CN206320785U - Forced circulation burning coal powder hot-water boiler - Google Patents

Abstract

A kind of forced circulation burning coal powder hot-water boiler, it includes boiler body and mixing header, is arranged at the burner of boiler body one end, it is characterized in that boiler body includes connection piping, the furnace wall of burner hearth, water outlet header, connection burner hearth and water outlet header；Burner hearth is enclosed and formed by the left furnace wall of wall, burner hearth, burner hearth right furnace wall, burner hearth top furnace wall and burner hearth bottom furnace wall after burner hearth front wall, burner hearth；The left furnace wall of burner hearth and burner hearth top furnace wall constitute the left wall of burner hearth, burner hearth right furnace wall and burner hearth bottom furnace wall constitute the right wall of burner hearth, and the left wall of burner hearth and the right wall of burner hearth between the L-shaped light pipe laid out in parallel and adjacent L-shaped light pipe of some bendings by welding together the monoblock fin panel casing heating surface constituted by band steel；The left wall of burner hearth and the right wall of burner hearth it is positioned opposite and with burner hearth top-right header and burner hearth lower-left header welding composition tower structure, burner hearth top-right header and burner hearth lower-left header connect to form water circulation channel with the light pipe of the left wall of burner hearth and the right wall of burner hearth.

Description

Forced circulation burning coal powder hot-water boiler

Technical field

This programme is related to 29MW burning coal powder hot-water boilers, specially a kind of forced circulation burning coal powder hot-water boiler.

Background technology

Tube bank is complicated in existing burning coal powder boiler body, is unfavorable for sealing so that furnace wall is using heavy fire resisting With insulation brick wall, by 345mm laying fireproof bricks, heavier mass；Steelframe design need to consider boiler body and furnace wall gross weight, it is desirable to have There is certain endurance so that the total steel consumption of boiler is at 140 tons；By multiple rows of down-comer to decline header after drum feedwater, A plurality of water loop is divided into each heating surface, Water flow-path complexity by decline header again；Boiler is using single drum vertical structure, design Height is not easy to lime-ash after coal dust firing and removed in 18m and no ash dropping hopper.

The content of the invention

The purpose of this programme is to provide a kind of forced circulation burning coal powder hot-water boiler.

The purpose of this programme is realized by following technical scheme：A kind of forced circulation burning coal powder hot-water boiler, it includes Boiler body and mixing header, are arranged at the burner of boiler body one end, it is characterized in that boiler body includes burner hearth, water outlet collection Connection piping, the furnace wall of case, connection burner hearth and water outlet header；Burner hearth is by the left furnace wall of wall, burner hearth, stove after burner hearth front wall, burner hearth Thorax right furnace wall, burner hearth top furnace wall and burner hearth bottom furnace wall enclose and formed.The left furnace wall of burner hearth and burner hearth top furnace wall constitute the left wall of burner hearth, stove The left wall of thorax is to weld together group by band steel between L-shaped light pipe laid out in parallel and adjacent L-shaped light pipe by some bendings Into monoblock fin panel casing heating surface.Burner hearth right furnace wall and burner hearth bottom furnace wall constitute the right wall of burner hearth, if the right wall of burner hearth be also by The monoblock membrane type of composition is welded together between the L-shaped light pipe laid out in parallel of dry root bending and adjacent L-shaped light pipe by band steel Water wall surface.The left wall of burner hearth and the right wall of burner hearth are positioned opposite and constituted with burner hearth top-right header and burner hearth lower-left header welding Tower structure, burner hearth top-right header and burner hearth lower-left header connect to form water circulation with the light pipe of the left wall of burner hearth and the right wall of burner hearth Passage.

