CN204240339U - A kind of three backhaul powder hot-water boilers - Google Patents

A kind of three backhaul powder hot-water boilers Download PDF

Info

Publication number
CN204240339U
CN204240339U CN201420581340.3U CN201420581340U CN204240339U CN 204240339 U CN204240339 U CN 204240339U CN 201420581340 U CN201420581340 U CN 201420581340U CN 204240339 U CN204240339 U CN 204240339U
Authority
CN
China
Prior art keywords
convection bank
burner hearth
boiler
collecting chamber
water
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Active
Application number
CN201420581340.3U
Other languages
Chinese (zh)
Inventor
唐海清
周海能
王改
龚子林
沈玉华
苏为晃
吴星
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Hangzhou environmental protection Polytron Technologies Inc
Original Assignee
HANGZHOU JUNENG BOILER CO Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Family has litigation
Application filed by HANGZHOU JUNENG BOILER CO Ltd filed Critical HANGZHOU JUNENG BOILER CO Ltd
Priority to CN201420581340.3U priority Critical patent/CN204240339U/en
Application granted granted Critical
Publication of CN204240339U publication Critical patent/CN204240339U/en
First worldwide family litigation filed litigation Critical https://patents.darts-ip.com/?family=52769828&utm_source=google_patent&utm_medium=platform_link&utm_campaign=public_patent_search&patent=CN204240339(U) "Global patent litigation dataset” by Darts-ip is licensed under a Creative Commons Attribution 4.0 International License.
Active legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Abstract

The utility model discloses a kind of three backhaul powder hot-water boilers, comprise burner hearth, secondary furnace, convection bank, afterbody heat transmission equipment, burner, fall slag device, lower header and upper collecting chamber, lower header is arranged on the bottom of boiler body, and upper collecting chamber is arranged on the top of boiler body; Burner arrangement is at the front portion of boiler furnace, top, bottom or sidepiece; Boiler body adopts full film water cold wall structure, and 4 main down-comers are arranged in corner; Convection bank is arranged in convection bank flue, and convection bank flue is longitudinally arranged, and contour with burner hearth; The two ends up and down of convection bank, main down-comer and fin panel casing respectively with upper collecting chamber and lower header UNICOM; Secondary furnace and burner hearth are back-to-back longitudinally side by side and contour setting; Burner hearth, secondary furnace, convection bank flue and afterbody heat transmission equipment are connected conducting successively; Combustion-supporting and the denitration Secondary Air of secondary is furnished with in burner hearth.It is long that the utility model has flue gas flow, and fuel combustion is abundant, the feature that heat exchange efficiency is high.

