CN202166030U - High temperature vertical type coiler waste heat boiler - Google Patents
High temperature vertical type coiler waste heat boiler Download PDFInfo
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- CN202166030U CN202166030U CN2011200965942U CN201120096594U CN202166030U CN 202166030 U CN202166030 U CN 202166030U CN 2011200965942 U CN2011200965942 U CN 2011200965942U CN 201120096594 U CN201120096594 U CN 201120096594U CN 202166030 U CN202166030 U CN 202166030U
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F28—HEAT EXCHANGE IN GENERAL
- F28F—DETAILS OF HEAT-EXCHANGE AND HEAT-TRANSFER APPARATUS, OF GENERAL APPLICATION
- F28F9/00—Casings; Header boxes; Auxiliary supports for elements; Auxiliary members within casings
- F28F9/02—Header boxes; End plates
- F28F9/0229—Double end plates; Single end plates with hollow spaces
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Abstract
The utility model discloses a high temperature vertical type coiler waste heat boiler, which comprises a boiler casing portion, a pipe box portion, a water circulation cooling structure portion and a coiler portion arranged in a heat exchange chamber of the boiler casing portion. A circulation water distribution chamber is arranged in the water circulation cooling structure portion, cooling water enters the circulation water distribution chamber, then is pressed in a cooling chamber between a flexible pipe plate and a thick walled pipe plate through an annular space between an outer pipe wall of an inlet end of process gas of a coiler and a hole wall of a penetrating hole of the coiler, and finally pressed in the boiler casing portion through a water discharge pipe after the cooling water exchanges heat with the inlet end of the process gas of the coiler. The high temperature vertical type coiler waste heat boiler enables cooling of each coiler to tend to be even and is not limited by number of threads, a cooling water source and a channel of each heat exchange pipe are independent, even and one-to-one, one annular space is generated once one new thread of pipe is added, so that the cooling scheme can be better applicable to design of multi-thread and large-scale requirements.
Description
Technical field
The utility model relates to the waste heat boiler technical field, the high temp, vertical coil pipe waste heat boiler of particularly a kind of be applicable in high-temperature synthesis gas/reformed gas heat recovery, the by-product/high-pressure saturated steam.The temperature of this high temp, vertical coil pipe waste heat boiler reason process gas of living in can be up to 1500 ℃, pressure can reach 80bar.
Background technology
In chemical industry, contain a large amount of CO, CO in the various pyrolytic conversion gas
2, H
2, and possibly contain H
2Impurity such as S, coal ash, the waste heat boiler in this type of technological process need consider that the burn into of medium washes away and variety of issue such as fouling.Because reacted gas temperature can be up to 1500 ℃, the harshest part of the design of waste heat boiler is the process gas inlet part, and so the situation of high temperature needs special design to guarantee the normal use of metal material.One of key equipment in the SHELL residual oil gasification technology of introducing China 80, the nineties (SCP) is waste heat boiler.Referring to Fig. 1, this waste heat boiler is vertical fire-tube type, and it comprises shell part 10 and bobbin carriage part 20 and be arranged on the inner coil portions 30 of shell part 10, between shell part 10 and bobbin carriage part 20, is provided with a water circulation cooling structure.This water circulation cooling structure comprises that one connects the thick tube sheet 40 of shell part 10 and bobbin carriage part 20; Be welded with a flexible tubesheet 50 in the bottom surface of thick tube sheet 40; Be provided with a cooling cavity 60 between flexible tubesheet 50 and the thick tube sheet 40; The process gas arrival end 31 of each coil pipe in the coil portions 30 gets into cooling cavity 60 and is welded to connect furnace chamber 70 perforations in its mouth of pipe and the bobbin carriage part 20 with flexible tubesheet 50 after being passed coil pipe on the thick tube sheet 40 and passed hole 41 by shell part 10 sides.The sparge pipe 70 of this water circulation cooling structure passes thick tube sheet 40, and its delivery port stretches into cooling cavity 60, and water inlet extends outside the shell part 10.The cooling principle of this waste heat boiler is: sparge pipe 70 sprays into cooling water 90 in cooling cavity 60; Spray into cooling water in the cooling cavity 60 at turbulent baffle 80 under effect; Be distributed in equably in the cooling cavity 60, get into the annular space 10a that outer tube wall and the coil pipe of cooling water through the process gas arrival end 31 of coil pipe in the cooling cavity 60 pass between 41 hole walls of hole and get back in the shell part 10.Cooling water is in cyclic process like this, and constantly the process gas arrival end 31 to coil pipe cools off.