The specific feature of this programme also has, and furnace wall is light boiler setting, is directly wrapped on boiler body not with smoke contacts Aluminosilicate fiberboard is wrapped up in, aluminium silicate fiber is wrapped up after the thick refractory concretes of 80mm are first poured on the boiler body with smoke contacts Tie up plate；Backplate is coated again in the outside of aluminosilicate fiberboard, using light material aluminosilicate fiberboard, making is simple, it is fast to install, Low cost, and the amount of stored heat of boiler startup operation furnace wall is small, boiler insulation performance is good, and heat loss is small.

Wall uses film water cold wall structure after burner hearth front wall and burner hearth, i.e., by some light pipe laid out in parallel, adjacent Welding flat steel between two light pipes, constitutes the film water cold wall structure of monoblock, the water wall surface sealing property of this structure Good, burner hearth cross-sectional area is big, and volume is big, and heat loss is small, heat loss is reduced while burning beneficial to furnace flame, and then improve pot Furnace thermal efficiency.

Burner hearth front wall include front wall fin panel casing and the burner hearth front wall upper collecting chamber that is connected with front wall fin panel casing and Burner hearth front wall lower header, jumped in the middle of front wall pipe to be reserved with combustion port hole in front wall fin panel casing center by setting, The upper right side of front wall fin panel casing is provided with front wall upper right and jumps pipe, front wall is provided with the lower left of front wall fin panel casing left It is lower to jump pipe, it is for the ease of installation burner hearth top-right header, burner hearth lower-left header.

After burner hearth wall include after rear wall fin panel casing and the burner hearth that is connected with rear wall fin panel casing wall upper collecting chamber and Wall lower header after burner hearth, jump pipe is reserved with burner hearth exhanst gas outlet in the middle of wall after rear wall fin panel casing center is by setting, The upper right side of wall fin panel casing is provided with rear wall upper right and jumps pipe afterwards, and wall is left after being provided with the lower left of rear wall fin panel casing It is lower to jump pipe, it is for the ease of installation burner hearth top-right header, burner hearth lower-left header.

The left wall of burner hearth constitutes monoblock film-type water-cooling by Welding flat steel between the L-shaped light pipe laid out in parallel and light pipe of some bendings Wall heating surface, the right wall of burner hearth be also between L-shaped light pipe laid out in parallel and light pipe by some bendings Welding flat steel constitute monoblock film Formula water wall surface.Water circulation channel is acted not only as, but also is a part for boiler supports framework, beneficial to water circulation While can bear the weight of boiler body itself, meet boiler body pressure-bearing, shock resistance is good, without steel frame construction.Meanwhile, L-shaped structure positioned opposite allows left and right wall to share header, reduces collection box number and is easily installed.

The inner chamber of burner hearth top-right header is divided into independent three in the two pieces of upper spacers that are internally provided with of burner hearth top-right header Section.In burner hearth lower-left, the inner chamber of burner hearth bottom right header is divided into independent three sections by the two pieces of lower clapboards that are internally provided with of header, and Being interspersed above and below upper spacer and lower clapboard makes the left wall of burner hearth and the right wall of burner hearth be separated into 5 membrane walls and above and below the formation of inner chamber S-shaped circulation canal, beneficial to the left wall of burner hearth and the right formation of the portion's WATER AS FLOW MEDIUM within the walls circulation canal of burner hearth.

Water circulation path between boiler body and mixing header is：Boiler feedwater is mixed with backwater in mixing header Afterwards, successively after the water circulation channel of two grades of economizers, the water circulation channel of one-level economizer, point two-way enters boiler body Water circulation channel：All the way to wall lower header after burner hearth after fin panel casing to burner hearth wall upper collecting chamber, then by wall after burner hearth collect Case is through the first connecting tube to burner hearth top-right header, and burner hearth top-right header is through the second connecting tube to water outlet header；Another road is to burner hearth After the header of lower-left, through the 3rd connecting tube to burner hearth front wall lower header, then by burner hearth front wall lower header through fin panel casing to burner hearth Front wall upper collecting chamber, burner hearth front wall upper collecting chamber forms backwater circulation and flowed into through the 4th connecting tube to water outlet header, the water outlet of water outlet header Mixing header.

