CN109029016A - A kind of fin-tube type heat exchanger with sand dune shape eddy generator - Google Patents

Abstract

The invention discloses a kind of fin-tube type heat exchangers with sand dune shape eddy generator, belong to technical field of heat exchangers, by the smooth fin of several groups and pass perpendicularly through the several groups set of heat exchange tubes of smooth fin at, cooling water is housed inside heat exchanger tube, several eddy generators are installed between heat exchanger tube, eddy generator is sand dune shape eddy generator, when air flows through the outside of heat exchanger tube, pass through heat exchanger tube, the heat transfer between air and cooling water is realized in the thermally conductive and convection current of sand dune shape eddy generator and smooth fin, sand dune shape eddy generator is made of windward side and leeward, the both ends intersection of windward side and leeward forms wing angle.Shape eddy generator in sand dune of the present invention has typical streamlined features, has lower flow resistance, enhances the heat dissipation effect of fin, can more effectively enhance incoming flow and exchange with the hot-fluid in boundary layer, promote the performance of heat exchanger.

Description

A kind of fin-tube type heat exchanger with sand dune shape eddy generator

Technical field

The present invention relates to a kind of fin-tube type heat exchangers, change more particularly to a kind of fin-tube type with sand dune shape eddy generator Hot device, belongs to technical field of heat exchangers.

Background technique

Heat exchanger as between a kind of different medium carry out heat exchange common processing equipment, be widely used in heating, power, The industries such as refrigeration, air-conditioning, petroleum or even aviation, heat exchanger are not only to guarantee that engineering equipment runs well not in above-mentioned every profession and trade The component that can or lack, and occupy important share in terms of energy source and power consumption, the research and development of energy-efficient heat and mass equipment It is always one of heat exchange industry institute key technology to be solved with application.

It is the fin-tube type heat exchanger of air and water for working media, heat exchange property depends primarily on fin surface heat transfer Coefficient and air-flow flow through consumed energy when heat exchanger, in order to improve pipe wing heat exchanger heat exchange property, are arranged in fin surface Eddy generator is a kind of effective raising heat transfer measure, and the technical characteristics of this measure are to utilize eddy generator generation Longitudinal shrinking turbulence come destroy with skiving fluid layer and thermal boundary layer, so that enhanced heat exchange is carried out in the direction for changing mainstream, and make resistance Rise the smaller synthesis heat transfer characteristic to enhanced heat exchange device, there are two types of currently used eddy generators, and one is aerofoil profile whirlpool hairs Raw device such as dalta wing, RECTANGULAR WINGS, tapered airfoil and curved wing, this eddy generator have since end can generate stronger secondary vortices Have stronger enhanced heat transfer effect, but its shape and frictional resistance are larger, another kind be column type eddy generator such as square column, cylinder and Cylindroid, this eddy generator have lower form drag, can generate stronger horseshoe vortex system, and then reinforcing and wall in root The heat convection in face, but its augmentation of heat transfer effect is relatively poor.

Seek suitable eddy generator, heat exchanger flow resistance is reduced as far as while improving heat exchange property, has There is important realistic meaning, the present invention proposes a kind of fin-tube type heat exchanger with sand dune shape eddy generator, strong taking into account heat transfer There is lower form drag while changing efficiency, for improving heat exchanger effectiveness, energy-saving and emission-reduction have important meaning.

Summary of the invention

The main object of the present invention is to provide for a kind of fin-tube type heat exchanger with sand dune shape eddy generator, for mentioning High air side heat exchange property reduces flow resistance, improves the compactedness of heat exchanger.

The purpose of the present invention can reach by using following technical solution:

