CN204100274U - A kind of reducing agent straight line injecting type denitration boiler - Google Patents

Abstract

Reducing agent straight line injecting type denitration boiler of the present utility model, comprise the inner combustion furnace for burner hearth and the inner cyclone separator for disengagement chamber, the top of combustion furnace is communicated with cyclone separator by connecting pipe; Be characterised in that: the furnace wall of combustion furnace is provided with multiple for the straight line shower nozzle to injection reduction agent in burner hearth, straight line shower nozzle forms the injection of reducing agent ray of linearity after injection reduction agent in burner hearth.Straight line shower nozzle is arranged on the furnace wall of the combustion furnace of temperature corresponding to 850 DEG C of-950 DEG C of flue gases in burner hearth.Fluidized-bed combustion boiler of the present utility model, not only make reducing agent more even with mixing of nitrogen oxides in effluent, and be more conducive to the abundant reflection of reducing agent and NOx, by in the past about 50% denitration rate be promoted to 80% effect, significantly reduce the content of nitrogen oxide in Fluidized Bed Boiler emission gases, alleviate the pollution of coal-burning boiler to air.

Description

A kind of reducing agent straight line injecting type denitration boiler

Technical field

The utility model relates to a kind of fluidized-bed combustion boiler, in particular, particularly relates to a kind of reducing agent straight line injecting type denitration boiler.

Background technology

Under CFBB adopts short grained coal and air to be in fluidized state in burner hearth, make the technology of high velocity air and the entrained abundant catalytic combustion of dense suspension coal particle, converting heat for fuel combustion being produced is energy in steam, and then promotion mechanical part is done manual work.

Fuel is in the process of burner hearth combustion, sulfur-bearing, nitrogen-containing compound can be produced, be drained in air and can cause atmosphere pollution, in order to avoid or the burning that alleviates fossil fuel pollution that air is caused, generally can carry out desulphurization denitration process to the fuel burnt in fluidized-bed combustion boiler.The method of denitration of existing recirculating fluidized bed is for spraying into vaporific reducing agent (reducing agent described in present specification is ammoniacal liquor or aqueous solution of urea) in the flue gas to burning generation, utilize the NOx compound in ammonia and flue gas to react, realize the object of denitration.But because the form of injection reduction agent and position make the effect of denitration unsatisfactory.The patent document that the such as patent No. is 201320863782.2, denomination of invention is " a kind of CFBB SNCR denitration system based on fluidised form reconstruct ", spray gun 16 disclosed in it is arranged between boiler hearth of circulating fluidized bed 6 and circulating fluidized bed boiler separator 7, and this installation position makes denitration efficiency not high.

All adopt in prior art in the flue gas produced to burning and spray into vaporific reducing agent, and think to only have the vaporific reducing agent of employing that flue gas just can be made fully to mix with reducing agent always, actually this is not so, the flow velocity of flue gas in fluidized-bed combustion boiler produced due to burning is very fast, namely taken away by the flue gas of high flow rate after vaporific reducing agent ejection, vaporific reducing agent also can be incident upon center, makes the mixed effect of reducing agent and flue gas not good, makes denitration rate not high.Moreover existing reducing agent Fine spray shower nozzle is generally positioned on the pipeline between burning boiler and cyclone separator, and the temperature of flue gas is relatively low herein, is not the mixed best denitration temperature of reducing agent and flue gas, makes denitration not high further.

Summary of the invention

The utility model, in order to overcome the shortcoming of above-mentioned technical problem, provides a kind of reducing agent straight line injecting type denitration boiler.

Reducing agent straight line injecting type denitration boiler of the present utility model, comprise the inner combustion furnace for burner hearth, its special feature is: the furnace wall of described combustion furnace is provided with multiple for the straight line shower nozzle to injection reduction agent in burner hearth, straight line shower nozzle forms the injection of reducing agent ray of linearity after injection reduction agent in burner hearth.

Reducing agent straight line injecting type denitration boiler of the present utility model, described straight line shower nozzle is arranged on the furnace wall of the combustion furnace of temperature corresponding to 850 DEG C of-1100 DEG C of flue gases in burner hearth.