But above-mentioned water circulation cooling structure is owing to the flexible tubesheet size restrictions, and it is too many that sparge pipe can not be provided with, and is therefore even in order to guarantee the water-cooled temperature of cooling off in the cavity 60, in cooling cavity 60, is provided with some turbulent baffles 80.This method effect in the coil pipe negligible amounts is all right; When but in case coil pipe quantity increases; Can have following problem: 1, the quantity of sparge pipe and turbulent baffle can not unconfinedly increase; Thereby the cooling water temperature that can cause cooling off in the cavity 60 is inhomogeneous, and the cooling effect of coil pipe is undesirable; Even 2 increase the quantity of sparge pipe and turbulent baffle, also can can't realize, the cooling effect that has influence on heat exchange coil because the water circulation cooling structure manufacture difficulty strengthens.
In addition, the heat exchange coil in the existing waste heat boiler is generally 6, and per 3 is one group of heat exchange coil bundle, every group of 3 heat exchange coil coiled coils that heat exchange coil is intrafascicular, and two groups of intrafascicular one group of heat exchange coil collars of heat exchange coil are organized the outside of heat exchange coil bundle at another.Such tube bank is difficult to adapt to the requirement of more maximizing.
The utility model content
One of the utility model technical problem to be solved is to be difficult to adapt to the requirement of more maximizing to the water circulation cooling structure in the existing waste heat boiler, the problem that cooling effect is not good enough and a kind of high temp, vertical coil pipe waste heat boiler is provided.This high temp, vertical coil pipe waste heat boiler has improved cooling effect through changing the trend of cooling water; And cancelled the turbulent baffle in the water circulation cooling structure, simplified water circulation cooling structure.
Two of the utility model technical problem to be solved is to the existing problem of arrangement of the heat exchange coil in the existing waste heat boiler a kind of high temp, vertical coil pipe waste heat boiler to be provided; This high temp, vertical coil pipe waste heat boiler adopts more reasonably coil pipe coiling mode; Make the type waste heat boiler can adapt to harsher process conditions, and can adapt to the demand of large scale development.
In order to solve the problems of the technologies described above, the technical scheme that the utility model adopted is following:
A kind of high temp, vertical coil pipe waste heat boiler; Comprise shell part, bobbin carriage part, water circulation cooling structure part and the interior coil portions of heat-exchanging chamber that is arranged on said shell part, wherein said water circulation cooling structure partly is installed between said shell part and the bobbin carriage part; Said water circulation cooling structure partly comprises:
One connects the thick tube sheet between said shell part and the bobbin carriage part, and said thick tube sheet is provided with coil pipe poling hole;
Be welded on said thick tube sheet and close on the flexible tubesheet on the said bobbin carriage part side, be provided with a cooling cavity between first of said flexible tubesheet and said thick tube sheet;
Sparge pipe, the water inlet of said sparge pipe is communicated with cooling water source;
It is characterized in that,
Said water circulation cooling structure part also comprises and is arranged on recirculated water distributor chamber and some drainpipes that said thick tube sheet closes on said shell part side; After the process gas arrival end of each coil pipe in the said coil portions passes on said recirculated water distributor chamber, the thick tube sheet corresponding coil pipe successively and passes the hole from shell part side; Get into said cooling cavity and said flexible tubesheet and be welded to connect, the furnace chamber in the mouth of pipe of the process gas arrival end of each coil pipe and the bobbin carriage part connects; The outer tube wall of the process gas arrival end of each coil pipe and coil pipe pass between the hole wall of hole and are provided with annular space; The delivery port of said sparge pipe is communicated with said recirculated water distributor chamber; Said drainpipe is communicated with the heat-exchanging chamber of said cooling chamber and shell part.
In an embodiment of the utility model, said coil pipe passes the parallel axes in hole in the central axis of said shell part.
