CN1865830A - Composite reinforced heat-transmission pipe with partition spilt whirl plate and method for enhancement of thermal transmission - Google Patents

Abstract

The invention relates to a compounded strengthened heat transmission tube and relative strengthened heat transmission method, while it is arranged with distanced cyclone plates. Wherein, the invention comprises a heat transmission tube and cyclone plates; said cyclone plate is a short twisted band with rotation angle along the axis and symmetry along the radius; the heat transmission tube comprises at least two cyclone plates, which are axially distanced; said method comprises that: the flow passes one cyclone plate, to form a screw flow; then the screw flow via its motion inertia keeps self cyclone in the distance between to cyclone plates; then the flow passes next cyclone plate, to form screw flow again; the flow along the flowing direction repeats said process. The inventive heat transmission tube can strengthen the heat transmission at the central section of heat transmission tube, and avoid the large resistance of long inserted matter, to obtain high convection transmission film factor at lower flow resistance.

Description

Interband is every the compound intensified heat-transfer pipe and the intensified heat transfer method that split spinning disk

Technical field

The present invention relates to a kind of intensify heat transfer pipe, particularly a kind of interband is every the compound intensified heat-transfer pipe and the intensified heat transfer method that split spinning disk.

Background technology

Existing intraductal heat transfer reinforcement technique has multiple, and wherein special-shaped intensify heat transfer pipe also has polytype, the spiral grooved tube that has used in a large number in industry for example, band tube seat and convergent-divergent pipe etc.Insert in the pipe that is provided with in intensify heat transfer pipe also has various ways to strengthen heat-transfer effect, and inserting the owner in the pipe wherein will have continuous long twisted strip, helix, and the alternate flight that is cross-linked of eddy flow direction etc.

General special-shaped intensify heat transfer pipe is used for the augmentation of heat transfer of turbulent fluid more, the main turbulivity augmentation of heat transfer that relies on the rough rib face promotion limit wall fluid of tube wall, situation that this heat transfer resistance for fluid under turbulent-flow conditions mainly concentrates on the Bian Bi district of heat-transfer pipe is effectively to improve the heat transfer property of heat-transfer pipe, but the shortcoming that exists is after the convection heat transfer' heat-transfer by convection thermal resistance of tube wall reduces relatively, the convection heat transfer' heat-transfer by convection thermal resistance in tube hub district increases relatively, and the rough rib face that only relies on tube wall is difficult to the convection heat transfer' heat-transfer by convection of further enhanced tube center, so heat conduction reinforced degree is subjected to certain restriction.

Insert is used for the augmentation of heat transfer of laminar flow or transition flow fluid more in the general pipe, the effect of the eddy flow of main dependence insert convection cell is carried out place-exchange with the fluid of heat-transfer pipe center and the fluid in Bian Bi district, strengthen the convection heat transfer' heat-transfer by convection of center, situation that this heat transfer resistance for fluid under laminar flow or transition flow condition mainly concentrates on the center of heat-transfer pipe is effectively to improve the heat transfer property of heat-transfer pipe, but the shortcoming that exists is that the body resistance of rectangular continuously insert convection cell is very big, generally only be applicable to laminar flow or transition flow, and be not suitable for turbulent-flow conditions.Therefore existing intraductal heat transfer reinforcement technique also exists limitation for turbulent heat transfer.

Summary of the invention

It is very big with the body resistance of rectangular continuously insert convection cell to the objective of the invention is to overcome the limitation that is difficult to further enhanced tube center convection heat transfer' heat-transfer by convection that existing intraductal heat transfer reinforcement technique also exists for turbulent heat transfer, generally only be applicable to laminar flow or transition flow, and be not suitable for the shortcoming of turbulent-flow conditions, provide in a kind of pipe that goes for turbulent-flow conditions interband every the composite intensified heat-transfer pipe and the intensifying method that split spinning disk.

Technical purpose of the present invention can be achieved through the following technical solutions:

Interband is every the compound intensified heat-transfer pipe that splits spinning disk, comprise heat transfer body and spinning disk, spinning disk is a kind ofly to have the anglec of rotation and at the short twisted strip of radial direction curve form symmetry, be provided with at least 2 spinning disks in the described heat transfer body along axis direction, keeps axial spacing between the spinning disk.

For further realizing purpose of the present invention:

Useful is that with the finer wire connection, steel wire one end is fixed on tube fluid inlet termination between the described spinning disk.

Useful is that described spinning disk is welded on the heat-transfer pipe inwall.

Useful is that the method that described spinning disk compresses with mechanical rolling is fixed on the heat-transfer pipe inwall.