Reducing agent straight line injecting type denitration boiler of the present utility model, described straight line shower nozzle is arranged at the side of furnace wall of combustion furnace, both sides, three sides or surrounding, and described straight line shower nozzle is positioned at the same cross section of combustion furnace.

Reducing agent straight line injecting type denitration boiler of the present utility model, the furnace wall of described combustion furnace comprises spaced water cooling tube, and be wallboard between adjacent water cooling tube, the periphery of water cooling tube and wallboard is provided with heat-insulation layer; Straight line shower nozzle is arranged at the both sides of burner hearth equally spacedly, straight line shower nozzle through heat-insulation layer and wallboard, the water inlet of straight line shower nozzle be connected with provide reducing agent to reducing agent pipe; The straight line shower nozzle of burner hearth both sides is crisscross arranged, and injection of reducing agent ray that it is sprayed becomes to be parallel to each other state.

Reducing agent straight line injecting type denitration boiler of the present utility model, the distance between two adjacent injection of reducing agent rays of described straight line shower nozzle ejection is 20cm-40cm.

Reducing agent straight line injecting type denitration boiler of the present utility model, described boiler is fluidized-bed combustion boiler or chain-arranged type boiler; When for fluidized-bed combustion boiler, comprise the inner cyclone separator for disengagement chamber, the top of combustion furnace is communicated with cyclone separator by connecting pipe, and the bottom of cyclone separator is communicated with the bottom of combustion furnace by reflux line.

Reducing agent straight line injecting type denitration boiler of the present utility model, described straight line shower nozzle comprises base, urceolus, inner core and artificial spar head, and inner core and urceolus are coaxially arranged, and the inside of inner core is flowing lumen, is outer chamber between inner core and urceolus; One end and the base of urceolus fix, and the other end and artificial spar head fix, and the center of artificial spar offers the spout of injection reduction agent; One end of inner core is connected with connector through after base, the other end is fixed with needle stand, needle stand is fixed with needle seal spout being carried out to shutoff; Inner core is provided with the sealing ring to the shutoff of outer chamber near the periphery of base one end, is provided with fairlead and return spring between sealing ring and base; Inner core is provided with the stop collar led to inner core near the periphery of needle stand one end, the tube wall of inner core offers the first opening being communicated with flowing lumen and outer chamber, stop collar offers the second through hole be convenient to reducing agent and flowed out.

The beneficial effects of the utility model: fluidized-bed combustion boiler of the present utility model, change the form and position of in boiler smoke, adding reducing agent in the past, interpolation wire reducing agent was changed into by adding vaporific reducing agent in boiler in the past, and the straight line shower nozzle adding reducing agent is arranged on the furnace wall of combustion furnace, being preferably flue-gas temperature in burner hearth is the position of 850 DEG C-950 DEG C, instead of the outlet flue place of combustion furnace in the past, not only make reducing agent more even with mixing of nitrogen oxides in effluent, and be more conducive to the abundant reflection of reducing agent and NOx, by in the past about 50% denitration rate be promoted to 80% effect, significantly reduce the content of nitrogen oxide in Fluidized Bed Boiler emission gases, alleviate atmosphere pollution.

Straight line shower nozzle is made up of base, urceolus, inner core, synthetic quartz head, needle seal, return spring and stop collar, not during injection reduction agent, under the effect of return spring, make needle seal be inserted in spout, realize the sealing to spout, the solid particle in flue gas can be avoided to enter into spout, cause spout to block.When injection reduction agent, the reducing agent with elevated pressures enters into outer chamber by flowing lumen, the first through hole successively, and force sealing ring compression retracteding position spring to shrink, inner core drives needle seal to move, spout is opened, the reducing agent of larger pressure, through the second through hole, spout ejection, forms linearity injection of reducing agent ray.