In this embodiment; Said recirculated water distributor chamber is welded on said shell part by one and constitutes near the dividing plate of thick tube sheet position and the side and the space that inwall defined partly of the shell between said dividing plate and said thick tube sheet of the contiguous shell part of said thick tube sheet; The process gas arrival end of each coil pipe in the said coil portions gets into said cooling cavity and said flexible tubesheet and is welded to connect after pass coil pipe corresponding on said recirculated water distributor chamber, the thick tube sheet after shell part side is passed described dividing plate more successively and pass the hole; The water outlet end of said sparge pipe passes said dividing plate and is communicated with said recirculated water distributor chamber.
In this embodiment, the process gas arrival end of said each coil pipe is welded on the said dividing plate through retainer ring.
In this embodiment, said drainpipe passes said thick tube sheet, recirculated water distributor chamber, dividing plate and is communicated with the heat-exchanging chamber of said cooling chamber and shell part.
In another embodiment of the utility model, said coil pipe passes the axis normal in hole in the central axis of said shell part.
In this embodiment; On the contiguous shell part of said thick tube sheet side, be welded with a cover body; The space that the side of the inner surface of said cover body and the contiguous shell part of said thick tube sheet is defined constitutes said recirculated water distributor chamber; The process gas arrival end of each coil pipe in the said coil portions gets into said cooling cavity and said flexible tubesheet and is welded to connect after pass coil pipe corresponding on said recirculated water distributor chamber, the thick tube sheet after shell part side is passed described cover body wall more successively and pass the hole; The water outlet end of said sparge pipe passes said cover body wall and is communicated with said recirculated water distributor chamber.
In this embodiment, said drainpipe passes said thick tube sheet, recirculated water distributor chamber and cover body wall and is communicated with said cooling chamber and shell heat-exchanging chamber partly.
In the above-described embodiments; Said coil portions comprises the upper and lower support of coil pipe and connects the central tube of the upper and lower support of coil pipe and be arranged on the coil pack between the upper and lower support of coil pipe, and wherein coil pipe lower carriage and the said shell shell inwall in partly is fixedly connected; Said coil pipe upper bracket is through the upper end of the said coil pack of drawing piece tractive, and the lower end of said coil pack is fixed on the upper and lower support of said coil pipe; Coil pipe in the said coil pack is some, the specification of every coil pipe, same length, and the process gas port of export of each coil pipe extends outside the shell in the said shell part.
In the above-described embodiments, some coil pipes in the said coil pack are that a coiled coil forms with said central tube.
In the above-described embodiments, some coil pipes in the said coil pack are divided into some groups of coil pipe bundles, the mode that some groups of coil pipe Shu Caiyong circumferentially are uniformly distributed be installed in said central tube around, every group of coil pipe bundle formed by two coil pipe coiled coils.
Even in order to guarantee the process gas flow rates that is cooled in the coil pipe, in preferred embodiment of the utility model, every coil pipe plurality of sections progressively the pipe of undergauge be formed by connecting, section is connected with pipe employing reducing joint between the section.
In embodiment of the utility model, except that comprising shell, also comprise steam (vapor) outlet that is arranged on said shell top and the steam-water separating element that is arranged on the steam (vapor) outlet arrival end in the said shell part; Said shell is welded by cylindrical shell and upper cover, and said cylindrical shell segmentation also connects with flange; Above said barrel, be provided with the carbonated drink separated space; The steam that said carbonated drink separated space is produced is derived through steam-water separating element and steam (vapor) outlet.
In the above-described embodiments, said flexible tubesheet adopts Cr-Mo steel or INCONEL600 series nickel-base alloy to be prepared from.
In the above-described embodiments, the water inlet end of said sparge pipe connects cooling water source through a pump.
In the above-described embodiments, the water inlet end of said sparge pipe is connected to the bottom in the shell part through a circulating pump, and the steam that employing is extracted out from shell part bottom is as the forced circulation cooling water of water circulation cooling structure part.
