CN201285026Y - Exhaust-heat boiler - Google Patents
Exhaust-heat boiler Download PDFInfo
- Publication number
- CN201285026Y CN201285026Y CNU2008201234020U CN200820123402U CN201285026Y CN 201285026 Y CN201285026 Y CN 201285026Y CN U2008201234020 U CNU2008201234020 U CN U2008201234020U CN 200820123402 U CN200820123402 U CN 200820123402U CN 201285026 Y CN201285026 Y CN 201285026Y
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- flue
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Abstract
The utility model discloses a waste heat boiler comprising a boiler body, a steam header and a circulating pump arranged on a water discharging pipe, wherein the boiler body is provided with a heat exchanger; the steam header comprises a shell connected with a water supply pipe, a water discharging pipe, a return pipe and a steam discharging pipe, a discharged water temperature reduction pipe with the water feeding end communicated with the water supply pipe and the water discharging end communicated with the water discharging pipe, and a steam-water separator arranged in the shell and used for separating water and steam returning from the return pipe to the inside of the shell; and the water discharging end of the discharged water temperature reduction pipe is connected with the water discharging pipe at the water feeding side of the circulating pump. The waste heat boiler can lower the temperature of the discharged water of the steam header, prevents the circulated cooling water being gasified at the circulating pump, reduces the pressure oscillation in a circulating system and also reduces the damage and the adverse effect on the circulating pump. In addition, the waste heat boiler can rapidly and effectively separate steam and water, prevents the steam entering into circulating water at the lower part of the steam header and also avoids taking boiler water out of the steam header when the steam is discharged.
Description
Technical field
The utility model relates to a kind of waste heat boiler.
Background technology
In metallurgical industry field, waste heat boiler is used for reclaiming the heat from the high-temperature flue gas of metallurgical furnace (for example smelting furnace) discharge, and the high-temperature flue gas of discharging from metallurgical furnace enters waste heat boiler, and through heat exchange, heat wherein is recovered at waste heat boiler.Drum is the part of the waste heat boiler circulatory system, is used for discharging to the steam water mixture of waste heat boiler body of heater supply cooling water, reception backflow and with steam, and the water in the drum recycles.
In utilizing the waste heat boiler of forced circulation system, with circulating pump the water in the drum is supplied to the waste heat boiler body of heater usually.Yet, water section evaporation through heat exchange, need be from external water source feeding cold water in drum, the cold water of supplying with can't be promptly with drum in the higher water of temperature mix equably, particularly still temperature is higher for the water of discharging from outlet pipe, can vaporize at the higher water of circulating pump place temperature thus, causes the pressure oscillation in the circulatory system, influenced effect, and can cause adverse effect circulating pump to the feedwater of waste heat boiler body of heater.
The utility model content
The utility model is intended to one of solve the aforementioned problems in the prior at least.For this reason, a purpose of the present utility model be to propose a kind of have can reduce leaving water temperature, avoid the waste heat boiler of cooling water at the drum of circulating pump place vaporization.
Comprise according to waste heat boiler of the present utility model: body of heater, described body of heater is provided with heat exchanger; Drum, described drum comprises shell, goes out water for cooling pipe and water separator, be connected with feed pipe, outlet pipe, return duct and steam outlet pipe on the wherein said shell respectively, the described water intake end that goes out the water for cooling pipe is connected with feed pipe and the water side is connected with outlet pipe, described outlet pipe links to each other with the water inlet side of described heat exchanger and described return duct links to each other with the water outlet side of described heat exchanger, and described water separator is arranged on to be used in the described shell to separate from described return duct and turns back to water and steam in the described shell; With the circulating pump that is arranged on the described outlet pipe, the wherein said water side that goes out the water for cooling pipe links to each other with the outlet pipe of circulating pump influent side.
Also have following additional technical feature according to waste heat boiler of the present utility model:
Described body of heater is made of membrane wall, and described body of heater itself constitutes described heat exchanger.