A kind of fin-tube type heat exchanger with sand dune shape eddy generator by the parallel smooth fin of several groups and passes perpendicularly through The parallel set of heat exchange tubes of the several groups of the smooth fin is at equipped with cooling water, the parallel institute of several groups inside the heat exchanger tube It states and several eddy generators is installed between heat exchanger tube, the eddy generator is sand dune shape eddy generator, and sand dune shape whirlpool occurs Device is mounted on the smooth fin, when air flows through the outside of the heat exchanger tube, passes through the heat exchanger tube, the sand dune shape The heat transfer between air and cooling water is realized in the thermally conductive and convection current of eddy generator and the smooth fin；Sand dune shape whirlpool Generator is made of windward side and leeward, and the both ends intersection of the windward side and the leeward forms wing angle, the sand Mound shape eddy generator forms two bottom of slope angles to cuing open by center line, and the bottom of slope angle positioned at the windward side side is angle α windward, is located at The bottom of slope angle of the leeward side is leeward angle beta；When air flows through the windward side, air stream is in the two adjacent light An accelerated passage is formed between sliding fin and the windward side；When air flows through the leeward, air stream generation has Three-dimensionality flow field produces a pair of anticlockwise longitudinal Vortex A identical with direction of flow；When air flows through the wing angle When, another pair of anticlockwise longitudinal Vortex B is generated at the downstream at the wing angle.

Preferable scheme is that combination of the heat exchanger tube between round tube or square tube or both.

In any of the above-described scheme preferably, the material of the material of the sand dune shape eddy generator and the smooth fin Metal material with high temperature resistant and heating conduction is used using the material of same material or the sand dune shape eddy generator.

In any of the above-described scheme preferably, using weldering between the sand dune shape eddy generator and the smooth fin It connects, bond, being embedded in or the connection type of punching press connects.

In any of the above-described scheme preferably, the smooth fin is uniformly arranged in the sand dune shape eddy generator On.

In any of the above-described scheme preferably, the heat exchanger tube be evenly distributed in smooth fin described in several groups it Between.

In any of the above-described scheme preferably, the α of angle windward is 8 °~30 °, and the leeward angle beta is 25 °~50 °.

In any of the above-described scheme preferably, the sand dune shape eddy generator is crescent shape in the overlook direction of space.

In any of the above-described scheme preferably, the quantity pair of the quantity of the sand dune shape eddy generator and the heat exchanger tube It answers.

In any of the above-described scheme preferably, the spacing H between the two adjacent smooth fins is less than described in 3 times The height h1 of sand dune shape eddy generator.

Advantageous effects of the invention: the fin-tube type heat exchanger according to the invention with sand dune shape eddy generator, this The fin-tube type heat exchanger with sand dune shape eddy generator provided is invented, sand dune shape eddy generator has typical streamlined spy Sign has lower flow resistance under the conditions of reaching equalization thermal effect；Air can be in upper underwing when flowing through sand dune windward side An accelerated passage is formed between piece and windward side, enhances the heat dissipation effect of fin, and the reinforcing of previous eddy generator Heat-transfer effect is only embodied in the underwing on piece of eddy generator installation；When air flows through raw whirlpool device leeward and wing angle downstream, Two pairs of longitudinal vortex structures rotated counterclockwise can be generated, can more effectively enhance incoming flow and be exchanged with the hot-fluid in boundary layer, Promote the performance of heat exchanger.

Detailed description of the invention

Fig. 1 is the solid of a preferred embodiment of the fin-tube type heat exchanger according to the invention with sand dune shape eddy generator Figure；

Fig. 2 is the side view of a preferred embodiment of the fin-tube type heat exchanger according to the invention with sand dune shape eddy generator Figure, the embodiment can be embodiment identical with Fig. 1, be also possible to the embodiment different from Fig. 1；

Fig. 3 is the vertical view of a preferred embodiment of the fin-tube type heat exchanger according to the invention with sand dune shape eddy generator Figure, the embodiment can be embodiment identical with Fig. 1 or Fig. 2, be also possible to the embodiment different from Fig. 1 or Fig. 2；

Fig. 4 is facing for a preferred embodiment of the fin-tube type heat exchanger according to the invention with sand dune shape eddy generator Figure, the embodiment can be embodiment identical with Fig. 1 or Fig. 2 or Fig. 3, be also possible to the reality different from Fig. 1 or Fig. 2 or Fig. 3 Apply example；

Fig. 5 is the sand dune of a preferred embodiment of the fin-tube type heat exchanger according to the invention with sand dune shape eddy generator Shape gives birth to whirlpool device structural schematic diagram, which can be embodiment identical with Fig. 1 or Fig. 2 or Fig. 3 or Fig. 4, be also possible to Fig. 1 or Fig. 2 or Fig. 3 or Fig. 4 different embodiments；