First connecting tube, the second connecting tube, the 3rd connecting tube and the 4th connecting tube connection seven headers of boiler body, promote Water circulation.Top-right header side connecting tube has been arranged in parallel on the outside of burner hearth top-right header, it is in parallel on the outside of the header of burner hearth lower-left Lower-left header side connecting tube is provided with, is to promote header interior media forward to be flowed under feedwater pump pressure in order to more preferable, keeps away Exempt to form stagnant water.

The easy slagging scorification of coal-powder boiler burning, is provided with ash dropping hopper below the furnace wall of burner hearth bottom, is located to fall ash in burner hearth bottom furnace wall Retain to fall grey passage between light pipe above bucket.

The exhanst gas outlet of boiler body is provided with one-level economizer, the stack base after one-level economizer is provided with Ash bucket, flue is first upwardly extended above ash dropping hopper, is then turned head and is arranged in n fonts downwards and connect denitrification apparatus and two Level economizer.

With being provided with soot blower on the flue before two grades of economizers before one-level economizer, beneficial to keeping, heating surface is clear It is clean.Coal dust and air are through burner after stove chamber inner combustion, and flue gas is successively through boiler body, one-level economizer, denitrification apparatus, two Level economizer completes diabatic process.

The beneficial effect of this programme is：

1）Boiler body good seal performance.Boiler body four sides uses membrane wall, and air-tightness is good, greatly reduces burner hearth leakage Wind, it might even be possible to use pressurized firing, membrane wall heat storage capacity is small, fire box's quick heating, and cooling is fast, can shorten startup And furnace outage time, improve boiler thermal output.

2）Simplify furnace wall structure.Membrane wall has good sealing so that boiler is not high to furnace wall sealing requirements, therefore Furnace wall can use light material aluminosilicate fiberboard.When boiler startup is run, the amount of stored heat of this light boiler setting is small, boiler insulation Performance is good, and heat loss is small.

3）Save steel.Tower structure and buckstay load-bearing that whole boiler body is made up of header and membrane wall, resist Pinking is good, without considering that stress carries out particular design on steelframe, while L-shaped or so wall membrane wall is positioned opposite, can make a left side Right wall shares header so that the total steel consumption of boiler is less than 90 tons.

4) unique water-flow circuit is safe and reliable.Set between boiler body header above and below multistage connecting tube and left and right wall Dividing plate is set inside header, the S-shaped water-flow circuit of uniqueness is formed in boiler body.

5）It is easy to maintenance, energy-conserving and environment-protective.Boiler uses horizontal type structure, and design total height is less than 8m, lime-ash after coal dust firing Vertical height of fall is greatly reduced, and burner hearth bottom sets ash dropped unit to be easy to deashing, while arranging soot blower, keeps heating surface Cleaning, improves fuel economy.400 DEG C or so flues section between one-level economizer and two grades of economizers installs SCR additional and taken off Nitre device, effectively prevents from producing excessive NOx pollution environment in boiler after coal combustion.

Brief description of the drawings

Fig. 1 is boiler structure front view；Fig. 2 is Fig. 1 A-A sectional views；Fig. 3 is burner hearth front wall；Fig. 4 is wall after burner hearth； Fig. 5 is Fig. 1 B-B sectional views；Fig. 6 is Fig. 5 C to structural representation；Fig. 7 is the first to five membrane wall connected relation block diagram； Fig. 8 is boiler water flow chart；Fig. 9 is Water flow-path block diagram.