Described body of heater comprises: ascent stage flue, the lower end of described uptake flue are suitable for linking to each other with the outlet flue of metallurgical furnace; The changeover portion flue, this changeover portion flue comprises riser portions and falling portion, the top of riser portions links to each other with the top of falling portion, and the lower end of riser portions links to each other with the top of ascent stage flue; The descending branch flue, the top of described descending branch flue links to each other with the lower end of falling portion; With the convection section flue, this convection section flue advance that mouth links to each other with the lower end of downward-flow flue and the smoke end of convection section flue is formed with outlet flue.
Describedly go out the water for cooling pipe and be arranged in the described shell, the wherein said water side that goes out the water for cooling pipe is stretched in the described outlet pipe in shell, and is provided with screen pack in the described outlet pipe.
Described drum further comprises to water distribution, describedly is arranged in the shell and the described water intake end of water distribution of giving links to each other with feed pipe to water distribution, the wherein said water intake end that goes out the water for cooling pipe be connected to water distribution.
Described water separator comprises: a water separator, and a described water separator is arranged on described return duct place in described shell, and the water that is used for returning by return duct in the shell separates with steam; With the secondary water separator, described secondary water separator is arranged on described steam outlet pipe place in described shell, is used for isolating before by the steam outlet pipe exhaust steam water of steam.
Described drum further comprises: continuous blowdown pipe, described continuous blowdown pipe extend to housing exterior in the shell and are used to discharge floating pollutant on the water surface in the shell; With the periodical blowdown pipe, described periodical blowdown pipe is arranged on the inner bottom part of shell and leads to the precipitation dirt that housing exterior is used to discharge outer casing bottom.
Described drum further comprises emergency draining, described emergency draining be arranged on the shell and with shell in be communicated with, described emergency draining opening in the enclosure is higher than the upper limit water level in the shell.
Described drum further comprises: water level baffle plate, described water level baffle plate are arranged in the described shell so that isolate the water level detecting space in the enclosure; With the water level meter, described water level meter is arranged on housing exterior and is connected with described water level detecting space.
Described drum further comprises: chemical feed pipe, described chemical feed pipe are arranged on and are used for adding medicament on the described shell in shells; With the heating steam pipe, described heating steam pipe is arranged on and is used on the shell boiling that the bag stage is supplied with steam in drum so that the water in the heating drum.
At least have one of following beneficial effect according to waste heat boiler of the present utility model:
According to waste heat boiler of the present utility model, the going out the cooling water that the water for cooling pipe can supply with external water source and directly deliver to the outlet pipe place of drum, thereby reduced the temperature of water outlet, avoided cooling water to vaporize at the circulating pump place, reduce or eliminated the pressure oscillation of cooling water in the circulatory system, reduced infringement and adverse effect simultaneously circulating pump.
In addition, by water separator is set, can be quickly and effectively with steam and moisture from, avoided steam to enter in the boiler water of drum bottom, and taken water out of drum when having avoided exhaust steam.
According to waste heat boiler of the present utility model, body of heater has membrane wall to constitute, thereby body of heater itself can be used as heat exchanger, and not only body of heater is in light weight, and good cooling results, the knot ash in the heat recovery efficiency height, body of heater is gently.
According to waste heat boiler of the present utility model, body of heater comprises the ascent stage flue, flue gas is in uphill process, dust wherein can rely on weight to fall metallurgical furnace, for example in the smelting furnace, thereby reduced the dust in the flue gas, body of heater also comprises changeover portion flue and descending branch flue and convection section flue, therefore further prolong the time that flue gas moves in body of heater, improved the efficient that reclaims the heat in the flue gas.
According to waste heat boiler of the present utility model, drum is provided with two water separators, can further improve the effect that carbonated drink is separated.
According to waste heat boiler of the present utility model, drum is provided with continuous blowdown pipe and periodical blowdown pipe, can discharge effectively to float to floating pollutant and the precipitation dirt that is deposited to the shell inner bottom part on the water surface.