Through a recirculated water distributor chamber is set, the cooling water of calling in through sparge pipe at first gets into this recirculated water distributor chamber in the water circulation cooling structure part of the utility model, to play the effect of buffering and releases gas bubbles.After cooling water gets into the recirculated water distributor chamber; The outer tube wall of the process gas arrival end through coil pipe and the annular space that coil pipe passes between the hole wall of hole are pressed in the cooling cavity between flexible tubesheet and the thick tube sheet, and are pressed in the shell part through drainpipe after the process gas arrival end heat exchange of coil pipe.Adopted above-mentioned coil pipe process gas arrival end to force the type of cooling; Make the cooling of every coil pipe be tending towards even; And do not receive what restriction of a number; And the cooling water of every heat exchanger tube source, passage all be independently, uniform, man-to-man, many pipes can be introduced an annular space naturally, so this cooling scheme can well adapt to the design of multi-head, maximization demand.
Some coil pipes in the coil pack of the utility model are divided into some groups of coil pipe bundles, the mode that some groups of coil pipe Shu Caiyong circumferentially are uniformly distributed be installed in said central tube around, every group of coil pipe bundle formed by two coil pipe coiled coils.Such structure can be provided with more coil pipe in the shell of same diameter, improved heat exchange efficiency, also can well adapt to the design of multi-head, maximization demand.
Disclosed high temp, vertical coil pipe waste heat boiler is applicable to high-temperature technology gas heat recovering process flow process in the utility model, adopts the utility model can reach following effect:
1, this high temp, vertical coil pipe waste heat boiler suitable parameters is wide, has solved the heat recovery problem of high-temperature gas (as above 1200 degrees centigrade), but the middle and high pressure steam of while by-product.
2, the flexible tubesheet structure has solved the process gas arrival end localized heat expansion issues of coil pipe in the utility model, makes the process gas arrival end of coil pipe safely and steadily run.
3, water circulation cooling structure part can effectively reduce the process gas inlet end metal temperature of coil pipe in the utility model, and cooling effect is even, the protection metal material.Simultaneously, the set-up mode of this water circulation is that the equipment enlarging development provides solution.The imported unit of China nineties of comparing, the utility model more are prone to implement, and more adapt to present technological development requirement.
Description of drawings
Fig. 1 is the water circulation cooling structure sketch map of existing waste heat boiler.
Fig. 2 is the high temp, vertical coil pipe waste heat boiler structural representation of the utility model embodiment 1.
Fig. 3 is a water circulation cooling structure part-structure sketch map in the utility model embodiment 1 high temp, vertical coil pipe waste heat boiler.
Fig. 4 is the structural representation of the utility model embodiment 1 high temp, vertical coil pipe waste heat boiler coil pack.
Fig. 5 is the vertical view of Fig. 4.
Fig. 6 is the structural representation of the utility model embodiment 2 high temp, vertical coil pipe waste heat boiler coil packs.
Fig. 7 is the vertical view of Fig. 6.
Fig. 8 is a water circulation cooling structure part-structure sketch map in the utility model embodiment 3 high temp, vertical coil pipe waste heat boilers.
The specific embodiment
For technological means, creation characteristic that the utility model is realized, reach purpose and be easy to understand with effect and understand, below in conjunction with specifically accompanying drawing and embodiment, further set forth the utility model.
Embodiment 1
Referring to Fig. 2, a kind of high temp, vertical coil pipe waste heat boiler shown in the figure comprises shell part, bobbin carriage part, water circulation cooling structure part and the interior coil portions of heat-exchanging chamber that is arranged on the shell part.
Shell partly comprises a shell, and this shell is welded by two sections cylindrical shells 110,120 and upper cover 130, the upper end of cylindrical shell 110 and upper cover 130 welding, and the lower end of cylindrical shell 110 is connected through flange 140,150 and securing member with the upper end of cylindrical shell 120.On upper cover 130, be welded with a steam (vapor) outlet 160, and in upper cover 130, the arrival end of steam (vapor) outlet 160 is equipped with a steam-water separating element 170.Top in whole cylindrical shell is provided with carbonated drink separated space 180; The steam that carbonated drink separated space 180 is produced is derived through steam-water separating element 170 and steam (vapor) outlet 160.The cylindrical shell of present embodiment adopts two sections cylindrical shells 110,120 to constitute, and can overhaul coil portions easily.