In figure：1- burners；2- boiler bodies；3- one-level economizers；4- denitrification apparatus；Bis- grades of economizers of 5-；6- falls ash Bucket；7- blowing pipes；8- burner hearth front walls；Wall after 9- burner hearths；The left wall of 10- burner hearths；The right wall of 11- burner hearths；12- front wall fin panel casings； 13- burner hearth top-right headers；14- burner hearths lower-left header；15- baffle plate devices；16- mixing headers；17- water outlet headers；18- first connects Adapter；19- top-right headers side connecting tube；20- lower-lefts header side connecting tube；The connecting tubes of 21- second；The connecting tubes of 22- the 3rd；23- 4th connecting tube；24- burner hearth front wall lower headers；25- burner hearth front wall upper collecting chambers；Wall upper collecting chamber after 26- burner hearths；Wall after 27- burner hearths Lower header；Wall fin panel casing after 28-；Pipe is jumped in the middle of 29- front walls；30- combustion ports hole；31- front walls upper right jumps pipe；32- Jump pipe in front wall lower-left；Pipe is jumped after 33- in the middle of wall；34- burner hearth exhanst gas outlets；Wall upper right jumps pipe after 35-；Jump pipe in 36- Hou Qiang lower-lefts； 37- lower clapboards.

Embodiment

As shown in figure 1, a kind of forced circulation burning coal powder hot-water boiler, it includes boiler body 2 and mixing header 16, sets Burner 1 in the one end of boiler body 2, boiler body 2 includes burner hearth, water outlet header 17, connection burner hearth and water outlet header 17 Connection piping, the furnace wall for being coated on the outside of boiler body 2.Burner hearth is by the left furnace wall of wall 9, burner hearth, stove after burner hearth front wall 8, burner hearth Thorax right furnace wall, burner hearth top furnace wall and burner hearth bottom furnace wall enclose and formed.Wherein, the left furnace wall of burner hearth and burner hearth top furnace wall constitute a burner hearth left side Wall 10, the left wall 10 of burner hearth is to be welded between L-shaped light pipe laid out in parallel and adjacent L-shaped light pipe by some bendings by band steel The monoblock fin panel casing heating surface constituted together.Burner hearth right furnace wall and burner hearth bottom furnace wall constitute the right wall 11 of burner hearth, be also by The monoblock film of composition is welded together between the L-shaped light pipe laid out in parallel of some bendings and adjacent L-shaped light pipe by band steel Formula water wall surface.The left wall 10 of burner hearth and the right wall 11 of burner hearth it is positioned opposite and with burner hearth top-right header 13 and burner hearth lower-left header 14 are welded to form tower structure, burner hearth top-right header 13 and burner hearth lower-left header 14 and the left wall 10 of burner hearth and the right wall 11 of burner hearth Light pipe connects to form water circulation channel.

Furnace wall is light boiler setting, on boiler body 2 not with smoke contacts directly wrap up aluminosilicate fiberboard, with cigarette Aluminosilicate fiberboard is wrapped up after the thick refractory concretes of 80mm are first poured on the boiler body 2 of gas contact；In aluminosilicate fiberboard Outside coat backplate again, using light material aluminosilicate fiberboard, make it is simple, fast, low cost is installed, and boiler startup is transported The amount of stored heat of row furnace wall is small, and boiler insulation performance is good, and heat loss is small.

As shown in Fig. 2 wall 9 uses film water cold wall structure after burner hearth front wall 8, burner hearth, i.e., some light pipe laid out in parallel, The Welding flat steel between two adjacent light pipes, the film water cold wall structure of composition monoblock, the water wall surface of this structure, Good seal performance, burner hearth cross-sectional area is big, and volume is big, and heat loss is small, reduces heat loss while burning beneficial to furnace flame, enters And improve boiler thermal output.

As shown in figure 3, burner hearth front wall 8 includes front wall fin panel casing 12 and the stove connected with front wall fin panel casing 12 Thorax front wall upper collecting chamber 25 and burner hearth front wall lower header 24, in the center of front wall fin panel casing 12 by setting jump pipe 29 in the middle of front wall Combustion port hole 30 is reserved with, front wall upper right is provided with the upper right side of front wall fin panel casing 12 and jumps pipe 31, in front wall film The lower left of formula water-cooling wall 12 is provided with front wall lower-left and jumps pipe 32, is for the ease of installation burner hearth top-right header 13, burner hearth lower-left Header 14.