According to waste heat boiler of the present utility model, drum is provided with emergency draining, can avoid the water in the drum to surpass upper limit water level effectively.
According to waste heat boiler of the present utility model, the water level baffle plate is set in the drum, can avoid the index of water level meter to be subjected to the influence of the water-level fluctuation in the drum, thereby make that the detection of water level is more accurate.
Additional aspect of the present utility model and advantage part in the following description provide, and part will become obviously from the following description, or recognize by practice of the present utility model.
Description of drawings
Fig. 1 is the structural representation according to the waste heat boiler of the utility model embodiment
Fig. 2 is the structural representation of the drum of waste heat boiler shown in Figure 1;
Fig. 3 is another structural representation of the drum of waste heat boiler shown in Figure 1;
Fig. 4 is the schematic cross-section of drum shown in Figure 2;
Fig. 5 is the schematic diagram of first embodiment that constitutes the membrane wall of body of heater;
Fig. 6 is the schematic diagram of second embodiment that constitutes the membrane wall of body of heater;
Fig. 7 is the schematic diagram of the 3rd embodiment that constitutes the membrane wall of body of heater; With
Fig. 8 is the schematic diagram of the 4th embodiment that constitutes the membrane wall of body of heater.
The specific embodiment
Describe embodiment of the present utility model below in detail, the example of described embodiment is shown in the drawings, and wherein identical from start to finish or similar label is represented identical or similar elements or the element with identical or similar functions.Below by the embodiment that is described with reference to the drawings is exemplary, only is used to explain the utility model, and can not be interpreted as restriction of the present utility model.
As shown in Figure 1, the waste heat boiler according to the utility model embodiment comprises body of heater 100, drum 200 and circulating pump 300.
Has the heat exchanger that is used to exchange the heat in the flue gas on the body of heater 100.In order to carry out heat exchange better, improve heat exchanger effectiveness, reduce the weight of body of heater 100, body of heater 100 is made of membrane wall, thus body of heater 100 itself has constituted heat exchanger.In addition, persons of ordinary skill in the art may appreciate that on the inwall of body of heater 100 and can be provided with refractory material.
The membrane wall that constitutes body of heater 100 can be a fin panel casing.So-called membrane wall is exactly the wall that is made of metal tube (for example steel pipe).According to embodiment more of the present utility model, in the example shown in Fig. 5, membrane wall is welded at interval by steel pipe 104 and metallic plate (for example steel plate) 105.Adjacent steel pipe 104 couples together by steel plate 105, can lead to cooling water in the steel pipe 104, thereby constitutes fin panel casing.In the example shown in Fig. 6, membrane wall directly is welded to each other by steel pipe 104 and forms.In the example depicted in fig. 7, steel pipe 104 is welded at interval with metal bar 120, and adjacent steel pipe 104 interconnects by metal bar 120.In the example depicted in fig. 8, membrane wall is that steel pipe 104 is welded to each other with metallic plate 121 (for example steel plate) and forms, steel pipe 104 is turned up the soil at interval and is welded on the steel plate 121, and different with Figure 105 example shown is that a plurality of steel pipes 104 are welded to respectively on the surface of steel plate 121.
The steel pipe 104 that constitutes membrane wall interconnects, and forms circulation line, can be filled with recirculated water in it, thereby membrane wall forms fin panel casing.In the example shown in Fig. 5,7 and 8, steel plate 105, metal bar 120 plays the effect that is connected with steel plate 121, and gains in strength, and makes membrane wall be difficult for deforming.Certainly, the membrane wall among the utility model embodiment also can be other version, as long as it is made of the pipe that can lead to cooling fluid in it.