Accompanying drawing explanation

Fig. 1 is reducing agent straight line injecting type denitration boiler structure schematic diagram of the present utility model;

Fig. 2 is the laying schematic diagram of the utility model cathetus shower nozzle on combustion furnace;

Fig. 3 is the partial enlarged drawing of a-quadrant in Fig. 2;

Fig. 4 is the structure chart of the utility model cathetus shower nozzle;

Fig. 5 is the partial enlarged drawing in B region in Fig. 4;

Schematic diagram when Fig. 6 is the injection reduction agent of the utility model cathetus shower nozzle.

In figure: 1 combustion furnace, 2 cyclone separators, 3 connecting pipes, 4 burner hearths, 5 disengagement chambers, 6 straight line shower nozzles, 7 reflux lines, 8 high temperature superheaters, 9 low temperature superheaters, 10 water cooling tubes, 11 wallboards, 12 heat-insulation layers, 13 to reducing agent pipe, 14 injection of reducing agent rays, 15 bases, 16 urceolus, 17 inner cores, 18 flowing lumens, 19 artificial spar heads, 20 spouts, 21 needle seals, 22 needle stands, 23 sealing rings, 24 stop collars, 25 return springs, 26 first through holes, 27 fairleads, 28 second through holes, 29 first limiting stands, 30 second limiting stands, 31 outer chambeies, 32 connectors, 33 clamps.

Detailed description of the invention

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

As shown in Figure 1, give reducing agent straight line injecting type denitration boiler structure schematic diagram of the present utility model, it comprises combustion furnace 1, cyclone separator 2, connecting pipe 3, straight line shower nozzle 6, reflux line 7, high temperature superheater 8 and low temperature superheater 9; The inside of shown combustion furnace 1 is burner hearth 4, and coal-fired burning in burner hearth 4 forms high-temperature flue gas, and high-temperature flue gas heats the water body in water cooling tube on furnace wall 10, forms high-temperature steam.The top of combustion furnace 1 is communicated by the top of connecting pipe 3 with cyclone separator 2, and the high-temperature flue gas in combustion furnace 1 enters into cyclone separator 2 by connecting pipe 3, and the inside of cyclone separator 2 is disengagement chamber 5.

In disengagement chamber 5 in cyclone separator 2, the solid constituent in flue gas falls, and reenters in combustion furnace 1 through reflux line 7, forms CFBB.The outlet of smoke components through cyclone separator 2 top is discharged, and the flue gas after discharge absorbs through high temperature superheater 8 and low temperature superheater 9 again.In order to remove the nitrogen oxide in flue gas, adopt and spraying reducing agent (as liquefied ammonia or aqueous solution of urea) in flue gas, utilize reducing agent to the reduction reaction of nitrogen oxide in prior art, is nitrogen and water by conversion of nitrogen oxides, to reduce nitrogen contamination.

But all adopt in prior art on the connecting pipe 3 between combustion furnace 1 and cyclone separator 2 and the shower nozzle spraying vaporific reducing agent is set, because the flow velocity of the flue gas of discharging from combustion furnace 1 is higher, taken away by flue gas immediately after vaporific injection of reducing agent spills, make reducing agent cannot reach flue gas center, cause the mixed effect of reducing agent and flue gas not good, reduce the reduction efficiency of ammonia to nitrogen oxide.Meanwhile, because the optimal reaction temperature of ammonia and nitrogen oxide is about 900 DEG C, but the flue-gas temperature in connecting pipe 3 is far below this temperature, cause ammonia and reaction of nitrogen oxides insufficient, make the denitration efficiency of flue gas not high.

In order to solve the problems of the technologies described above, the straight line shower nozzle 6 of injection reduction agent is arranged on the furnace wall of combustion furnace 1 by the utility model, is preferably arranged in burner hearth 4 on the furnace wall of flue-gas temperature corresponding to 850 DEG C-1100 DEG C, on the furnace wall of the best corresponding to 900 DEG C.The reducing agent that straight line shower nozzle 6 sprays is linearity, is so more conducive to the center position that injection of reducing agent is mapped to flue gas, makes reducing agent more even with mixing of flue gas.

