CN108895425A - A kind of steam boiler method that length is designed - Google Patents

Abstract

The present invention provides a kind of design methods of steam boiler, including upper drum and lower drum and the tedge and down-comer that are connected between upper drum and lower drum, constant-current stabilizer is set in the tedge, and the multiple constant-current stabilizers of setting in same root tedge, wherein design method is as follows：If being H apart from the distance for rising tube inlet, the length of constant-current stabilizer is C, C=F₂(H), i.e. C is using distance H as the function of variable, and C ' is the first order derivative of C, meets following require：C'>0.The present invention provides a kind of new steam boiler designs method, augmentation of heat transfer, while weakening the vibration of tedge, reduces noise level.

Description

A kind of steam boiler method that length is designed

Technical field

The invention belongs to steam generation field more particularly to a kind of steam boilers, belong to the field IPC code F22.

Background technique

Receive heat from furnace and fluid is made to flow to high-order circuit referred to as " riser circuit " from low level, and receives heat It measures and the circuit for making fluid flow to low level from a high position is referred to as " decline circuit ".One circuit is by a pipe or one group of pipe Composition, this group of pipe draw from a common point, such as header or steamdrum, terminate at and be similarly public affairs as header or drum Concurrent.

In the design of most of natural circulation boilers, the heat pipe of evaporation section is constituted generally for fluid flows upward, but In more drum-type boilers, the downflow heated tube of steam-generating bank is quite different.In such boiler, downflow heated tube provides furnace Whole circular flows of interior and steam-generating bank part tedge.

On the one hand, the fluid of tedge is during upwards, usually stream-liquid two-phase flow, so that the stream in tedge Body is liquid-vapor mixture, and the presence of stream-liquid two-phase flow makes the efficiency for affecting tedge heat absorption.

On the other hand, this section of upper drum is exported to from tedge, because the space of this section becomes larger suddenly, the change in space Change and will lead to quickly flowing upwards out and assemble for gas, therefore spatial variations will lead to the vapour phase of aggregation（Vapour group）From tedge position It sets and enters upper drum, due to gas（Vapour）Liquid density contrast, air mass leaves adapter tube position and will move rapidly upward, and air mass original space bit It sets and the liquid of wall surface is pushed away by air mass while will also spring back and hit wall surface rapidly, form impingement phenomenon.Gas（Vapour）Liquid phase is more not Continuously, air mass aggregation is bigger, and Impact energy is bigger.Impingement phenomenon will cause biggish noise vibration and mechanical shock, to equipment It damages.

In view of the above-mentioned problems, the present invention is improved on the basis of invention in front, a kind of new steam copper is provided Furnace, to solve the problems, such as that tedge heat absorption efficiency is low.

Summary of the invention

The present invention provides a kind of new steam boilers, to solve the technical issues of front occurs.

To achieve the goals above, technical scheme is as follows：

A kind of steam boiler, including upper drum and lower drum and the tedge being connected between upper drum and lower drum and decline Pipe, which is characterized in that constant-current stabilizer is set in the tedge, the multiple constant-current stabilizers of setting in same root tedge, along upper The fluid flow direction of riser, the spacing between adjacent constant-current stabilizer constantly reduce.

Preferably, the ever-reduced width of spacing along the fluid flow direction of tedge, between adjacent constant-current stabilizer It spends increasing.

Preferably, the constant-current stabilizer includes core and shell, the core setting in the shell, the shell with it is upper Riser inner wall is connected and fixed, and the core is composed of together a number of pipe adjoining.

Preferably, by the way that insert is arranged in the space between shell and outermost layer pipe, so that tight between pipe Close connection, while making pipe fixed in the shell.

Preferably, aperture is arranged between adjacent pipe realizes perforation.

Preferably, groove is arranged in the rising inside pipe wall, the shell of the constant-current stabilizer is arranged in groove, described outer The inner wall of shell and the aligning inner of tedge.

Preferably, tedge is welded for multi-segment structure, constant-current stabilizer is arranged in the junction of multi-segment structure.

Preferably, the spacing between adjacent constant-current stabilizer is S, the length of constant-current stabilizer is C, and the outer diameter of tedge is W, The pipe diameter of constant-current stabilizer is D, meets following require：

S/C=a-b*LN (W/D)；Wherein LN is logarithmic function, and a, b are parameters, wherein 4.8<a<5.8,1.4<b<2.0；

Wherein the spacing of constant-current stabilizer is the both ends the distance between opposite with adjacent constant-current stabilizer；

34<W<58mm；

7<D<12mm;

19<C<27mm；

50<S<70mm。

Preferably, being A in the angle that tedge and horizontal plane are formed, then

C*S/C=a-b*LN (W/D)；c=1/sin(A)^d, wherein 0.09<d<0.11,

20°<A<80°。

Preferably, d=0.10.