Description

A kind of three backhaul powder hot-water boilers
Technical field
The utility model belongs to coal-burned industrial boiler field, is specifically related to one with coal dust, oil, gas, biomass powder, other flammable solid powder for fuel, for generation of three backhaul powder boilers of heat hot water.
Background technology
The energy resource structure of China is based on coal, and within the following long duration, based on fire coal, oil, gas, living beings, other solid fuels Industrial Boiler as a supplement will be the leading products of Industrial Boiler.
Traditional industry coal-boiler is based on grate firing boiler, and shortcoming is that efficiency of combustion is low, seriously polluted, is difficult to meet energy-saving and emission-reduction and pollutant emission requirement.
The powdery burning of coal, oil gas burning, powdery biomass combustion, other solid-fuelled powder state burnings are one of high performance clean burning modes of fuel, its efficiency of combustion can reach more than 98%, be a ripe combustion technology, be widely used at large-sized station boiler.In recent years, powder burning is also applied on Industrial Boiler, mostly adopts the two drum bulk water pipe boiler structure of SHS type or the two drum water pipe structure of D type, but there is certain deficiency:
1) the two drum bulk water pipe boiler excessive height of SHS type, making and installation is inconvenient, maintenance difficulty.
2) assembling of D type two drum or boiler furnace in bulk too low, the too low fuel combustion of burner hearth is abundant not.
3) burning is even not, and front and back Temperature Difference Ratio is comparatively large, is unfavorable for reducing NO xcontent.
4) load regulation range is little, can only use single-fuel.
5) Boiler Ash, slag cleaning inconvenience.
6) boiler steel, furnace wall material consumption are large.
7) boiler room floor space is large, civil engineering cost is high.
8) boiler seal performance is not good, brick wall inleakage is large, boiler heat loss large, air-introduced machine power consumption is large.
Also has a kind of vertical type coal dust corner tube boiler, as shown in Figure 1.Adopt brick wall structure between its burner hearth 2 ' and secondary furnace, and the height of secondary furnace only has 1/2 to 1/3 of burner hearth.The boiler of this structure, the sidewall heat of burner hearth 2 ' can not effectively utilize on the one hand, and secondary furnace is height-limited on the other hand, and the flow process of high-temperature flue gas is shorter, and therefore the thermal efficiency of boiler is lower.In addition, owing to not reserving space for maintenance, be unfavorable for maintenance.
The problems such as be another kind of vertical type coal dust corner tube boiler shown in Fig. 2, its secondary furnace is arranged on the rear side of burner hearth 13 ', and have flue gas flow equally short, heat exchange efficiency is lower, maintenance difficulty.
Summary of the invention
To be solved in the utility model is the existing vertical deficiency with assembling horizontal powder boiler in bulk, and provide a kind of flue gas flow long, fuel combustion is abundant, the powder hot-water boiler of the three novel backhauls that heat exchange efficiency is high.For solving the problem, the utility model is by the following technical solutions: a kind of three backhaul powder boilers, comprise burner hearth, secondary furnace, convection bank, afterbody heat transmission equipment, burner, fall slag device, lower header and upper collecting chamber, described lower header is arranged on the bottom of boiler body, and described upper collecting chamber is arranged on the top of boiler body; Described burner arrangement is at the front portion of boiler furnace, top, bottom or sidepiece; It is characterized in that described boiler body adopts full film water cold wall structure, 4 main down-comers are arranged in corner; Described convection bank is arranged in convection bank flue, and described convection bank flue is longitudinally arranged, and contour with described burner hearth; The two ends up and down of described convection bank, main down-comer and fin panel casing respectively with described upper collecting chamber and lower header UNICOM; Described secondary furnace and burner hearth are back-to-back longitudinally side by side and contour setting; Described burner hearth, secondary furnace, convection bank flue and afterbody heat transmission equipment are connected conducting successively; The described slag device that falls is arranged on described burner hearth bottom; Combustion-supporting and the denitration Secondary Air of secondary is furnished with in described burner hearth; The influent side of described drum and described down-comer UNICOM, water outlet side and described upper collecting chamber UNICOM.
The powder hot-water boiler of three backhauls of the present utility model, various powder fuel (containing coal dust, oil, gas, biomass powder, other flammable solid powder) sprays into airtight membrane wall burner hearth by burner, meanwhile, the high temperature air after the heating of afterbody heat transmission equipment also enters burner and powder and is mixed into burner hearth and carries out strong suspension combustion; Combustion-supporting and the denitration Secondary Air of two-stage is arranged, in the generation ensureing effectively to stop burner hearth coking under the clean-burning prerequisite of uncombusted product and reduce nitrogen oxide in burner hearth.