As shown in Figure 2, give the laying schematic diagram of the utility model cathetus shower nozzle 6 on combustion furnace 1, Fig. 3 gives the partial enlarged drawing of a-quadrant in Fig. 2, shown in the furnace wall of combustion furnace 1 arranged by water cooling tube 10 and wallboard 11 successively interval and form, the periphery of water cooling tube 10 and wallboard 11 is heat-insulation layer 12, water body in water cooling tube 10, for absorbing the energy of flue gas, forms the high-temperature steam that can do work to external world.Straight line shower nozzle 6 passes heat-insulation layer 12, wallboard 11 successively to injection reduction agent in burner hearth 4, and straight line shower nozzle 6 is connected with injection of reducing agent ray 14, and shown straight line shower nozzle 6 is arranged on the furnace wall of burner hearth 4 both sides.Straight line shower nozzle 6 spaced set of the same side, the straight line shower nozzle 6 of both sides is crisscross arranged, the injection of reducing agent ray 14 that the reducing agent that the straight line shower nozzle 6 of both sides is sprayed becomes to be parallel to each other, the distance between adjacent injection of reducing agent ray 14 is 20cm-40cm is best, is preferably 30cm.

Like this, the injection of reducing agent ray 14 ejected due to straight line shower nozzle 6 is in line shape, makes reducing agent can enter into the center position of flue gas, makes flue gas more abundant with mixing of reducing agent, be conducive to the abundant reaction of ammonia and nitrogen oxides in effluent, improve denitration efficiency.Because 900 DEG C is the optimal reaction temperature of reducing agent and nitrogen oxides in effluent, being on the furnace wall of combustion furnace 1 of about 900 DEG C by straight line shower nozzle 6 being arranged on flue-gas temperature, being more conducive to the denitration efficiency improving flue gas.

Because straight line shower nozzle 6 is arranged on combustion furnace 1, in the burner hearth 4 of combustion furnace 1, there is a large amount of dust granules, should ensure that straight line shower nozzle 6 is not blocked by dust.Give the structural representation of the utility model cathetus shower nozzle 6 as shown in Figure 4, it comprises base 15, urceolus 16, inner core 17, artificial spar head 19, needle seal 21, needle stand 22, sealing ring 23, stop collar 24, return spring 25, fairlead 27, connector 32 and clamp 33; The central authorities of shown base 15 are through hole, and the left end of urceolus 16 is fixed on base 15 by clamp 33, and right-hand member and artificial spar head 19 fix, and artificial spar head 19 offer the spout 20 of injection reduction agent.Inner core 17 is positioned at the inside of urceolus 16 and coaxially arranges with it, and the inside of inner core 17 is flowing lumen 18, forms outer chamber 31 between inner core 17 and urceolus 16.

Connector 32 is arranged at the right-hand member of inner core 17, and inner core 17 is connected with to reducing agent pipe 13 by connector 32.Needle stand 22 is fixed on the left end of inner core 17, and needle seal 21 is fixed on needle stand 22, and needle seal 21 realizes the sealing function to spout 20.The outer wall of shown inner core 17 right-hand member is provided with the first limiting stand 29, and the internal diameter of base 15 is less than the internal diameter of urceolus 16, is formed with the second limiting stand 30, and sealing ring 23 is arranged near the first limiting stand 29 place, realizes the sealing function to outer chamber 31.Be provided with return spring 25 between sealing ring 23 and the second limiting stand 30, between return spring 25 and inner core 16, be provided with stop collar 24.Inner core 17 offers the first through hole 26, flowing lumen 18 is communicated with outer chamber 31 by the first through hole 26.The outer wall of inner core 17 left end is provided with fairlead 27, in the process that inner core moves left and right, by the guide effect of fairlead 27, can ensures that needle seal 21 is aimed at spout 20 all the time, to realize the sealing function to spout 20.

When not having reducing agent to inject, under the elastic force effect of return spring 25, by needle seal 21 being forced to head into in spout 20 to the force of sealing ring 23, spout 20 is made to be in sealing state, the solid particle in burner hearth 4 can be avoided to enter into spout 20, cause spout 20 to block.When there being reducing agent to circulate in chamber 18, the reducing agent with elevated pressures enters into outer chamber 31 through the first through hole 26, the pressure in outer chamber 31 is made to become large, sealing ring 23 moves to left while further compression retracteding position spring 25, when the right-hand member of stop collar 24 touches on the second limiting stand 30, inner core 17 stops mobile, now needle seal 21 shifts out from spout 20, reducing agent is just sprayed by the second through hole 28, spout 20, form injection of reducing agent ray 14, realize fully mixing of reducing agent and flue gas.