Certainly, on body of heater 100, can also be provided with and distribute header 101 and compile header 102, distribute header 101 and compile header 102 to link to each other with the steel pipe 104 that constitutes membrane wall respectively, thus by distribute header 101 and compile header 102 can concentrate easily in steel pipe 104 supply cooling water and will through with the high-temperature flue gas heat exchange after the concentrated discharge of carbonated drink.Distribute header 101 and compile header 102 and can be respectively a plurality of.Certainly, according to actual conditions, the distribution header 101 of any suitable quantity can be set and compile header 102.
As shown in Figure 1, in an embodiment of the present utility model, body of heater 100 comprises ascent stage flue 112, changeover portion flue 111, descending branch flue 113 and convection section flue 114.The lower end of uptake flue 112 is suitable for linking to each other with the outlet flue of metallurgical furnace F, changeover portion flue 111 comprises riser portions 1110 and falling portion 1111, the top of riser portions 1110 links to each other with the top of falling portion 1111, and the lower end of riser portions 1110 links to each other with the top of ascent stage flue 112.The top of descending branch flue 113 links to each other with the lower end of falling portion 1111.Convection section flue 114 is horizontally disposed with substantially, it advance that mouth 1140 links to each other with the lower end of downward-flow flue 113 and the smoke end of convection section flue 114 is formed with outlet flue 1140.
At first, by the riser portions 1110 of ascent stage flue 112 and changeover portion flue 111, the part dust the feasible flue gas that enters in metallurgical furnace F in the body of heater 100 can rely on weight to fall, and reduces to finish the ash amount at body of heater 100 inwalls.By body of heater 100 is divided into above-mentioned a plurality of sections, can the time of prolong smoke in body of heater 100, thus improve heat exchange effect.
Shown in Fig. 2-4, drum 200 comprises shell 1, goes out water for cooling pipe 4 and water separator.
Need to prove, feed pipe 2, outlet pipe 3, return duct 8 and steam outlet pipe 6 should be done sensu lato understanding here, they are the one section pipes that is connected to admission port, delivery port, refluxing opening and venthole place on the shell 1, and feed pipe 2, outlet pipe 3, return duct 8 and steam outlet pipe 6 can be in the certain length of shell 1 inner extension, and they are from shell 1 outward extending length, can determine according to concrete application, other pipes that describe below also will be done similar understanding as continuous blowdown pipe, periodical blowdown pipe, chemical feed pipe, emergency draining, heating steam pipe.
As shown in Figure 4, feed pipe 2 can extend predetermined length in shell 1, be used for supplying with cooling water from the external water source (not shown) in shell 1.
Outlet pipe 3 is arranged on the bottom of shell 1, be used for the cooling water in the shell 1 is supplied in the body of heater 100 by pipeline and circulating pump 300, thereby carry out heat exchange with the high-temperature flue gas in the body of heater 100, the quantity of outlet pipe 3 can be for a plurality of, four outlet pipes for example have been shown among Fig. 1, as required, outlet pipe 3 can be any suitable quantity.In addition,, in the outlet pipe 3 screen pack 5 can be set, be used for filtering the impurity that supplies to the water in the body of heater 100 by outlet pipe 3 according to concrete exemplary embodiments more of the present utility model.For example, outlet pipe 3 can link to each other with the water inlet side of the steel pipe 104 of the membrane wall that constitutes body of heater 100, perhaps links to each other with distribution header 101.
The water intake end that goes out water for cooling pipe 4 is connected with feed pipe 2 and the water side is connected with the outlet pipe 3 of the water inlet side of circulating pump 300, be used for the cooling water that temperature is lower and directly supply to outlet pipe 3 from feed pipe 2, thereby the temperature of delivering to the cooling water of body of heater 100 from outlet pipe 3 reduces, cooling water can not vaporized at circulating pump 300 places thus, reduce or eliminated pressure oscillation in the circulatory system, improved cooling water and supplied with effect, reduced infringement and adverse effect circulating pump 300.