Fig. 6 is the sand dune of a preferred embodiment of the fin-tube type heat exchanger according to the invention with sand dune shape eddy generator Shape gives birth to whirlpool device side view, which can be embodiment identical with Fig. 1 or Fig. 2 or Fig. 3 or Fig. 4 or Fig. 5, be also possible to Fig. 1 or Fig. 2 or Fig. 3 or Fig. 4 or Fig. 5 different embodiments；

Fig. 7 is the sand dune of a preferred embodiment of the fin-tube type heat exchanger according to the invention with sand dune shape eddy generator The raw whirlpool device of shape is flowing to the velocity contour on direction, which can be and Fig. 1 or Fig. 2 or Fig. 3 or Fig. 4 or Fig. 5 or Fig. 6 Identical embodiment is also possible to the embodiment different from Fig. 1 or Fig. 2 or Fig. 3 or Fig. 4 or Fig. 5 or Fig. 6；

Fig. 8 is the sand dune of a preferred embodiment of the fin-tube type heat exchanger according to the invention with sand dune shape eddy generator Motion pattern of the shape eddy generator on longitudinal cross-section, the embodiment can be with Fig. 1 or Fig. 2 or Fig. 3 or Fig. 4 or Fig. 5 or Fig. 6 or The identical embodiment of Fig. 7, is also possible to the embodiment different from Fig. 1 or Fig. 2 or Fig. 3 or Fig. 4 or Fig. 5 or Fig. 6 or Fig. 7.

In figure: 1- heat exchanger tube, 2- eddy generator, the smooth fin of 3-, the windward side 11-, 12- leeward, 13- wing angle, 21- are vertical To whirlpool A, 22- longitudinal Vortex B.

Specific embodiment

To make the more clear and clear technical solution of the present invention of those skilled in the art, below with reference to examples and drawings The present invention is described in further detail, and embodiments of the present invention are not limited thereto.

As shown in Figure 1, Figure 2, provided in this embodiment a kind of with sand dune shape whirlpool shown in Fig. 3, Fig. 4, Fig. 5, Fig. 6, Fig. 7 and Fig. 8 The fin-tube type heat exchanger of generator is put down by the parallel smooth fin 3 of several groups and the several groups for passing perpendicularly through the smooth fin 3 Capable heat exchanger tube 1 forms, and cooling water is housed inside the heat exchanger tube 1, if being equipped between the heat exchanger tube 1 of several groups in parallel Dry eddy generator 2, the eddy generator 2 are sand dune shape eddy generator, and the sand dune shape eddy generator is mounted on the smooth wing On piece 3, when air flows through the outside of the heat exchanger tube 1, pass through the heat exchanger tube 1, the sand dune shape eddy generator and described The heat transfer between air and cooling water is realized in the thermally conductive and convection current of smooth fin 3；The sand dune shape eddy generator is by windward Face 11 and leeward 12 form, and the both ends intersection of the windward side 11 and the leeward 12 forms wing angle 13, the sand dune Shape eddy generator forms two bottom of slope angles to cuing open by center line, and the bottom of slope angle positioned at 11 side of windward side is angle α windward, is located at The bottom of slope angle of 12 side of leeward is leeward angle beta；When air flows through the windward side 11, air stream is in two adjacent institutes State one accelerated passage of formation between smooth fin 3 and the windward side 11；When air flows through the leeward 12, air stream Generating has three-dimensionality flow field, produces a pair of anticlockwise longitudinal Vortex A21 identical with direction of flow；Work as air stream When through the wing angle 13, another pair of anticlockwise longitudinal Vortex B22 is generated at the downstream at the wing angle 13.

Further, in the present embodiment, heat exchanger tube 1 is not limited in round tube, is also possible to square tube either other shapes The material of radiator itself can be used in the material of the heat exchange pipeline of shape, sand dune shape eddy generator, other can also be used and is easy to cut The metal material for cutting and installing, the resistance to mild heating conduction of material should meet the requirement of radiator operating condition.

Further, in the present embodiment, as shown in Figure 1, Figure 2, Figure 3 and Figure 4, the heat exchanger tube 1 is round tube or square tube Or both between combination, the material of the material of the sand dune shape eddy generator and the smooth fin 3 uses same material, Or the material of the sand dune shape eddy generator uses the metal material with high temperature resistant and heating conduction.