As shown in figure 4, wall 9 includes rear wall fin panel casing 28 and the stove connected with rear wall fin panel casing 28 after burner hearth Wall lower header 27 after wall upper collecting chamber 26 and burner hearth after thorax, pipe 33 is jumped after the rear center of wall fin panel casing 28 is by setting in the middle of wall Burner hearth exhanst gas outlet 34 is reserved with, wall upper right jumps pipe 35 after being provided with the upper right side of rear wall fin panel casing 28, in rear wall film The lower left of formula water-cooling wall 28 is provided with Hou Qiang lower-lefts and jumps pipe 36, is for the ease of installation burner hearth top-right header 13, burner hearth lower-left Header 14.

As shown in Figure 5 and Figure 6, the left wall 10 of burner hearth between the L-shaped light pipe laid out in parallel and light pipe of some bendings by welding flat Steel constitute monoblock fin panel casing heating surface, the right wall 11 of burner hearth be also by some bendings L-shaped light pipe laid out in parallel and light pipe it Between Welding flat steel composition monoblock fin panel casing heating surface.Water circulation channel is acted not only as, but also is boiler supports frame A part for frame, can bear the weight of boiler body itself while beneficial to water circulation, meet boiler body pressure-bearing, shock resistance It is good, without steel frame construction.Meanwhile, L-shaped structure positioned opposite allows left and right wall to share header, reduce collection box number and It is easily installed.

As shown in Figure 6 and Figure 7, two pieces of upper spacers 15 are internally provided with by burner hearth top-right header in burner hearth top-right header 13 To be divided into independent three sections, i.e. burner hearth top-right header left chamber, burner hearth top-right header intermediate cavity, burner hearth top-right header right for inner chamber Chamber.In burner hearth lower-left, the inner chamber of burner hearth bottom right header is divided into independent three by the two pieces of lower clapboards 37 that are internally provided with of header 14 Section, i.e. burner hearth lower-left header left chamber, burner hearth lower-left header intermediate cavity, burner hearth lower-left header right chamber room.Meanwhile, upper spacer 15 Being interspersed with lower clapboard about 37 makes the left wall of burner hearth and the right wall of burner hearth be separated into 5 membrane walls and the S-shaped above and below the formation of inner chamber Circulation canal, beneficial to the left wall of burner hearth and the right formation of the portion's WATER AS FLOW MEDIUM within the walls circulation canal of burner hearth.I.e. as shown in Figure 7 first to the 5th Membrane wall and burner hearth top-right header 13 and the connected relation for connecting lower-left header 14.

It is that water circulation path between boiler body and mixing header is as shown in Figure 8 and Figure 9：Boiler feedwater exists with backwater After being mixed in mixing header 16, successively after the water circulation channel of two grades of economizers 5, the water circulation channel of one-level economizer 3, point Two-way enters the water circulation channel of boiler body 2：To wall lower header 27 after burner hearth, wall fin panel casing 28 arrives burner hearth after all the way Wall upper collecting chamber 26, then by wall upper collecting chamber 26 after burner hearth through the first connecting tube 18 to burner hearth top-right header 13, burner hearth top-right header afterwards 13 arrive water outlet header 17 through the second connecting tube 21；Another road is to after burner hearth lower-left header 14, before the 3rd connecting tube 22 to burner hearth Wall lower header 24, then by burner hearth front wall lower header 24 through front wall fin panel casing 12 to burner hearth front wall upper collecting chamber 25, burner hearth front wall Upper collecting chamber 25 arrives water outlet header 17 through the 4th connecting tube 23, and the water outlet of water outlet header 17 forms backwater circulation and flows into mixing header 16.