Useful is that described heat transfer body is plain tube body or the coarse heat transfer body that has the concavo-convex rough rib face of various periodicity.

Useful is that described coarse heat transfer body is the spiral grooved tube body, band tube seat body or convergent-divergent pipe body.

The described spinning disk anglec of rotation can 30～360 the degree between value, preferred 45 the degree, 90 the degree, 180 the degree or 270 the degree.

Axial spacing between the described spinning disk is 150～1500mm, preferred 400mm.

Use interband of the present invention and realize the method for augmentation of heat transfer every the compound intensified heat-transfer pipe that splits spinning disk: fluid enters from heat transfer body arrival end, in the heat transfer body during through a spinning disk, form spiral flow, afterwards, spiral flow relies on the motional inertia of fluid self to keep spin current in the spacing of two spinning disks, fluid is during through next spinning disk, form spiral flow again again, the fluid streamwise repeats the process of described spiral flow and spin current, at last, fluid flows out from the heat-transfer pipe port of export.

The relative prior art of the present invention has following advantage and effect: shorter owing to its length by the be separated by spinning disk that splits of certain axial spacing in pipe, the resistance of convection cell is less, and the spin current body resistance at spinning disk tract fluid that utilizes spinning disk to produce is very little, can avoid continuously the body resistance of rectangular insert convection cell very big, generally only be applicable to laminar flow or transition flow, and be not suitable for the disadvantage of turbulent-flow conditions, the fluid spin current that is produced by spinning disk has the effect of enhanced tube inner fluid center convection heat transfer' heat-transfer by convection simultaneously, can overcome special-shaped intensify heat transfer pipe only relies on rough rib face to be difficult to the shortcoming of the convection heat transfer' heat-transfer by convection of further enhanced tube center, can under lower fluid resistance condition, further improve the convection heat transfer' heat-transfer by convection film coefficient (more than 10%) of tube fluid, obtain better heat conduction reinforced effect.

Description of drawings

Fig. 1 is the front view of spinning disk;

Fig. 2 is the shaft side figure of spinning disk;

Fig. 3 is the vertical view of spinning disk;

Fig. 4 is the left view of spinning disk;

Fig. 5 is that embodiment 1 interband is every the compound intensified heat-transfer pipe schematic diagram that splits spinning disk;

Fig. 6 is that embodiment 2 interbands are every the compound intensified heat-transfer pipe schematic diagram that splits spinning disk;

Fig. 7 is that embodiment 3 interbands are every the compound intensified heat-transfer pipe schematic diagram that splits spinning disk.

The specific embodiment

The present invention is described in further detail below in conjunction with embodiment and accompanying drawing, but embodiments of the invention are not limit therewith.

Embodiment 1

Fig. 5 shows interband of the present invention every a kind of version of compound intensified heat-transfer pipe that splits spinning disk.As shown in Figure 3, interband comprises heat transfer body 2 every the compound intensified heat-transfer pipe that splits spinning disk, spinning disk 1, finer wire 3, and heat transfer body 2 is the plain tube body.As Fig. 1,2,3, shown in 4, spinning disk 1 has the 45 degree anglecs of rotation and at the short twisted strip of radial direction curve form symmetry for a kind of along axis direction, in heat transfer body 2, keep axial spacing between the spinning disk, specifically be, spinning disk 1 splits installation at interval in the pipe of heat transfer body 2, have 4 spinning disks, the heat-transfer pipe body diameter is 20mm, and internal diameter of tube body is 16mm, and body is long to be 2m, the spinning disk spacing distance is all 400mm, spinning disk length is 30mm, and width is 15.5mm, and thickness is 1mm, spinning disk adopts φ 1mm finer wire 3 to be connected each other, and fixation with steel wire is at the arrival end 4 of tube fluid.During application, fluid enters from heat transfer body 2 arrival ends 4, in heat transfer body 2, during through a spinning disk 1, form spiral flow, afterwards, spiral flow relies on the motional inertia of fluid self to keep spin current in the spacing of two spinning disks 1, fluid forms spiral flow again during through next spinning disk 1 again, and the fluid streamwise repeats the process of described spiral flow and spin current, at last, fluid flows out from the heat-transfer pipe port of export.After testing, this interband improves 6% every the heat conduction reinforced multi-stress of the compound intensified heat-transfer pipe that splits spinning disk than normal optical slip pipe