Further, in the present embodiment, as shown in Figure 1, Figure 2, Figure 3 and Figure 4, the sand dune shape eddy generator with it is described Using the connection type connection of welding, bonding, insertion or punching press between smooth fin 3, the sand dune shape eddy generator is uniform Setting on the smooth fin 3, the heat exchanger tube 1 is evenly distributed between smooth fin 3 described in several groups.

Further, in the present embodiment, as shown in figure 5, the α of angle windward is 8 °~30 °, the leeward angle beta is 25 ° ~50 °.

Further, in the present embodiment, shown in as shown in Figure 1, Figure 2, Fig. 3, Fig. 4 and Fig. 5, the sand dune shape eddy generator exists It is crescent shape in the overlook direction of space, the quantity of the sand dune shape eddy generator is corresponding with the quantity of the heat exchanger tube 1.

Further, in the present embodiment, as shown in Figure 2 and Figure 6, in order to guarantee the sand dune shape eddy generator to incoming flow Acceleration effect, the height of the sand dune shape eddy generator of the spacing H less than 3 times between the two adjacent smooth fins 3 The quantity of h1, the smooth fin 3 can be one or more, and only when fin number is more than or equal to two, eddy generator is Have the effect of to upper fin enhanced heat exchange.

Further, in the present embodiment, as shown in fig. 7, the VELOCITY DISTRIBUTION data are obtained by PIV experiment, from figure It can be seen that incoming flow starts to accelerate at generator highest point, maximum speed can reach 2.5 times of mainstream speed, and mainstream speed is 0.1, the disturbance using this acceleration effect to upper fin fluid boundary layer enhances the blending of incoming flow and boundary layer fluid, by force The heat transfer effect of fin in change.

Further, in the present embodiment, as shown in figure 8, the VELOCITY DISTRIBUTION data are obtained by PIV experiment, from figure It can be seen that there are the longitudinal Vortex A21 that these two pair rotates counterclockwise in eddy generator flow field in longitudinal section, wherein longitudinal Pressure difference before and after when whirlpool A21 flows through eddy generator by fluid is found out, and this spiral structure has biggish scale, can be destroyed and be filled Distribute the boundary layer of exhibition, the confusion degree of enhancing fluid flowing can greatly improve the coefficient of heat transfer；In addition, in eddy generator one To under the interaction at wing angle and incoming flow, a pair of of direction of rotation opposing longitudinal whirlpool B22 is also created, mainstream and underwing are enhanced Interaction between piece, further improves heat exchanger performance.

The present embodiment with by the parallel smooth fin of several groups and pass perpendicularly through the set of heat exchange tubes of fin at fin-tube type change For hot device, the eddy generator with sand dune shape is installed between heat exchanger tube, which is in the overlook direction of space Reveal half moon-shaped shape, from the point of view of space topological form, which includes windward side and leeward, wherein α size in angle is about between 8 °~30 ° windward, and leeward angle beta size is about at 25 °~50 ° or so, while the adjoint appearance at leeward Two wing angles stretched along downstream.Air can form one when flowing through eddy generator windward side between upper and lower fin and windward side Accelerated passage, the air stream after accelerating can generate impact to upper fin surface, be thinned the fluid boundary layer of fin, increase The strong blending of incoming flow and boundary layer fluid, enhances the heat transfer effect of fin, when air flows through leeward, can generate tool There is very strong three-dimensionality flow field, in front and back under the action of pressure difference, produces a pair of counter clockwise direction rotation identical with direction of flow Vortex structure, this spiral structure can destroy fully developed boundary layer, and the confusion degree of enhancing fluid flowing can be mentioned substantially The high coefficient of heat transfer also can produce another pair of counterclockwise when air flows through the wing angle in leeward downstream at the downstream at wing angle Longitudinal vortex structure in direction further enhances the interaction between mainstream and lower fin, enhances heat exchange property.