Fluidized-bed combustion boiler of the present utility model, not only make reducing agent more even with mixing of nitrogen oxides in effluent, and be more conducive to the abundant reflection of reducing agent and NOx, by in the past about 50% denitration rate be promoted to 80% effect, significantly reduce the content of nitrogen oxide in Fluidized Bed Boiler emission gases, alleviate the pollution to air.

Claims (7)

1. a reducing agent straight line injecting type denitration boiler, comprise the inner combustion furnace (1) for burner hearth (4), it is characterized in that: the furnace wall of described combustion furnace is provided with multiple for the straight line shower nozzle (6) to injection reduction agent in burner hearth, straight line shower nozzle forms the injection of reducing agent ray (14) of linearity after injection reduction agent in burner hearth.

2. reducing agent straight line injecting type denitration boiler according to claim 1, is characterized in that: described straight line shower nozzle (6) is arranged on the furnace wall of the combustion furnace (1) of burner hearth (4) interior temperature corresponding to 850 DEG C of-1100 DEG C of flue gases.

3. reducing agent straight line injecting type denitration boiler according to claim 1 and 2, it is characterized in that: described straight line shower nozzle (6) is arranged at the side of combustion furnace (1) furnace wall, both sides, three sides or surrounding, and described straight line shower nozzle is positioned at the same cross section of combustion furnace.

4. reducing agent straight line injecting type denitration boiler according to claim 1 and 2, it is characterized in that: the furnace wall of described combustion furnace (1) comprises spaced water cooling tube (10), be wallboard (11) between adjacent water cooling tube, the periphery of water cooling tube and wallboard is provided with heat-insulation layer (12); Straight line shower nozzle (6) is arranged at the both sides of burner hearth (4) equally spacedly, straight line shower nozzle through heat-insulation layer and wallboard, the water inlet of straight line shower nozzle be connected with provide reducing agent to reducing agent pipe (13); The straight line shower nozzle of burner hearth both sides is crisscross arranged, and injection of reducing agent ray (14) that it is sprayed becomes to be parallel to each other state.

5. reducing agent straight line injecting type denitration boiler according to claim 4, is characterized in that: the distance between the two adjacent injection of reducing agent rays (14) that described straight line shower nozzle (6) sprays is 20cm-40cm.

6. reducing agent straight line injecting type denitration boiler according to claim 1 and 2, is characterized in that: described boiler is fluidized-bed combustion boiler or chain-arranged type boiler; When for fluidized-bed combustion boiler, comprise the inner cyclone separator (2) for disengagement chamber (5), the top of combustion furnace (1) is communicated with cyclone separator by connecting pipe (3), and the bottom of cyclone separator is communicated with the bottom of combustion furnace by reflux line (7).

7. reducing agent straight line injecting type denitration boiler according to claim 1 and 2, it is characterized in that: described straight line shower nozzle (6) comprises base (15), urceolus (16), inner core (17) and artificial spar head (19), inner core and urceolus are coaxially arranged, the inside of inner core is flowing lumen (18), is outer chamber (31) between inner core and urceolus; One end and the base of urceolus fix, and the other end and artificial spar head fix, and the center of artificial spar offers the spout (20) of injection reduction agent; One end of inner core is connected with connector (32) afterwards through base (15), the other end is fixed with needle stand (22), needle stand is fixed with the needle seal (21) spout being carried out to shutoff; Inner core is provided with the sealing ring (23) to the shutoff of outer chamber near the periphery of base one end, be provided with stop collar (24) and return spring (25) between sealing ring and base; Inner core is provided with the fairlead (27) led to inner core near the periphery of needle stand one end, the tube wall of inner core offers the first opening being communicated with flowing lumen and outer chamber, stop collar offers the second through hole (28) be convenient to reducing agent and flowed out.