High-temperature flue gas after hearth combustion heat exchange from burner hearth outlet flue transfer 180 ° downwards (or upwards) enter the secondary furnace of connecting back-to-back with burner hearth, flue gas after abundant after-flame heat exchange enters convection bank again and carries out heat convection, and then flue gas enters flue gas purification system after entering afterbody heat transmission equipment again and purifies.
The utility model has the following advantages:
1) boiler body adopts cornue or pipe-support type structure to arrange, 4 main down-comers of heavy caliber are arranged in corner, and namely this main down-comer is water circulation pipe, also support whole boiler simultaneously, therefore do not need separately to establish supporting steel frame, compact overall structure, profile layout is simple, floor space is little, and steel consumption is low.
2) employing full film type wall structure, comprises burner hearth and convection bank flue all adopts membrane wall structure, and its effect is: burner hearth adopts membrane wall structure, and furnace wall only needs insulation material, integral sealing, good heat insulating, and Air Leakage Into Boilers is few, and air-introduced machine power consumption is few; Brick baffle between burner hearth and secondary furnace and convection bank flue also adopt membrane wall structure, make use of the heat of fuel combustion in burner hearth and secondary furnace fully, substantially increase heat exchanger effectiveness.
3) secondary furnace described in and burner hearth are arranged side by side back-to-back, fuel concentrated combustion, and sufficient combustion, and thus the utilization rate of fuel is high; And because the brick baffle between secondary furnace and burner hearth is membrane wall structure, and heat exchange area between secondary furnace and burner hearth is large, fully can absorb the heat of secondary furnace and burner hearth, improves heat exchange efficiency; Burner hearth, secondary furnace and convection bank longitudinally and contour setting, three's three return structures in series, the long flow path of flue gas, and time of staying in flue is also long, further increases heat exchange efficiency.
4) adopt air zoning grading combustion technology, send into two-stage Secondary Air in burner hearth, whole uniform temperature fields, effective generation stoping burner hearth coking and reduce nitrogen oxide under the clean-burning prerequisite of uncombusted product can be ensured.
As improvement of the present utility model, described burner is single or multiple burner arrangement.The benefit of single or multiple burner arrangement is that each burner can control separately, greatly improves the stability of burning and the adjusting function of load, and can use two or more fuel simultaneously.
As further improvement of the utility model, described convection bank adopts flag facial canal or coiled pipe, and in-line arrangement.Convection heating surface adopts flag facial canal or coiled pipe, and the vertical in-line arrangement of certain angle press by flag facial canal or coiled pipe, and heating surface is sufficient, and reliably, sweep of gases is smooth and easy, not easily dust stratification in circulation, prolonged boiler service life.
Improve further as of the present utility model, fin panel casing, convection bank, fall slag device and afterbody heat transmission equipment modular manufacturing and installation again, and efficiently solve the problem of boiler transportation clearance restriction boiler capacity development, boiler manfacturing installs simple and fast.
Improve further again as of the present utility model, between described secondary furnace and convection bank flue, be also provided with space for maintenance.Boiler is comprehensive can maintain and replace, and tool keeps in repair easy advantage.
Further improve as of the present utility model, described drum arranges the infall of fore main down-comer and upper collecting chamber, or is arranged in the main down-comer at rear portion and the infall of upper collecting chamber.
Three backhaul powder boilers of the present utility model, are applicable to Natural Circulation or forced circulation boiler.The water circulation pressure reduction of Natural Circulation is large, and WATER AS FLOW MEDIUM or oil circulate all very safe and reliable.
For three backhaul powder hot-water boilers of Natural Circulation, described convection bank and fin panel casing are arranged in parallel.Backwater is introduced into drum, entered after each heat-transfer surface absorbs heat by main down-comer and enter into upper collecting chamber and drum again, density contrast due to the water at low temperature in boiler main down-comer and the high-temperature water in heating surface is enough large and boiler water cycle height is enough high, and therefore boiler water cycle is safe and reliable.For forced-circulation hot water boiler, also comprise water circulating pump, and described convection bank and fin panel casing are arranged in series.Boiler blow-down water is sent into the lower header of boiler from boiler blow-down water mouth by water circulating pump, absorb heat by convection bank heat exchange and upwards flow into boiler upper collecting chamber, upper collecting chamber enters the rising heat exchange membrane wall of next series connection again by the main down-comer be not heated, last hot water sends boiler from the boiler delivery port at upper collecting chamber top, forms forced water circulation.Recirculated water is all flowing of rising at high temperature heat-transfer surface, therefore, greatly improves the security of boiler water cycle.