Referring to Fig. 2; The bobbin carriage of this high temp, vertical coil pipe waste heat boiler partly comprises bobbin carriage housing 210 and is welded on the low head 220 of bobbin carriage housing 210 lower ends and is arranged on the refractory liner 230 on bobbin carriage housing 210, low head 220 inner surfaces; Bobbin carriage housing 210 is provided with manhole 240, process gas import 250 and in refractory liner 230, is provided with furnace chamber 260, and process gas import 250 is communicated with furnace chamber 260.
In conjunction with referring to Fig. 3, water circulation cooling structure partly comprises a thick tube sheet 310, dividing plate 320, a flexible tubesheet 330, some drainpipes 340.
The water outlet end of sparge pipe 360 passes dividing plate 320 and is communicated with this recirculated water distributor chamber 350, and the water inlet end of sparge pipe 370 connects cooling water source through a pump (not shown); Perhaps be connected to the bottom in the cylindrical shell 120 through a circulating pump (not shown), the steam that employing is extracted out from shell part bottom is as the forced circulation cooling water of water circulation cooling structure part.
Some drainpipes 340 pass thick tube sheet 310, recirculated water distributor chamber 350, dividing plate 320 and are communicated with the heat-exchanging chamber in cooling chamber 370 and the shell part cylindrical shell.
In conjunction with referring to Fig. 4 and Fig. 5; The coil portions of this embodiment comprises the upper and lower support 410,420 of coil pipe and connects the central tube 430 of the upper and lower support 410,420 of coil pipe and be arranged on the upper and lower support of coil pipe 410, the coil pack between 420 440; The inwall of the cylindrical shell 120 in coil pipe lower carriage 420 and the shell part is welded to connect, and coil pipe upper bracket 410 is through the upper end of drawing piece 411 tractive coil packs 440.Upper and lower support 410,420 of coil pipe and coil pack 440 together upwards expand like this.Central tube 430 supports upper and lower support 410,420 effects of coil pipe except that playing, and also in order to improve the water circulation, improves the eroding velocity to heating surface area, helps conducting heat.
The flow velocity of gas in coil pipe a, b, c, d, 1,2,3,4 should be looked concrete process condition and confirm; Get 25~70m/s; Flow velocity is excessive; Coil pipe a, b, c, d, 1,2,3,4 calorific intensitys are just big, may cause forming film boiling, coil pipe a, b, c, d, 1,2,3,4 hot-spots on coil pipe a, b, c, d, 1,2,3, the 4 water side pipe walls; Flow velocity is too small, and heat-transfer effect is poor, coil pipe a, b, c, d, 1,2,3, the easy carbon distribution of 4 inside pipe walls.Simultaneously, even for guaranteeing the process gas flow rates that is cooled in the heat exchanger tube, every coil pipe a, b, c, d, 1,2,3,4 three sections progressively the pipe of undergauge be formed by connecting every intersegmentally connect with reducing joint.Wherein the last period, the diameter of pipe was φ 133mm, and the diameter of middle section of a pipe is φ 108mm, and the diameter of final stage pipe is φ 89mm.
Coil pipe a, b, c, d, 1,2,3,4 process gas arrival end get into cooling cavity 370 and are welded to connect with flexible tubesheet 330 after pass coil pipe corresponding on recirculated water distributor chamber 350, the thick tube sheet 310 more successively after shell part side is passed dividing plate 320 and pass the hole; The mouth of pipe of coil pipe a, b, c, d, 1,2,3,4 process gas arrival end and the furnace chamber 260 in the bobbin carriage part connect; The outer tube wall of coil pipe a, b, c, d, 1,2,3,4 process gas arrival end and coil pipe pass and are provided with annular space 313 between the hole wall of hole.
Water circulation cooling structure part working method in the high temp, vertical coil pipe waste heat boiler of present embodiment is: sparge pipe 370 is at first squeezed into cooling water in the recirculated water distributor chamber 350; After buffering and releases gas bubbles; Be pressed in the cooling cavity 370 through the outer tube wall of coil pipe a, b, c, d, 1,2,3,4 process gas arrival end and the annular space 313 that coil pipe passes between the hole wall of hole; After coil pipe a, b, c, d, 1,2,3,4 process gas arrival end heat exchange, in some drainpipes 340 are pressed into the shell part.The coil pipe a at flexible tubesheet 330 places, b, c, d, 1,2,3,4 process gas arrival end wall temperature are controlled at about 400 ℃, play effective protective effect.