Preferably, groove is arranged in the rising inside pipe wall, the shell of the constant-current stabilizer is arranged in groove, described outer The inner wall of shell and the aligning inner of tedge.

Preferably, tedge is welded for multi-segment structure, constant-current stabilizer is arranged in the junction of multi-segment structure.

Compared with prior art, the present invention has the advantage that：

1）The present invention is changed by the spacing of constant-current stabilizer, there are when Gas- liquid two-phase flow in tedge, augmentation of heat transfer, simultaneously Weaken the vibration of tedge, reduces noise level.

2）Multitube constant-current stabilizer is arranged in the present invention in tedge, is separated two-phase fluid by multitube constant-current stabilizer At liquid phase and vapour phase, liquid phase is divided into small liquid group, vapour phase is divided into minute bubbles, promotes vapour phase smooth outflow, plays stabilization The effect of flow has the effect of vibration and noise reducing, improves heat transfer effect.

3）The present invention is equivalent in tedge by setting multitube constant-current stabilizer and increases inner fin, enhanced and changed Heat improves heat transfer effect.

4）The present invention avoids only because vehicle repair major is divided in the entire cross-section location of tedge Tedge inner wall is split, thus entirely rise realized on tube section expand liquid-vaqor interface and vapour phase boundary layer with it is cold But the contact area of wall surface and enhance disturbance, reduce noise and vibration, enhance heat transfer.

5）The present invention passes through the distance that is arranged between adjacent constant-current stabilizer on tedge fluid flow direction, constant-current stabilizer The rule variation of length, the parameters size such as outer diameter of pipe reduce noise to further reach steady flow result, raising is changed Thermal effect.

6）The present invention has been carried out widely by heat exchange rule caused by the variation to multitube constant-current stabilizer parameters Research, when meeting flow resistance, realizes the best relation formula of the effect of vibration and noise reducing.

Detailed description of the invention

Fig. 1 is steam boiler structural schematic diagram of the invention；

Fig. 2 is another embodiment schematic diagram of steam boiler structure of the invention；

Fig. 3 constant-current stabilizer cross-sectional structure schematic diagram of the present invention；

Fig. 4 is constant-current stabilizer of the present invention arrangement schematic diagram in tedge；

Fig. 5 is another schematic diagram that constant-current stabilizer of the present invention is arranged in tedge.

In figure：1, upper drum, 2, lower drum, 3, tedge, 4, constant-current stabilizer, 41 shells, 42 pipes, 5, down-comer, 6 Down-comer, 7 lower drums, 8 tedges, 9 tedges, 10 fire box, 11 outlet headers, 12 flues.

Specific embodiment

Specific embodiments of the present invention will be described in detail with reference to the accompanying drawing.

Herein, if without specified otherwise, it is related to formula, "/" indicates that division, "×", " * " indicate multiplication.

A kind of further steam boiler as described in Figure 1, including upper drum 1 and lower drum 2, the tedge 3 and decline Pipe 5 connects upper drum 1 and lower drum 2.Water enters in down-comer 5 from upper drum 1.Water flows downward in the downcomer, and is received Collection is in the lower drum 2 of tube bank.The tedge 3 of boiler is heated by the burning of fuel in fire box 10.It is inhaled by tedge 3 The heat of receipts makes the liquid boiling in pipe, thus generates the two-phase mixture of water and vapour.Two-phase mixture in tedge 3 reaches Upper drum 1.Water supplying pipe from upper drum 1（It is not shown）The subcooled water of releasing and the saturated liquid released from separator are mixed It is combined to form subcooled liquid, subcooled liquid flows out upper drum 1 and enters down-comer 5, just completes one according to such process A flow circuit.

The further steam boiler of another embodiment as described in Figure 2, including upper drum 1 and lower drum 2, the rising Pipe 3 and down-comer 5 connect upper drum 1 and lower drum 2.Water enters steam-generating bank of being heated in smokejack 12 in furnace from upper drum 1 In down-comer 5.Water flows downward in the downcomer, and is collected in lower drum 2.Since down-comer 5 absorbs heat, so The temperature for entering the water in lower drum 2 increases.According to the number of absorbed heat, the water in lower drum 2 can be supercooling or Person's saturation.Leave the fluid of lower drum 2（General steam water interface）A part flows upwardly into the tedge 3 of steam-generating bank. The liquid for flowing upwardly into tedge 3 absorbs heat and enters upper drum 1.