First connecting tube 18, the second connecting tube 21, the 3rd connecting tube 22 and the 4th connecting tube 23 connection boiler body seven Header, promotes water circulation.Top-right header side connecting tube 19 is arranged in parallel in the outside of burner hearth top-right header 13, in burner hearth lower-left The outside of header 14 has been arranged in parallel lower-left header side connecting tube 20, is to promote header interior media to be pumped in feedwater in order to more preferable Forward flowed under power, it is to avoid form stagnant water.

The easy slagging scorification of coal-powder boiler burning, is provided with ash dropping hopper 6 below the furnace wall of burner hearth bottom, is located to fall ash in burner hearth bottom furnace wall Retain to fall grey passage between the light pipe of the top of bucket 6, stack base and one-level save coal between furnace outlet and one-level economizer 3 The rear pass of device 3 section bottom sets ash dropping hopper 6, is easy to lime-ash in burner hearth to fall into ash dropping hopper 6 by gap between light pipe.

It is heated beneficial to holding with being provided with soot blower 7 on the flue before two grades of economizers 5 before one-level economizer 3 Clean in face.

The exhanst gas outlet of boiler body 2 is provided with one-level economizer 3, the stack base after one-level economizer 3 is set There is ash dropping hopper 6, flue is first upwardly extended positioned at the top of ash dropping hopper 6, then turn head and arranged in n fonts downwards and connect denitration dress Put 4 and two grades of economizers 5.

As shown in figure 1, coal dust and air through burner 1 after hearth combustion, flue gas successively through boiler body 2, one-level save Coal device 3, denitrification apparatus 4, two grades of economizers 5 complete diabatic process.

Flue section cigarette temperature between one-level economizer 3 and two grades of economizers 5 is easy to De-NO_x at 400 DEG C or so 4, can be by the NO in flue gas_XThrough catalyst action, by NH₃By NO_XIt is reduced into harmless N₂And H₂O, no coupling product is not formed Secondary pollution.Such a boiler structure has reliable combustion system, while environmental pollution can be reduced.

Claims (10)

1. a kind of forced circulation burning coal powder hot-water boiler, it includes boiler body and mixing header, is arranged at boiler body one end Burner, it is characterized in that boiler body include burner hearth, water outlet header, connection burner hearth and water outlet header connection piping, furnace wall； Burner hearth be enclosed by the left furnace wall of wall, burner hearth, burner hearth right furnace wall, burner hearth top furnace wall and burner hearth bottom furnace wall after burner hearth front wall, burner hearth and Into；The left furnace wall of burner hearth and burner hearth top furnace wall constitute the left wall of burner hearth, and the left wall of burner hearth is by the L-shaped light pipe laid out in parallel of some bendings And the monoblock fin panel casing heating surface of composition is welded together between adjacent L-shaped light pipe by band steel；Burner hearth right furnace wall and Burner hearth bottom furnace wall constitutes the right wall of burner hearth, and the right wall of burner hearth is also the L-shaped light pipe laid out in parallel and adjacent L-shaped light by some bendings The monoblock fin panel casing heating surface of composition is welded together between pipe by band steel；The left wall of burner hearth and the right wall of burner hearth are positioned opposite And with burner hearth top-right header and burner hearth lower-left header welding composition tower structure, burner hearth top-right header and burner hearth lower-left header with The left wall of burner hearth connects to form water circulation channel with the light pipe of the right wall of burner hearth.

2. forced circulation burning coal powder hot-water boiler according to claim 1, it is characterized in that furnace wall is light boiler setting, not with Aluminosilicate fiberboard is directly wrapped up on the boiler body of smoke contacts, 80mm is first poured on the boiler body with smoke contacts thick Refractory concrete after wrap up aluminosilicate fiberboard；Backplate is coated again in the outside of aluminosilicate fiberboard.

