tower 12, its internal circulating load is controlled by desulfurizing agent recycle feed valve 14, air flume 21 bottoms are provided with middle pressure roots blower 20, by the desulfurizing agent in air flume 21 all the time in suspended state, guarantee the reaction that removes having occurred, when after desulfurization operation a period of time, open ash silo motor-driven valve 16, by desulfurization product, dust in flue gas enters ash silo 17, discharge the circulatory system by electric cinder valve 18, desulfurizing agent induction system contacts desulfurizing agent iterative cycles with flue gas, circulating ratio reaches 100～200 times, sorbent utilization is high.

In above-mentioned technical process, there is a series of chemical change:

Ca(OH) ₂+SO ₂+1/2H ₂O→CaSO ₃.1/2H ₂O+H ₂O

Ca(OH) ₂+SO ₃+H ₂O→CaSO ₄.2H ₂O

Ca(OH) ₂+2HCL→CaCL ₂.2H ₂O

Ca(OH) ₂+2HF→CaF ₂.2H ₂O

CaSO ₃.1/2H ₂O+1/2O ₂+2/3H ₂O→CaSO ₄.2H ₂O

Ca(OH) ₂+CO ₂→CaCO ₃+H ₂O

Desulfurizing tower 12 interior mixtures dry relatively even, circulation desulfurization agent has fabulous mobility, can guarantee the stable of operating mode in desulfurizing tower 12; The particle that becomes thicker because of conglomeration in sweetening process drops in desulfurizing tower taper ash collection slot 8 under the effect of gravity, and through desulfurizing tower bottom, electric cinder valve 9 is discharged.

Secondary desulfuration reaction on cloth bag: under the effect of negative pressure, Ca (OH) ₂powder is adsorbed on cloth bag surface and forms one deck Ca (OH) ₂bisque, further reacts with the sulfur-containing smoke gas that enters deduster.In course of reaction, adopt deduster import and export pressure differential to control deashing frequency, when exceeding the upper of setting, pressure differential prescribes a time limit, cloth bag is carried out to deashing, so that Ca (OH) ₂powder is constantly adsorbed on cloth bag surface and reacts with sulfur-containing smoke gas.Ca (OH) ₂iterative cycles contacts with flue gas, Ca (OH) ₂utilization rate is high, improves desulfuration efficiency.

The maximum feature of this equipment is to utilize the calcium-based desulfurizing agent of powdery (Ca (OH) ₂) with sack cleaner collect circulation desulfurization agent together with, be transported in desulfurizing tower by air flume, the sulfuric acid gas in desulfurizing tower in flue gas removes and reacts at suspended state with the desulfurizing agent of a large amount of high concentrations.With 180m ²flue gas of sintering machine technique is example, and the utility model and conventional equipment comparison, be described as follows:

Note: work per year and calculate for 330th.

As can be seen here, the utlity model has the advantages such as desulfuration efficiency is high, and investment operating cost is low, and reliability is high, and energy consumption is low, safeguards easily, and floor space is little, system long service life.

Claims (1)

1. a flue gas of sintering machine equipment, comprise sintering machine, bellows, cyclone dust collectors, booster fan, desulfurizing tower, sack cleaner, main air blower, chimney, it is characterized in that: the described sintering machine bellows that are linked in sequence, cyclone dust collectors, booster fan, desulfurizing tower, sack cleaner, main air blower, chimney, between described bellows and cyclone dust collectors, be connected with electric control valve, cyclone dust collectors bottom is connected with electric cinder valve, described booster fan outlet is connected with desulfurizing tower air intake, desulfurizing tower air intake bottom is connected with taper ash collection slot, taper ash collection slot connects electric cinder valve, desulfurizing tower air intake top is connected with trunnion, trunnion top is connected with the desulfurizing tower mouth that dusts, mouthful top of dusting is connected with exhanst gas outlet, exhanst gas outlet connects sack cleaner, sack cleaner bottom is connected with air flume, air flume bottom is connected with roots blower, air flume side connects desulfurizing agent circulating line, desulfurizing agent circulating line one tunnel connects desulfurizing agent recycle feed valve, another road connects ash silo motor-driven valve, ash silo motor-driven valve connects ash silo, ash silo bottom connects electric cinder valve, desulfurizing tower dusts and mouthful connects mixture generator by playpipe, mixture generator one tunnel connects roots blower, mixture generator top connects frequency conversion rotary feeder, frequency conversion rotary feeder connecting electronic spiral claims, electron helical claims to connect discharger, discharger connects desulfurizing agent feed bin.