The quantity that goes out water for cooling pipe 4 can be identical with the quantity of outlet pipe 3, certainly, go out water for cooling pipe 4 and can form various versions, for example having a water intake end links to each other with feed pipe 2, be divided into a plurality of branches from a water intake end, each branch has a water side, and the water side of a plurality of branches links to each other with corresponding outlet pipe 3 respectively.
As shown in Figure 4, according to concrete exemplary embodiments more of the present utility model, going out water for cooling pipe 4 is arranged in the shell 1, the water intake end that goes out water for cooling pipe 4 links to each other with feed pipe 2 in shell 1 and the water side is stretched in the outlet pipe 3 from the inner chamber of shell 1, thereby the cooling water that the temperature in the feed pipe 2 is lower directly supplies in the outlet pipe 3 in shell 1, reduces from the drum to the body of heater temperature of 100 recirculated cooling water.
Water separator is arranged on and is used in the described shell 1 separating with steam turn back to the water in the shell 1 and the water of vapour mixture from return duct 8, thereby can prevent that the steam that returns from directly entering in the cooling water of drum bottom, cause cooling water temperature too high, and can promote steam to pass through steam outlet pipe 6 discharges.
As shown in Figure 4, according to concrete exemplary embodiments more of the present utility model, described water separator comprises water separator 9 and secondary water separator 7.One time water separator 9 is arranged on return duct 8 places in shell 1, and the water that is used for turning back to by return duct 8 in the shell 1 separates with steam.Secondary water separator 7 is arranged on steam outlet pipe 6 places in shell 1, be used for isolating before by steam outlet pipe 6 exhaust steams the water of steam.By water separator 9 and secondary water separator 7 are set, can carry out secondary separation to water and steam, at first will separate with steam with water the vapour mixture from the water in backflow official 8 turns back to shell 1, then, before steam being discharged shell 1, isolate the water in the steam once more by steam outlet pipe 6, therefore the separating effect of water and steam further improves, and has promptly avoided steam to enter in the water of drum bottom, has avoided steam that water is taken out of by steam outlet pipe 6 again.
Shown in Fig. 3 and 4, according to exemplary embodiments more of the present utility model, one time water separator 9 comprises a housing, and described housing can be made of porous plate, perhaps is made of porous plate and steel plate, and housing is buckled in return duct 8 places in the inner chamber of shell 1.
Shown in Fig. 2 and 4, secondary water separator 7 comprises a housing, and described housing can be made of corrugated sheet, or corrugated sheet and steel plate formation, and housing is buckled in steam outlet pipe 6 places in shell 1.
Shown in Fig. 2 and 4, according to exemplary embodiments more of the present utility model, drum 200 comprises to water distribution 10, is arranged in the shell 1 for water distribution 10 along the longitudinal direction (left and right directions among Fig. 2) of drum.Link to each other for the water intake end of water distribution 10 with feed pipe 2, the water intake end that wherein goes out water for cooling pipe 4 links to each other with giving water distribution 10.The inner chamber of being used for the cooling water that feed pipe 2 is supplied with is distributed to equably shell 1 for water distribution 10 as shown in Figure 2, is given on the water distribution 10 to be formed with a plurality of holes, cooling water from described a plurality of orifice flows in shell 1.Need to prove that also can be integral for water distribution 10 with feed pipe 2, promptly the two is a pipe, in the case, giving water distribution 10 is that feed pipe 2 extends to the part in the shell 1.Shown in figure 2 among the embodiment, a plurality of water intake ends that go out water for cooling pipe 4 link to each other with giving water distribution 10 respectively, and their water side is stretched into respectively in the corresponding outlet pipe 3.