The fluid a part for leaving lower drum 2 reaches burner hearth lower drum 7 by down-comer 6.Enter the liquid of a lower drum 7 Body is distributed in each boiler tube 8 being connected with the lower drum 7.Boiler tube is heated by the burning of fuel in fire box 10.By furnace The heat that pipe 8 absorbs makes the liquid boiling in boiler tube 8, thus generates the two-phase mixture of water and vapour.Two-phase mixtures in boiler tube 8 Object or the boiler tube 8 by being directly connected to upper drum 1 reach upper drum 1, the namely tedge of boiler tube 8 at this time, Huo Zhe Outlet header 11 be arranged in lower drum 7 and upper drum 1 so far, by intermediate tedge 9 by two-phase mixture from burner hearth circuit out Mouth header 11 is transmitted to upper drum 1.Inside separator in upper drum 1 separates two-phase mixture into vapour and water.From upper Water supplying pipe in drum 1（It is not shown）The subcooled water of releasing and the saturated liquid released from separator mix to be formed Subcooled liquid, subcooled liquid flow out upper drum 1 and enter down-comer 5, just complete a flow circuit according to such process.

The steam-generating bank of steam boiler, the selected burner hearth furnace wall washed away by combustion-gas flow and convection current furnace wall are come Say, it is desirable that guarantee a critical inputs heat so that fluid in tube bank and convection current furnace wall circuit in all pipe sufficiently to Upper circulation and the unstability that will not occur flowing.

Constant-current stabilizer 4, the constant-current stabilizer 4 such as Fig. 3 are set in the tedge 3 and/or tedge 8 and/or tedge 9 It is shown, including core 42 and shell 41, in shell 41, the shell 41 is connect with 3 inner wall of tedge for the setting of core 42 Fixed, the core is composed of together a number of adjoining of pipe 42.

Multitube constant-current stabilizer is arranged in the present invention in tedge, by multitube constant-current stabilizer by the liquid in two-phase fluid It is mutually separated with vapour phase, liquid phase is divided into small liquid group, vapour phase is divided into minute bubbles, avoid dividing completely for liquid phase and vapour phase It opens, promotes liquid vapor phase smooth outflow, play the role of regime flow, have the effect of vibration and noise reducing.

Mentioned tedge below, is all at least one of tedge 3, tedge 8 and tedge 9.

The present invention is equivalent to by setting multitube constant-current stabilizer and increases inner fin in tedge 3, enhanced and changed Heat improves heat transfer effect.

The present invention is because all cross-section locations by vehicle repair major in tedge 3 are divided, thus on entire The segmentation of liquid-vaqor interface and vapour phase boundary layer and the contact area of cooling wall are realized on riser cross section and enhances disturbance, significantly Reduce noise and vibration, enhance heat transfer.

Preferably, guaranteeing pipe by the way that insert is arranged in the space 43 between shell 42 and outermost layer pipe 41 Between closely connect, while guaranteeing that pipe 41 is fixed in shell 42.

Preferably, adjacent pipe 41 is by being welded together.It is linked together, be ensure that by welding manner Being connected firmly between pipe 41.

Preferably, aperture is arranged between adjacent pipe 41 realizes perforation.By the way that aperture is arranged, it is ensured that adjacent pipe It is interconnected between son, pressure that can uniformly between pipe, so that the fluid of high pressure runner flows to low pressure, while can also be Fluid further separates liquid phase and vapour phase while flowing, is conducive to further stablize two-phase flow.

Preferably, along the flow direction of fluid in tedge 3（That is the short transverse of Fig. 3）, setting is more in tedge 3 A constant-current stabilizer 4, from the entrance of tedge to the outlet of tedge, the distance between adjacent constant-current stabilizer is shorter and shorter.If away from It is H with a distance from tube inlet from rising, the spacing between adjacent constant-current stabilizer is S, S=F₁(H), i.e. S is using distance H as variable Function, S ' are the first order derivatives of S, meet following require：

S’<0;

Main cause is because the steam in tedge understands carrier's liquid, in uphill process, tedge in uphill process It is continuous heated, cause the steam in biphase gas and liquid flow more and more, because the vapour phase in stream-liquid two-phase flow is more and more, rises Exchange capability of heat in pipe can increase with vapour phase and weaken relatively, and vibration and its noise also can constantly increase as vapour phase increases Add.Therefore the distance between the adjacent constant-current stabilizer for needing to be arranged is shorter and shorter.