The utility model also will provide three backhaul powder hot-water boilers of another kind of structure, comprise water circulating pump, burner hearth, secondary furnace, convection bank, afterbody heat transmission equipment, burner, fall slag device, lower header and upper collecting chamber, described lower header is arranged on the bottom of boiler body, and described upper collecting chamber is arranged on the top of boiler body; Described burner arrangement is at the front portion of boiler furnace, top, bottom or sidepiece; It is characterized in that described boiler body adopts full film water cold wall structure, 4 main down-comers are arranged in corner; Described convection bank is arranged in convection bank flue, and described convection bank flue is longitudinally arranged, and contour with described burner hearth; The two ends up and down of described convection bank, main down-comer and fin panel casing respectively with described upper collecting chamber and lower header UNICOM, and described convection bank and fin panel casing are arranged in series; Described secondary furnace and burner hearth are back-to-back longitudinally side by side and contour setting; Described burner hearth, secondary furnace, convection bank flue and afterbody heat transmission equipment are connected conducting successively; The described slag device that falls is arranged on described burner hearth bottom; Combustion-supporting and the denitration Secondary Air of secondary is furnished with in described burner hearth.
Be with first technical scheme difference: the technical program does not establish drum, all the other structures and work principle identical with last technical scheme, and identical technique effect can be reached.
Accompanying drawing explanation
The utility model is described in further detail for Structure Figure and embodiment below.
Fig. 1 and Fig. 2 is the structural representation of existing vertical type coal dust corner tube boiler.
Fig. 3 is the structural representation of the utility model first embodiment.
Fig. 4 is the structural representation of the utility model the second embodiment.
Fig. 5 is the structural representation of the third embodiment of the utility model.
Fig. 6 is the structural representation of the utility model the 4th kind of embodiment.
Fig. 7 is the structural representation of the utility model the 5th kind of embodiment.Fig. 8 is the structural representation of the utility model the 6th kind of embodiment.Fig. 9 is the structural representation of the utility model the 7th kind of embodiment.Figure 10 is the structural representation of the utility model the 8th kind of embodiment.In figure, 1-drum, 2-burner hearth, 3-secondary furnace, 4-convection bank, 5-afterbody heat transmission equipment, the main down-comer of 6-, 7-fin panel casing, 8-burner, 9-lower header, 10-secondary Secondary Air, 11-falls slag device, and 12-goes out dry (wetting) slag machine, 13-secondary furnace outlet flue, 14-burner hearth outlet flue, 15-upper collecting chamber, 16-convection bank outlet flue, 17-space for maintenance, 18-convection bank flue.
Detailed description of the invention
See figures.1.and.2, existing vertical type coal dust corner tube boiler, described before its defect, did not repeat them here.
Three backhaul powder hot-water boilers of the present utility model, are applicable to Natural Circulation or forced circulation boiler.
With reference to Fig. 3, the first embodiment of the present utility model.
Boiler body comprises drum 1, burner hearth 2, secondary furnace 3, convection bank 4, afterbody heat transmission equipment 5, burner 8, the slag device 11 that falls, lower header 9 and upper collecting chamber 15, described lower header 9 is arranged on the bottom of boiler body, and described upper collecting chamber 15 is arranged on the top of boiler body; Described burner 8 is arranged in the front portion of boiler furnace; Described boiler body adopts full fin panel casing, and adopt corner tube type or pipe-support type structure, 4 main down-comers 6 are arranged in corner simultaneously; Described convection bank 4 adopts flag facial canal or coiled pipe structure, and in-line arrangement is in convection bank flue 18; Described convection bank flue 18 is longitudinally arranged, and contour with described burner hearth 2; The two ends up and down of described convection bank 4, main down-comer 6 and fin panel casing 7 respectively with described upper collecting chamber 15 and lower header 9 UNICOM; Described secondary furnace 3 and burner hearth 2 are back-to-back longitudinally side by side and contour setting; Described burner hearth 2, secondary furnace 3, convection bank flue 18 and afterbody heat transmission equipment 4 are connected conducting successively; The described slag device 11 that falls is arranged on bottom described burner hearth 2; Combustion-supporting and the denitration Secondary Air 10 of secondary is furnished with in described burner hearth 2.
In the present embodiment, described secondary furnace 3 top and burner hearth 2 outlet flue 14 UNICOM, bottom and described convection bank flue 18 UNICOM; Described convection bank 4 is arranged in the convection bank flue 18 that is made up of fin panel casing, with secondary furnace outlet flue 13 UNICOM bottom it, and top outlet flue 16 and described afterbody heat transmission equipment 5 UNICOM.
Described drum 1 arranges the infall of fore main down-comer 6 and upper collecting chamber 15.The influent side of described drum 1 and described down-comer 6 UNICOM, water outlet side and described upper collecting chamber 15 UNICOM.
The burning of single or multiple powder combustor 8 can independently control, and burner hearth 2 top arranges explosion proof door, and middle part arranges the combustion-supporting and denitration Secondary Air 10 of secondary, and lime-ash focuses on out dry slag (or wet slag) machine 12 automatically from the slag device 11 that falls.