Embodiment 2

Fig. 6 shows another kind of interband of the present invention every the compound intensified heat-transfer tubular construction form that splits spinning disk.As shown in Figure 6, interband comprises heat transfer body 2 (for the convergent-divergent body), spinning disk 1 every the compound intensified heat-transfer pipe that splits spinning disk.Spinning disk is a kind ofly to have the 60 degree anglecs of rotation and at the short twisted strip of radial direction curve form symmetry, keep axial spacing between each spinning disk in convergent-divergent body 2 along axis direction.Specifically be, spinning disk 1 splits installation at interval in the pipe of convergent-divergent body 2, and spinning disk 1 has 8, spinning disk 1 adopts the method for welding to fix with the convergent-divergent inboard wall of tube body, and convergent-divergent body external diameter is 20mm, and the bore that does not have coarse rib section is 16mm, the bore that coarse rib section is arranged is 16/14mm, wherein the minimum tube internal diameter of fin point is 14mm, and rib spacing is 12mm, and pipe range is 2m, the spinning disk spacing distance is 200mm, spinning disk length is 30mm, and width is 14mm, and thickness is 1mm.After testing, this interband has improved 15% every the heat conduction reinforced multi-stress of the compound intensified heat-transfer pipe that splits spinning disk than convergent-divergent pipe.Application process is with embodiment 1.

Embodiment 3

Fig. 7 shows interband of the present invention another version every the compound intensified heat-transfer pipe that splits spinning disk.As shown in Figure 7, this interband comprises heat transfer body 2 (for the band body) every the compound intensified heat-transfer pipe that splits spinning disk, and spinning disk 1, spinning disk 1 split installation at interval in the pipe of band body 2.Shown in Fig. 1,2,3,4, spinning disk is a kind ofly to have the 45 degree anglecs of rotation and at the short twisted strip of radial direction curve form symmetry along axis direction.Band body external diameter is 20mm, the bore that does not have coarse rib section is 16mm, the bore that coarse rib section is arranged is 16/14mm, and wherein the minimum tube internal diameter of fin point is 14mm, and rib spacing is 8mm, pipe range is 2m, the spinning disk spacing distance is 400mm, and spinning disk length is 30mm, and width is 14mm, thickness is 1mm, and the method that spinning disk and inside pipe wall adopt mechanical rolling to compress is fixed.After testing, this interband has improved more than 10% than band pipe every the heat conduction reinforced multi-stress of the compound intensified heat-transfer pipe that splits spinning disk.Application process is with embodiment 1.

Claims (9)

1, interband is every the compound intensified heat-transfer pipe that splits spinning disk, comprise heat transfer body and spinning disk, it is characterized in that, spinning disk is a kind ofly to have the anglec of rotation and at the short twisted strip of radial direction curve form symmetry along axis direction, be provided with at least 2 spinning disks in the described heat transfer body, keep axial spacing between the spinning disk.

2, interband according to claim 1 is characterized in that every the compound intensified heat-transfer pipe that splits spinning disk, connects with finer wire between the described spinning disk, and steel wire one end is fixed on tube fluid inlet termination.

3, interband according to claim 1 is characterized in that every the compound intensified heat-transfer pipe that splits spinning disk, and described spinning disk is welded on the heat-transfer pipe inwall.

4, interband according to claim 1 is characterized in that every the compound intensified heat-transfer pipe that splits spinning disk, and the method that described spinning disk compresses with mechanical rolling is fixed on the heat-transfer pipe inwall.

5, interband according to claim 1 is characterized in that every the compound intensified heat-transfer pipe that splits spinning disk, and described heat transfer body is smooth body or the coarse heat transfer body that has the concavo-convex rough rib face of various periodicity.

6, interband according to claim 5 is characterized in that every the compound intensified heat-transfer pipe that splits spinning disk, and described coarse heat transfer body is helicla flute body, band tube seat body or convergent-divergent pipe body.

7, interband according to claim 1 is characterized in that every the compound intensified heat-transfer pipe that splits spinning disk, and the described spinning disk anglec of rotation is 45 degree, 90 degree, 180 degree or 270 degree.

8, interband according to claim 1 is characterized in that every the compound intensified heat-transfer pipe that splits spinning disk, and the axial spacing between the described spinning disk is 150～1500mm.

9, application rights requires 1 described interband to realize the method for augmentation of heat transfer every the compound intensified heat-transfer pipe that splits spinning disk, it is characterized in that, fluid enters from heat transfer body arrival end, in the heat transfer body during through a spinning disk, form spiral flow, afterwards, spiral flow relies on the motional inertia of fluid self to keep spin current in the spacing of two spinning disks, fluid is during through next spinning disk, form spiral flow again again, the fluid streamwise repeats the process of described spiral flow and spin current, and last, fluid flows out from the heat-transfer pipe port of export.

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