After having adopted the pressure type of cooling, the cooling of every coil pipe is tending towards evenly, and does not receive what restriction of a number.The cooling water of every coil pipe source, passage all be independently, uniform, man-to-man, many pipes can be introduced an annular space naturally, so this cooling scheme can well adapt to the design of multi-head, maximization demand.
In actual application; In pure oxygen non-catalytic partial oxidation (POX) technology that certain conversion of natural gas workshop section is adopted; Directly connect the process gas import 250 in the bobbin carriage part of high temp, vertical coil pipe waste heat boiler of present embodiment behind the reburner; The high temp, vertical coil pipe waste heat boiler diameter of present embodiment is φ 1900mm, from the furnace chamber 260 of high-temperature technology gas (1360 ℃) from the bobbin carriage part of the high temp, vertical coil pipe waste heat boiler of the tube connector entering present embodiment of reburner of reburner.Process gas gets into coil pipe a, b, c, d, 1,2,3,4 through furnace chamber 260 and carries out heat exchange, shell part side will be external the boiler feedwater heating, press saturated vapor in the generation, the carbonated drink separated space 180 through whole cylindrical shell internal upper part carries out the carbonated drink separation; The steam that carbonated drink separated space 180 is produced is derived through steam-water separating element 170 and steam (vapor) outlet 160.The technology tolerance that gets into the high temp, vertical coil pipe waste heat boiler of present embodiment is 12900Nm
3/ h.
Embodiment 2
The high temp, vertical coil pipe waste heat boiler structure of the high temp, vertical coil pipe waste heat boiler of present embodiment and embodiment 1 is basic identical; Difference is that just coil pack 440 mode of spiraling is slightly different; Referring to Fig. 6 and Fig. 7; Coil pack 440 among this embodiment comprises 12 coil pipes, and 12 coil pipes are divided into six groups of coil pipe bundle 440a, 440b, 440c, 440d, 440e, 440f, and every group of coil pipe bundle formed by two coil pipe coiled coils.Six groups of modes that adopt circumferentially to be uniformly distributed be installed in central tube 430 around.
Embodiment 3
The high temp, vertical coil pipe waste heat boiler of present embodiment is that with the difference of the high temp, vertical coil pipe waste heat boiler of embodiment 1 water circulation cooling structure is different; Referring to Fig. 7, its water circulation cooling structure comprises a thick tube sheet 310, a flexible tubesheet 330, some drainpipes 340 and a cover body 380.Thick tube sheet 310 contacts with boiler water with cover body 390, mainly plays the pressure-bearing effect.
The bottom of cylindrical shell 120 is welded with low head 190; Thick tube sheet 310 is welded on the bottom of cylindrical shell 120; Cover body 390 is welded on the side 311 of thick tube sheet 310 contiguous shell parts, and the space that the inner surface of cover body 390 and thick tube sheet 310 contiguous shell part sides 311 are defined constitutes recirculated water distributor chamber 350.On thick tube sheet 310, offer several coil pipes and pass the hole, so that the process gas arrival end of coil pipe passes.Coil pipe passes the axis normal in hole in the central axis of shell part, and this mode tube sheet area is less, is applicable to that coil pipe head number is less, the demand of miniaturization.
The water outlet end of sparge pipe 360 passes cover body 380 and is communicated with this recirculated water distributor chamber 350, and the water inlet end of sparge pipe 360 connects cooling water source through a pump (not shown); Perhaps be connected to the bottom in the cylindrical shell 120 through a circulating pump (not shown), the steam that employing is extracted out from shell part bottom is as the forced circulation cooling water of water circulation cooling structure part.
Some drainpipes 340 pass thick tube sheet 310, recirculated water distributor chamber 350, cover body 390 and are communicated with the heat-exchanging chamber in cooling chamber 380 and the shell part cylindrical shell.