Described fin panel casing 7, convection bank 4, fall slag device 11 and afterbody heat transmission equipment 5 modular manufacturing and installation.Be also to be provided with space for maintenance 17 between described secondary furnace 3 and convection bank flue 18.
For hot water boiler with natural circulation, described convection bank 4 and fin panel casing 7, be arranged in parallel its operation principle as follows:
The hot-water boiler of Natural Circulation, water-in and water-out are all from upper drum apical grafting pipe, by water inlet distributing pipe by main for water inlet guiding 4 down-comer 6, and flow into lower header 9, enter in fin panel casing 7 in parallel and convection bank 4 more simultaneously, rely on the density contrast of the high-temperature-hot-water in the low-temperature water heating in main down-comer and fin panel casing 7 and convection bank 4 to drive the water come in fin panel casing 7 and convection bank 4 upwards to enter in upper collecting chamber 15, thus form water circulation.Flue gas in water in fin panel casing 7 and burner hearth 2 and secondary furnace 3 carries out heat exchange, the flue gas that water simultaneously in convection bank 4 and convection current are run affairs in flue 18 carries out heat exchange, water after heating enters in upper collecting chamber 15, finally discharges from the delivery port of drum 1.
For the hot-water boiler of forced circulation, also comprise water circulating pump, and fin panel casing 7 and convection bank 4 are series connection, its operation principle is as follows:
Backwater is entered the lower header 9 of boiler from boiler blow-down water mouth by water circulating pump, absorb heat by convection bank 4 heat exchange and upwards flow into boiler upper collecting chamber 15, then the main down-comer 6 by not being heated enters lower header 9, enter the rising heat exchange fin panel casing 7 of next series connection again, last hot water sends boiler from the boiler delivery port at upper collecting chamber 15 top, forms forced water circulation.Recirculated water is all flowing of rising at whole high temperature heat-transfer surface.Therefore, the security of boiler water cycle is greatly improved.
Boiler body can also be arranged and organize false downcomer more, fin panel casing 7 is also divided into many groups, simultaneously, upper collecting chamber 15 and lower header 9 are also provided with and false downcomer region one to one, are formed from one group of upper collecting chamber 15, fin panel casing 7 and lower header 9 again to the roundabout reciprocal medium flow process of next group upper collecting chamber 15, fin panel casing 7 and lower header 9.
With reference to Fig. 4, the structural representation of the utility model the second embodiment.Only be that burner arrangement is at roof of the furnace with Fig. 3 embodiment difference, all the other structures are identical with Fig. 3 embodiment.
With reference to Fig. 5, the structural representation of the third embodiment of the utility model.Only be that burner arrangement is at burner hearth bottom with Fig. 3 embodiment difference, all the other structures are identical with Fig. 1 embodiment.
With reference to Fig. 6, the structural representation of the utility model the 4th kind of embodiment.Only be that burner arrangement to liquidate left and right sides at burner hearth with Fig. 1 embodiment difference, all the other structures are identical with Fig. 1 embodiment.
With reference to Fig. 7, the 5th kind of embodiment of the present utility model.Be that present embodiment does not establish drum with Fig. 3 embodiment difference, but be provided with water circulating pump, and described convection bank 4 and fin panel casing 7 are arranged in series.All the other structures are identical with Fig. 3 embodiment.Further, its operation principle is also identical with the forced circulation mode in Fig. 3 embodiment.
Figure shines Fig. 8, the 6th kind of embodiment of the present utility model.Be that present embodiment does not establish drum with Fig. 4 embodiment difference, but be provided with water circulating pump, and described convection bank 4 and fin panel casing 7 are arranged in series.All the other structures are identical with Fig. 4 embodiment.Further, its operation principle is also identical with the forced circulation mode in Fig. 4 embodiment.
Figure shines Fig. 9, the 7th kind of embodiment of the present utility model.Be that present embodiment does not establish drum with Fig. 5 embodiment difference, but be provided with water circulating pump, and described convection bank 4 and fin panel casing 7 are arranged in series.All the other structures are identical with Fig. 5 embodiment.Further, its operation principle is also identical with the forced circulation mode in Fig. 5 embodiment.
Figure shines Figure 10, the 8th kind of embodiment of the present utility model.Be that present embodiment does not establish drum with Fig. 6 embodiment difference, but be provided with water circulating pump, and described convection bank 4 and fin panel casing 7 are arranged in series.All the other structures are identical with Fig. 6 embodiment.Further, its operation principle is also identical with the forced circulation mode in Fig. 6 embodiment.
It is understood that above-described embodiment is just to explanation of the present utility model, instead of to restriction of the present utility model, any utility model do not exceeded in the utility model spirit is created, and all falls within protection domain of the present utility model.