According to exemplary embodiments more of the present utility model, as shown in Figure 3 and Figure 4, drum 200 further comprises continuous blowdown pipe 13, continuous blowdown pipe 13 extends to shell 1 outside in the shell 1 and is used to discharge floating pollutant on the water surface in the shell 1, continuous blowdown pipe 13 is positioned at the inner bottom part predetermined altitude of the opening of shell 1 apart from shell 1, for example, this predetermined altitude is higher than the lower limit water level H2 in the shell 1, and is lower than the lower limit water level H1 in the shell 1.Need to prove that continuous blowdown pipe 13 can have a plurality of, the opening of a plurality of continuous blowdown pipes 13 is in different height in shell 1, so that adapt to the SEA LEVEL VARIATION in the shell 1.
As shown in Figure 2, drum 200 can also comprise periodical blowdown pipe 14, and periodical blowdown pipe 14 is arranged on the inner bottom part of shell 1 and leads to shell 1 outside, so that regularly discharge the precipitation dirt of outer casing bottom.
According to exemplary embodiments more of the present utility model, drum 200 also comprises heating steam pipe 6, and heating steam pipe 6 is arranged on the shell 1, is used for boiling that the bag stage is supplied with steam in drum so that the water in the heating drum.When drum initially uses, need carry out boiling to drum, at first external water source feeds water in shell 1 by feed pipe 2, feeds steam cooling water is heated, so that drum is carried out boiling, then the water after the boiling is cleaned out drum together with impurity.
According to exemplary embodiments more of the present utility model, drum 200 also comprises chemical feed pipe 12, and chemical feed pipe 12 is arranged on the shell 1, certainly extend to a segment distance in the shell 1, be used in shell 1, adding medicament,, for example soften incrustation scale etc. so that cooling water is handled.
According to exemplary embodiments more of the present utility model, drum 200 can also comprise urgent adjutage 15, urgent adjutage 15 is arranged on the shell 1, and can extend to predetermined length in the shell 1, be used for when the water level in the shell 1 is too high, for example when water level is higher than upper limit water level H1, promptly emit a part of water in the shell 1, make water level be returned to ordinary water level H0.
In addition, drum 200 can also comprise water level meter baffle plate 16 and water level meter (not shown), water level meter baffle plate 16 is arranged in the shell 1, is used for isolating a space that is used to detect water level in the shell 1 in shell 1, thereby avoids the moving influence to water level meter index of ripples in the shell 1.The water level meter is arranged on shell 1 outside, and is connected with space that water level meter baffle plate 16 isolates, is used to detect the water level in the shell 1, for example, timely moisturizing when water level is lower than lower limit water level H2, or when water level is higher than upper limit water level H1, promptly discharge water, the generation of accident avoided.
Although illustrated and described embodiment of the present utility model, for the ordinary skill in the art, be appreciated that under the situation that does not break away from principle of the present utility model and spirit and can carry out multiple variation, modification, replacement and modification to these embodiment, scope of the present utility model is limited by claims and equivalent thereof.
Claims (10)
1, a kind of waste heat boiler is characterized in that, comprising:
Body of heater, described body of heater is provided with heat exchanger;
Drum, described drum comprises shell, goes out water for cooling pipe and water separator, be connected with feed pipe, outlet pipe, return duct and steam outlet pipe on the wherein said shell respectively, the described water intake end that goes out the water for cooling pipe is connected with feed pipe and the water side is connected with outlet pipe, described outlet pipe links to each other with the water inlet side of described heat exchanger and described return duct links to each other with the water outlet side of described heat exchanger, and described water separator is arranged on to be used in the described shell to separate from described return duct and turns back to water and steam in the described shell; With
Circulating pump, described circulating pump are arranged on the described outlet pipe, and the wherein said water side that goes out the water for cooling pipe links to each other with the outlet pipe of circulating pump influent side.
2, waste heat boiler according to claim 1 is characterized in that, described body of heater is made of membrane wall, and described body of heater itself constitutes described heat exchanger.