The process gas arrival end of each coil pipe gets into cooling cavity 370 and is welded to connect with flexible tubesheet 330 after pass coil pipe corresponding on recirculated water distributor chamber 350, the thick tube sheet 310 after shell part side is passed cover body 390 more successively and pass the hole in the coil pack 440; Furnace chamber 260 in the coil pack 440 in the mouth of pipe of the process gas arrival end of each coil pipe and the bobbin carriage part connects; The outer tube wall of the process gas arrival end of each coil pipe and coil pipe pass and are provided with annular space 313 between the hole wall of hole in the coil pack 440.
More than show and described the advantage of basic principle, principal character and the utility model of the utility model.The technical staff of the industry should understand; The utility model is not restricted to the described embodiments; The principle of describing in the foregoing description and the specification that the utility model just is described; The utility model also has various changes and modifications under the prerequisite that does not break away from the utility model spirit and scope, and these variations and improvement all fall in the utility model scope that requires protection.The utility model requires protection domain to be defined by appending claims and equivalent thereof.
Claims (16)
1. high temp, vertical coil pipe waste heat boiler; Comprise shell part, bobbin carriage part, water circulation cooling structure part and the interior coil portions of heat-exchanging chamber that is arranged on said shell part, wherein said water circulation cooling structure partly is installed between the said water circulation cooling structure part; Said water circulation cooling structure partly comprises:
One connects the thick tube sheet between said shell part and the bobbin carriage part, and said thick tube sheet is provided with coil pipe poling hole;
Be welded on said thick tube sheet and close on the flexible tubesheet on the said bobbin carriage part side, be provided with a cooling cavity between first of said flexible tubesheet and said thick tube sheet;
Sparge pipe, the water inlet of said sparge pipe is communicated with cooling water source;
It is characterized in that,
Said water circulation cooling structure part also comprises and is arranged on recirculated water distributor chamber and some drainpipes that said thick tube sheet closes on said shell part side; After the process gas arrival end of each coil pipe in the said coil portions passes on said recirculated water distributor chamber, the thick tube sheet corresponding coil pipe successively and passes the hole from shell part side; Get into said cooling cavity and said flexible tubesheet and be welded to connect, the furnace chamber in the mouth of pipe of the process gas arrival end of each coil pipe and the bobbin carriage part connects; The outer tube wall of the process gas arrival end of each coil pipe and coil pipe pass between the hole wall of hole and are provided with annular space; The delivery port of said sparge pipe is communicated with said recirculated water distributor chamber; Said drainpipe is communicated with the heat-exchanging chamber of said cooling chamber and shell part.
2. high temp, vertical coil pipe waste heat boiler as claimed in claim 1 is characterized in that, said coil pipe passes the parallel axes in hole in the central axis of said shell part.
3. high temp, vertical coil pipe waste heat boiler as claimed in claim 2; It is characterized in that; Said recirculated water distributor chamber is welded on said shell part by one and constitutes near the dividing plate of thick tube sheet position and the side and the space that inwall defined partly of the shell between said dividing plate and said thick tube sheet of the contiguous shell part of said thick tube sheet; The process gas arrival end of each coil pipe in the said coil portions gets into said cooling cavity and said flexible tubesheet and is welded to connect after pass coil pipe corresponding on said recirculated water distributor chamber, the thick tube sheet after shell part side is passed described dividing plate more successively and pass the hole; The water outlet end of said sparge pipe passes said dividing plate and is communicated with said recirculated water distributor chamber.
4. high temp, vertical coil pipe waste heat boiler as claimed in claim 3 is characterized in that the process gas arrival end of said each coil pipe is welded on the said dividing plate through retainer ring.
5. high temp, vertical coil pipe waste heat boiler as claimed in claim 3 is characterized in that, said drainpipe passes said thick tube sheet, recirculated water distributor chamber, dividing plate and is communicated with the heat-exchanging chamber of said cooling chamber and shell part.
6. high temp, vertical coil pipe waste heat boiler as claimed in claim 1 is characterized in that, said coil pipe passes the axis normal in hole in the central axis of said shell part.