Claims (10)

1. a backhaul powder hot-water boiler, comprise drum (1), burner hearth (2), secondary furnace (3), convection bank (4), afterbody heat transmission equipment (5), burner (8), the slag device (11) that falls, lower header (9) and upper collecting chamber (15), described lower header (9) is arranged on the bottom of boiler body, and described upper collecting chamber (15) is arranged on the top of boiler body; Described burner (8) is arranged in the front portion of boiler furnace, top, bottom or sidepiece; It is characterized in that described boiler body adopts full film water cold wall structure, 4 main down-comers (6) are arranged in corner; Described convection bank (4) is arranged in convection bank flue (18), and described convection bank flue (18) is longitudinally arranged, and contour with described burner hearth (2); The two ends up and down of described convection bank (4), main down-comer (6) and fin panel casing (7) respectively with described upper collecting chamber (15) and lower header (9) UNICOM; Described secondary furnace (3) and burner hearth (2) are back-to-back longitudinally side by side and contour setting; Described burner hearth (2), secondary furnace (3), convection bank flue (18) and afterbody heat transmission equipment (4) are connected conducting successively; The described slag device (11) that falls is arranged on described burner hearth (2) bottom; Combustion-supporting and the denitration Secondary Air (10) of secondary is furnished with in described burner hearth (2); The influent side of described drum (1) and described down-comer (6) UNICOM, water outlet side and described upper collecting chamber (15) UNICOM.
2. a kind of three backhaul powder hot-water boilers as claimed in claim 1, is characterized in that described burner (8) is for single or multiple.
3. a kind of three backhaul powder hot-water boilers as claimed in claim 1, is characterized in that described convection bank (4) adopts flag facial canal or coiled pipe structure, and in-line arrangement.
4. a kind of three backhaul powder hot-water boilers as claimed in claim 1, is characterized in that described fin panel casing (7), convection bank (4), fall slag device (11) and afterbody heat transmission equipment (5) modular manufacturing and installation.
5. a kind of three backhaul powder hot-water boilers as claimed in claim 1, is characterized in that also being provided with space for maintenance (17) between described secondary furnace (3) and convection bank flue (18).
6. a kind of three backhaul powder hot-water boilers as claimed in claim 1, is characterized in that the described slag device (11) that falls dry ash or the structure of the ash that goes out to wet.
7., as the one three backhaul powder hot-water boiler of claim 1-6 as described in any one, it is characterized in that described boiler adopts natural circulation mode, and described convection bank (4) and fin panel casing (7) are arranged in parallel.
8. as the one three backhaul powder hot-water boiler of claim 1-6 as described in any one, it is characterized in that described boiler adopts forced circulation pattern, also comprise water circulating pump, and described convection bank (4) and fin panel casing (7) are arranged in series.
9. a backhaul powder hot-water boiler, comprise water circulating pump, burner hearth (2), secondary furnace (3), convection bank (4), afterbody heat transmission equipment (5), burner (8), the slag device (11) that falls, lower header (9) and upper collecting chamber (15), described lower header (9) is arranged on the bottom of boiler body, and described upper collecting chamber (15) is arranged on the top of boiler body; Described burner (8) is arranged in the front portion of boiler furnace, top, bottom or sidepiece; It is characterized in that described boiler body adopts full film water cold wall structure, 4 main down-comers (6) are arranged in corner; Described convection bank (4) is arranged in convection bank flue (18), and described convection bank flue (18) is longitudinally arranged, and contour with described burner hearth (2); The two ends up and down of described convection bank (4), main down-comer (6) and fin panel casing (7) respectively with described upper collecting chamber (15) and lower header (9) UNICOM, and described convection bank (4) and fin panel casing (7) are arranged in series; Described secondary furnace (3) and burner hearth (2) are back-to-back longitudinally side by side and contour setting; Described burner hearth (2), secondary furnace (3), convection bank flue (18) and afterbody heat transmission equipment (4) are connected conducting successively; The described slag device (11) that falls is arranged on described burner hearth (2) bottom; Combustion-supporting and the denitration Secondary Air (10) of secondary is furnished with in described burner hearth (2).
10. a kind of three backhaul powder hot-water boilers as claimed in claim 9, it is characterized in that boiler body is also provided with organizing false downcomer more, fin panel casing (7) is also divided into many groups, simultaneously, upper collecting chamber (15) and lower header (9) are also provided with and false downcomer region one to one, are formed from one group of upper collecting chamber (15), fin panel casing (7) and lower header (9) again to next group upper collecting chamber (15), fin panel casing (7) and the roundabout reciprocal medium flow process of lower header (9).
CN201420581340.3U 2014-10-09 2014-10-09 A kind of three backhaul powder hot-water boilers Active CN204240339U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201420581340.3U CN204240339U (en) 2014-10-09 2014-10-09 A kind of three backhaul powder hot-water boilers