3, waste heat boiler according to claim 1 is characterized in that, described body of heater comprises:
Ascent stage flue, the lower end of described uptake flue are suitable for linking to each other with the outlet flue of metallurgical furnace;
The changeover portion flue, this changeover portion flue comprises riser portions and falling portion, the top of riser portions links to each other with the top of falling portion, and the lower end of riser portions links to each other with the top of ascent stage flue;
The descending branch flue, the top of described descending branch flue links to each other with the lower end of falling portion; With
The convection section flue, this convection section flue advance that mouth links to each other with the lower end of downward-flow flue and the smoke end of convection section flue is formed with outlet flue.
4, waste heat boiler according to claim 1 is characterized in that, describedly goes out the water for cooling pipe and is arranged in the described shell, and the wherein said water side that goes out the water for cooling pipe is stretched in the described outlet pipe in shell, and is provided with screen pack in the described outlet pipe.
5, waste heat boiler according to claim 4, it is characterized in that, described drum further comprises to water distribution, describedly be arranged in the shell and the described water intake end of water distribution of giving links to each other with feed pipe to water distribution, the wherein said water intake end that goes out the water for cooling pipe be connected to water distribution.
6, waste heat boiler according to claim 1, it is characterized in that, described water separator comprises: a water separator, and a described water separator is arranged on described return duct place in described shell, and the water that is used for returning by return duct in the shell separates with steam; With
The secondary water separator, described secondary water separator is arranged on described steam outlet pipe place in described shell, be used for isolating before by the steam outlet pipe exhaust steam water of steam.
7, waste heat boiler according to claim 1 is characterized in that, described drum further comprises:
Continuous blowdown pipe, described continuous blowdown pipe extend to housing exterior in the shell and are used to discharge floating pollutant on the water surface in the shell; With
Periodical blowdown pipe, described periodical blowdown pipe are arranged on the inner bottom part of shell and lead to the precipitation dirt that housing exterior is used to discharge outer casing bottom.
8, waste heat boiler according to claim 1, it is characterized in that, described drum further comprises emergency draining, described emergency draining be arranged on the shell and with shell in be communicated with, described emergency draining opening in the enclosure is higher than the upper limit water level in the shell.
9, waste heat boiler according to claim 1 is characterized in that, described drum further comprises:
Water level baffle plate, described water level baffle plate are arranged in the described shell so that isolate the water level detecting space in the enclosure; With
Water level meter, described water level meter are arranged on housing exterior and are connected with described water level detecting space.
10, waste heat boiler according to claim 1 is characterized in that, described drum further comprises:
Chemical feed pipe, described chemical feed pipe are arranged on and are used for adding medicament on the described shell in shells; With
Heating steam pipe, described heating steam pipe are arranged on and are used on the shell boiling that the bag stage is supplied with steam in drum so that the water in the heating drum.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CNU2008201234020U CN201285026Y (en) | 2008-10-27 | 2008-10-27 | Exhaust-heat boiler |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CNU2008201234020U CN201285026Y (en) | 2008-10-27 | 2008-10-27 | Exhaust-heat boiler |
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CNU2008201234020U Expired - Lifetime CN201285026Y (en) | 2008-10-27 | 2008-10-27 | Exhaust-heat boiler |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101761909B (en) * | 2008-10-27 | 2011-07-27 | 中国恩菲工程技术有限公司 | Afterheat boiler |
CN108591993A (en) * | 2018-03-13 | 2018-09-28 | 中国能源建设集团广东省电力设计研究院有限公司 | Emergency Cooling System and its control method for supercritical circulating fluidized bed boiler |
-
2008
- 2008-10-27 CN CNU2008201234020U patent/CN201285026Y/en not_active Expired - Lifetime
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101761909B (en) * | 2008-10-27 | 2011-07-27 | 中国恩菲工程技术有限公司 | Afterheat boiler |
CN108591993A (en) * | 2018-03-13 | 2018-09-28 | 中国能源建设集团广东省电力设计研究院有限公司 | Emergency Cooling System and its control method for supercritical circulating fluidized bed boiler |
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20090805 Effective date of abandoning: 20081027 |