7. high temp, vertical coil pipe waste heat boiler as claimed in claim 6; It is characterized in that; On the contiguous shell part of said thick tube sheet side, be welded with a cover body; The space that the side of the inner surface of said cover body and the contiguous shell part of said thick tube sheet is defined constitutes said recirculated water distributor chamber; The process gas arrival end of each coil pipe in the said coil portions gets into said cooling cavity and said flexible tubesheet and is welded to connect after pass coil pipe corresponding on said recirculated water distributor chamber, the thick tube sheet after shell part side is passed described cover body wall more successively and pass the hole; The water outlet end of said sparge pipe passes said cover body wall and is communicated with said recirculated water distributor chamber.
8. high temp, vertical coil pipe waste heat boiler as claimed in claim 1 is characterized in that, said drainpipe passes said thick tube sheet, recirculated water distributor chamber and cover body wall and is communicated with said cooling chamber and shell heat-exchanging chamber partly.
9. like the described high temp, vertical coil pipe of each claim of claim 1 to 8 waste heat boiler; It is characterized in that; Said coil portions comprises the upper and lower support of coil pipe and connects the central tube of the upper and lower support of coil pipe and be arranged on the coil pack between the upper and lower support of coil pipe, and wherein coil pipe lower carriage and the said shell shell inwall in partly is fixedly connected; Said coil pipe upper bracket is through the upper end of the said coil pack of drawing piece tractive, and the lower end of said coil pack is fixed on the upper and lower support of said coil pipe; Coil pipe in the said coil pack is some, the specification of every coil pipe, same length, and the process gas port of export of each coil pipe extends outside the shell in the said shell part.
10. high temp, vertical coil pipe waste heat boiler as claimed in claim 9 is characterized in that, some coil pipes in the said coil pack are that a coiled coil forms with said central tube.
11. high temp, vertical coil pipe waste heat boiler as claimed in claim 9; It is characterized in that; Some coil pipes in the said coil pack are divided into some groups of coil pipe bundles; The mode that some groups of coil pipe Shu Caiyong circumferentially are uniformly distributed be installed in said central tube around, every group of coil pipe bundle formed by two coil pipe coiled coils.
12. high temp, vertical coil pipe waste heat boiler as claimed in claim 9 is characterized in that, every coil pipe plurality of sections progressively the pipe of undergauge be formed by connecting, section is connected with pipe employing reducing joint between the section.
13. like the described high temp, vertical coil pipe of each claim of claim 1 to 8 waste heat boiler; It is characterized in that; Except that comprising shell, also comprise steam (vapor) outlet that is arranged on said shell top and the steam-water separating element that is arranged on the steam (vapor) outlet arrival end in the said shell part; Said shell is welded by cylindrical shell and upper cover, and said cylindrical shell segmentation also connects with flange; Above said barrel, be provided with the carbonated drink separated space; The steam that said carbonated drink separated space is produced is derived through steam-water separating element and steam (vapor) outlet.
14., it is characterized in that said flexible tubesheet adopts Cr-Mo steel or INCONEL600 series nickel-base alloy to be prepared from like the described high temp, vertical coil pipe of each claim of claim 1 to 8 waste heat boiler.
15., it is characterized in that the water inlet end of said sparge pipe connects cooling water source through a pump like the described high temp, vertical coil pipe of each claim of claim 1 to 8 waste heat boiler.
16. like the described high temp, vertical coil pipe of each claim of claim 1 to 8 waste heat boiler; It is characterized in that; The water inlet end of said sparge pipe is connected to the bottom in the shell part through a circulating pump, and the steam that employing is extracted out from shell part bottom is as the forced circulation cooling water of water circulation cooling structure part.
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CN2011200965942U CN202166030U (en) | 2011-04-02 | 2011-04-02 | High temperature vertical type coiler waste heat boiler |
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CN2011200965942U CN202166030U (en) | 2011-04-02 | 2011-04-02 | High temperature vertical type coiler waste heat boiler |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102705801A (en) * | 2011-04-02 | 2012-10-03 | 上海国际化建工程咨询公司 | High-temperature vertical waste heat boiler with coil pipes |
-
2011
- 2011-04-02 CN CN2011200965942U patent/CN202166030U/en not_active Expired - Lifetime
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102705801A (en) * | 2011-04-02 | 2012-10-03 | 上海国际化建工程咨询公司 | High-temperature vertical waste heat boiler with coil pipes |
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