In addition, this section of outlet header 11 is exported to from tedge 8, also from tedge 9 and 3 to this section of upper drum 1, Because the space of this section becomes larger suddenly, the variation in space will lead to quickly flowing upwards out and assemble for gas, therefore space becomes Change the vapour phase that will lead to aggregation（Vapour group）Enter condensation collector from tedge position, due to gas（Vapour）Liquid density contrast, air mass leave Adapter tube position will move rapidly upward, and air mass original spatial position is pushed away the liquid of wall surface while will also be sprung back rapidly simultaneously by air mass Wall surface is hit, impingement phenomenon is formed.Gas（Vapour）Liquid phase is more discontinuous, and air mass aggregation is bigger, and water hammer energy is bigger.Impingement phenomenon meeting Biggish noise vibration and mechanical shock are caused, equipment is damaged.Therefore it in order to avoid the generation of this phenomenon, sets at this time The distance between the adjacent constant-current stabilizer set is shorter and shorter, thus constantly separate gas phase and liquid phase in fluid delivery process, To reduce vibration and noise to the full extent.

It is found through experiments that, by above-mentioned setting, can both reduce vibration and noise to the full extent, while can mention High heat transfer effect.

Further preferably, from the entrance of tedge to the outlet of tedge, the distance between adjacent constant-current stabilizer is increasingly Short amplitude is continuously increased.That is S " is the second derivative of S, meets following require：

S”>0;

It is found through experiments that, by so set, 9% or so vibration and noise can be further decreased, while it is left to improve 7% Right heat transfer effect.

Preferably, the length of each constant-current stabilizer 4 remains unchanged.

Preferably, other than the distance between adjacent constant-current stabilizer 4, constant-current stabilizer others parameter（Such as length, Caliber etc.）It remains unchanged.

Preferably, the flow direction of the interior fluid along tedge（I.e. along tedge extending direction）, in tedge Multiple constant-current stabilizers 5 are set, and from the entrance of tedge to the outlet of tedge, the length of constant-current stabilizer 5 is increasingly longer.That is current stabilization The length of device is C, C=F₂(H), C ' is the first order derivative of C, meets following require：

C’>0;

Further preferably, from the entrance of tedge to the outlet of tedge, the increasingly longer amplitude of the length of constant-current stabilizer is continuous Increase.That is C " is the second derivative of C, meets following require：

C”>0;

The variation of the distance between for example adjacent constant-current stabilizer of specific reason is identical.

Preferably, the distance between adjacent constant-current stabilizer remains unchanged.

Preferably, the length in addition to constant-current stabilizer is outside one's consideration, constant-current stabilizer others parameter（Such as adjacent spacing, caliber Deng）It remains unchanged.

Preferably, the flow direction of the interior fluid along tedge（I.e. along tedge extending direction）, in tedge Multiple constant-current stabilizers are set, and from the entrance of tedge to the outlet of tedge, the diameter of the pipe 51 in different constant-current stabilizers 5 is got over Come smaller.I.e. the pipe diameter of constant-current stabilizer is D, D=F₃(H), D ' is the first order derivative of D, meets following require：

D’<0;

Preferably, the smaller and smaller amplitude of the pipe diameter of constant-current stabilizer is not from the entrance of tedge to the outlet of tedge It is disconnected to increase.I.e.

D " is the second derivative of D, meets following require：

D”>0。

The variation of the distance between for example adjacent constant-current stabilizer of specific reason is identical.

Preferably, the length of constant-current stabilizer and the distance of adjacent constant-current stabilizer remain unchanged.

Preferably, other than the pipe diameter of constant-current stabilizer, constant-current stabilizer others parameter（Such as it is length, adjacent steady Flow the distance between device etc.）It remains unchanged.

Further preferably, as shown in figure 4, groove is arranged inside the tedge, the shell 42 of the constant-current stabilizer 4 is arranged In groove.

Preferably, the inner wall of shell 42 and the aligning inner of tedge.By alignment, so that tedge inner wall surface On reach in the same plane, guarantee the smooth of surface.

Preferably, the thickness of shell 42 is less than the depth of groove, tedge inner wall can be made to form groove in this way, To carry out augmentation of heat transfer.