In conclusion in the present embodiment, according to the fin-tube type heat exchanger with sand dune shape eddy generator of the present embodiment, Fin-tube type heat exchanger provided in this embodiment with sand dune shape eddy generator, sand dune shape eddy generator have typical streamlined Feature has lower flow resistance under the conditions of reaching equalization thermal effect；Air can be upper and lower when flowing through sand dune windward side An accelerated passage is formed between fin and windward side, enhances the heat dissipation effect of fin, and previous eddy generator is strong Change the underwing on piece that heat-transfer effect is only embodied in eddy generator installation；Air flows through raw whirlpool device leeward and wing angle downstream When, two pairs of longitudinal vortex structures rotated counterclockwise can be generated, the hot-fluid that can more effectively enhance incoming flow and boundary layer is handed over It changes, promotes the performance of heat exchanger.

The above, further embodiment only of the present invention, but scope of protection of the present invention is not limited thereto, and it is any Within the scope of the present disclosure, according to the technique and scheme of the present invention and its design adds those familiar with the art With equivalent substitution or change, protection scope of the present invention is belonged to.

Claims (10)

1. A tube-fin heat exchanger with a dune-shaped vortex generator, characterized in that: by several groups of parallel smooth fins (3) and several groups of parallel smooth fins (3) that pass vertically through the smooth fins (3) Composed of heat exchange tubes (1), the heat exchange tubes (1) are equipped with cooling water inside, and several vortex generators (2) are installed between several groups of parallel heat exchange tubes (1), and the vortex generators The device (2) is a dune-shaped vortex generator, and the dune-shaped vortex generator is installed on the smooth fin (3). When the air flows through the outside of the heat exchange tube (1), it passes through the The heat conduction and convection of the heat pipe (1), the dune-shaped vortex generator and the smooth fins (3) realize the heat transfer between the air and the cooling water; the dune-shaped vortex generator consists of a windward surface (11) Composed of the windward side (11) and the leeward side (12), the two ends of the windward side (11) and the leeward side (12) meet to form a wing angle (13), and the dune-shaped vortex generator is divided into two slopes by the center line The bottom angle, the slope bottom angle positioned on the windward side (11) side is the windward angle α, and the slope bottom angle positioned on the leeward side (12) side is the leeward angle β; when the air flows through the windward side ( 11), the air flow forms an acceleration channel between two adjacent smooth fins (3) and the windward surface (11); when the air flows through the leeward surface (12), the air flow produces A three-dimensional flow field produces a pair of longitudinal vortices A (21) in the same counterclockwise direction as the incoming flow; when air flows through the wing angle (13), the Another pair of counterclockwise longitudinal vortices B (22) are generated downstream. 2. A tube-fin heat exchanger with a dune-shaped vortex generator according to claim 1, characterized in that: the heat exchange tube (1) is a round tube or a square tube or a combination of the two . 3. A tube-fin heat exchanger with a dune-shaped vortex generator according to claim 1, characterized in that: the material of the dune-shaped vortex generator and the material of the smooth fin (3) adopt The same material, or the material of the dune-shaped vortex generator adopts a metal material with high temperature resistance and thermal conductivity. 4. A tube-fin heat exchanger with a dune-shaped vortex generator according to claim 1, characterized in that: welding, Bonding, embedding or punching connections. 5. A tube-fin heat exchanger with a dune-shaped vortex generator according to claim 1, characterized in that: the dune-shaped vortex generators are evenly arranged on the smooth fins (3) . 6. A tube-fin heat exchanger with a dune-shaped vortex generator according to claim 1, characterized in that: said heat exchange tubes (1) are evenly distributed in several groups of said smooth fins (3 )between. 7. A tube-fin heat exchanger with a dune-shaped vortex generator according to claim 1, characterized in that: the windward angle α is 8°-30°, and the leeward angle β is 25°- 50°. 8 . The tube-fin heat exchanger with a dune-shaped vortex generator according to claim 1 , characterized in that: the dune-shaped vortex generator is crescent-shaped in a spatial plan view direction. 9. A tube-fin heat exchanger with dune-shaped vortex generators according to claim 1, characterized in that: the number of said dune-shaped vortex generators corresponds to the number of said heat exchange tubes (1) . 10. A tube-fin heat exchanger with a dune-shaped vortex generator according to claim 1, characterized in that: the distance H between two adjacent smooth fins (3) is less than 3 times The height h1 of the dune-shaped vortex generator.