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201420581340.3U CN204240339U (en) 2014-10-09 2014-10-09 A kind of three backhaul powder hot-water boilers

Publications (1)

Publication Number Publication Date
CN204240339U true CN204240339U (en) 2015-04-01

Family

ID=52769828

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201420581340.3U Active CN204240339U (en) 2014-10-09 2014-10-09 A kind of three backhaul powder hot-water boilers

Country Status (1)

Country Link
CN (1) CN204240339U (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105004043A (en) * 2015-07-17 2015-10-28 江苏四方锅炉有限公司 Entrained flow bed hot water boiler

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105004043A (en) * 2015-07-17 2015-10-28 江苏四方锅炉有限公司 Entrained flow bed hot water boiler

Similar Documents

Publication Publication Date Title
CN203147746U (en) Biomass fuel circulating fluid bed boiler with self-purging ash action
CN102644911A (en) Vertical coal dust corner tube boiler
CN202598491U (en) Coal water slurry low-nitrogen rotational flow combustion boiler
CN102374658B (en) Angular pipe water circulating structure with complete forced upward flowing on heating surface
CN202902245U (en) Upright-type coal powder corner-tube boiler
CN204240339U (en) A kind of three backhaul powder hot-water boilers
CN205102403U (en) Three -return -stroke powder heat conduction oil boiler
CN103363517B (en) A kind of high bed temperature CFBB of 700 DEG C and above steam parameter
CN205403139U (en) Low nitrogen buggy boiler
CN103047638B (en) Horizontal type two-channel pulverized coal fired boiler
CN103062747A (en) Vertical type coal dust corner tube boiler
CN204240318U (en) A kind of three backhaul powder steam boilers
CN103032864A (en) Vertical coal powder corner tube boiler
CN202733916U (en) Burning dregs fluidized bed boiler
CN105485894A (en) Pulverized coal type water heating boiler
CN205579960U (en) Buggy boiler
CN104359098A (en) Three-return-stroke powder heat conduction oil boiler
CN103032865A (en) Horizontal pulverized coal fired boiler with two furnace pipes
CN104359099A (en) Three-return-stroke powder steam boiler
CN203431838U (en) High-bed-temperature circulating fluidized bed boiler with 700 DEG C and above steam parameter
CN203203009U (en) Vertical modularized coal water slurry corner tube boiler
CN203203008U (en) Upright pulverized coal corner tube type boiler
CN203203007U (en) Upright pulverized coal corner tube type boiler
CN204006633U (en) A kind of modular convection heating surface fire tube boiler
CN203203006U (en) Upright pulverized coal corner tube type boiler

Legal Events

Date Code Title Description
C14 Grant of patent or utility model
GR01 Patent grant
CP01 Change in the name or title of a patent holder
CP01 Change in the name or title of a patent holder

Address after: Hangzhou City, Zhejiang province 311115 Fengdu Pingyao Town, Yuhang District Industrial Zone Road, Yangcheng Road No. 1

Patentee after: Hangzhou environmental protection Polytron Technologies Inc

Address before: Hangzhou City, Zhejiang province 311115 Fengdu Pingyao Town, Yuhang District Industrial Zone Road, Yangcheng Road No. 1

Patentee before: Hangzhou Juneng Boiler Co., Ltd.