Further preferably, as shown in figure 5, tedge is welded for multi-segment structure, the junction setting of multi-segment structure is steady Flow device 4.This mode makes being simple to manufacture for the tedge that constant-current stabilizer is arranged, and cost reduces.

It is learnt by analyzing and testing, the spacing between constant-current stabilizer cannot be excessive, leads to damping noise reduction if excessive Effect it is bad, while can not be too small, cause resistance excessive if too small, similarly, the outer diameter of pipe can not it is excessive or Too small, the effect for also resulting in damping noise reduction is bad or resistance is excessive, therefore the present invention is through a large number of experiments, preferentially full The normal flow resistance of foot（Total pressure-bearing be 2.5Mpa hereinafter, the on-way resistance of single riser be less than or equal to 5Pa/M）'s In the case of, so that being optimal of damping noise reduction, has arranged the optimal relationship of parameters.

Spacing between adjacent constant-current stabilizer is S, and the length of constant-current stabilizer is C, and the outer diameter of tedge is W, constant-current stabilizer Tube outer diameter be D, meet following require：

S/C=a-b*LN (W/D)；Wherein LN is logarithmic function, and a, b are parameters, wherein 4.8<a<5.8,1.4<b<2.0；Into one Step preferably 5.1<a<5.5,1.6<b<1.8；

Wherein the interval S of constant-current stabilizer is the both ends the distance between opposite with adjacent constant-current stabilizer；That is front constant-current stabilizer The distance between the front end of tail end and constant-current stabilizer below.Referring specifically to the mark of Fig. 5.

34mm<W<58mm；

7mm<D<12mm;

19mm<C<27mm；

50mm<S<70mm。

Preferably, rising length of tube L between 3000-8500mm.Further preferably, between 4500-5500mm.

Further preferably, 40mm<W<50mm；

9mm<D<10mm;

22mm<C<25mm；

55mm<S<60mm。

By the preferred of the optimal geometric scale of above-mentioned formula, can be realized under the conditions of meeting normal flow resistance, Damping noise reduction reaches optimum efficiency.

Further preferably, as the increase of W/D, a constantly reduce, b constantly increases.

Further preferably, a=5.31, b=1.75.

For parameters such as other parameters, such as tube wall, shell wall thickness according to normal standard setting.

Preferably, pipe 41 extends in the whole length direction of constant-current stabilizer 4.I.e. the length of pipe 41 is filled equal to current stabilization Set 5 length.

Preferably, the caliber of the evaporation collector 1 is less than the caliber of condensation collector 2.

The internal diameter for evaporating collector is R1, and the internal diameter for condensing collector is R2, as preferably then 0.45<R1/R2<0.88.

By above-mentioned setting, can further augmentation of heat transfer, can be improved 7% or more heat exchange efficiency.

Preferably, correction factor c can be increased to data when the angle that tedge and horizontal plane are formed is A It is modified, i.e.,

C*S/C=a-b*LN (W/D)；c=1/sin(A)^d, wherein 0.09<d<0.11, preferably d=0.10.

20°<A<80 °, preferably 40-60 °.

Although the present invention has been disclosed in the preferred embodiments as above, present invention is not limited to this.Any art technology Personnel can make various changes or modifications, therefore protection scope of the present invention is answered without departing from the spirit and scope of the present invention When being defined by the scope defined by the claims..

Claims (4)

1. a kind of design method of steam boiler including upper drum and lower drum and is connected to upper between upper drum and lower drum Riser and down-comer, which is characterized in that constant-current stabilizer is set in the tedge, the multiple current stabilization dresses of setting in same root tedge It sets, wherein design method is as follows：

If being H apart from the distance for rising tube inlet, the length of constant-current stabilizer is C, C=F₂(H), i.e. C is using distance H as the letter of variable Number, C ' is the first order derivative of C, meets following require：

C’>0。

2. the design method of steam boiler as described in claim 1, which is characterized in that

C " is the second derivative of C, meets following require：

C”>0。

3. the design method of steam boiler as described in claim 1, which is characterized in that the constant-current stabilizer includes core and outer Shell, in the shell, the shell is connected and fixed with inside pipe wall is risen, and the core is by a number of pipe for the core setting Son adjoining is composed together.

4. a kind of design method of steam boiler including upper drum and lower drum and is connected to upper between upper drum and lower drum Riser and down-comer, which is characterized in that constant-current stabilizer is set in the tedge.