3. forced circulation burning coal powder hot-water boiler according to claim 1, it is characterized in that wall is adopted after burner hearth front wall and burner hearth With film water cold wall structure, i.e., by some light pipe laid out in parallel, the Welding flat steel between two adjacent light pipes constitutes monoblock Film water cold wall structure.

4. forced circulation burning coal powder hot-water boiler according to claim 1, it is characterized in that burner hearth front wall includes front wall membrane type Water-cooling wall and the burner hearth front wall upper collecting chamber connected with front wall fin panel casing and burner hearth front wall lower header, in front wall film-type water-cooling Wall center jumped in the middle of front wall pipe to be reserved with combustion port hole by setting, before being provided with the upper right side of front wall fin panel casing Wall upper right jumps pipe, and front wall lower-left is provided with the lower left of front wall fin panel casing and jumps pipe.

5. forced circulation burning coal powder hot-water boiler according to claim 1, it is characterized in that wall includes rear wall membrane type after burner hearth Wall lower header after wall upper collecting chamber and burner hearth after water-cooling wall and the burner hearth connected with rear wall fin panel casing, in rear wall film-type water-cooling Wall center is reserved with burner hearth exhanst gas outlet by jumping pipe in the middle of wall after setting, after being provided with the upper right side of rear wall fin panel casing Wall upper right jumps pipe, and Hou Qiang lower-lefts are provided with the lower left of rear wall fin panel casing and jump pipe.

6. forced circulation burning coal powder hot-water boiler according to claim 1, it is characterized in that in the inside of burner hearth top-right header It is provided with two pieces of upper spacers and the inner chamber of burner hearth top-right header is divided into independent three sections；In being internally provided with for burner hearth lower-left header The inner chamber of burner hearth bottom right header is divided into independent three sections by two pieces of lower clapboards, and is interspersed above and below upper spacer and lower clapboard and is made stove The left wall of thorax and the right wall of burner hearth are separated into 5 membrane walls and the S-shaped circulation canal above and below the formation of inner chamber, beneficial to the left wall of burner hearth and burner hearth The right formation of portion's WATER AS FLOW MEDIUM within the walls circulation canal.

7. forced circulation burning coal powder hot-water boiler according to claim 1, it is characterized in that boiler body and mixing header it Between water circulation path be：After boiler feedwater is mixed with backwater in mixing header, the water circulation successively through two grades of economizers is led to After road, the water circulation channel of one-level economizer, point two-way enters the water circulation channel of boiler body：All the way to wall next part after burner hearth Case wall upper collecting chamber after fin panel casing to burner hearth, then by wall upper collecting chamber after burner hearth through the first connecting tube to burner hearth top-right header, Burner hearth top-right header is through the second connecting tube to water outlet header；Another road is to after the header of burner hearth lower-left, through the 3rd connecting tube to burner hearth Front wall lower header, then by burner hearth front wall lower header through fin panel casing to burner hearth front wall upper collecting chamber, burner hearth front wall upper collecting chamber is through Four connecting tubes are to water outlet header, and the water outlet of water outlet header forms backwater circulation and flows into mixing header.

8. forced circulation burning coal powder hot-water boiler according to claim 1, it is characterized in that in the outside of burner hearth top-right header Top-right header side connecting tube has been arranged in parallel, lower-left header side connecting tube has been arranged in parallel on the outside of the header of burner hearth lower-left.

9. forced circulation burning coal powder hot-water boiler according to claim 1, it is characterized in that being set below the furnace wall of burner hearth bottom Ash dropping hopper is equipped with, reservation between the light pipe above ash dropping hopper is located in burner hearth bottom furnace wall and falls grey passage.

10. forced circulation burning coal powder hot-water boiler according to claim 1, it is characterized in that in the exhanst gas outlet of boiler body One-level economizer is provided with, the stack base after one-level economizer is provided with ash dropping hopper, and flue is first above ash dropping hopper Upwardly extend, then turn head and arranged in n fonts downwards and connect denitrification apparatus and two grades of economizers.