CN204064067U - Two-layer columnar heat transfer unit (HTU) and the pipeline for flowing material heat transfer - Google Patents
Two-layer columnar heat transfer unit (HTU) and the pipeline for flowing material heat transfer Download PDFInfo
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- CN204064067U CN204064067U CN201420421035.8U CN201420421035U CN204064067U CN 204064067 U CN204064067 U CN 204064067U CN 201420421035 U CN201420421035 U CN 201420421035U CN 204064067 U CN204064067 U CN 204064067U
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Abstract
The utility model " two-layer columnar heat transfer unit (HTU) and the pipeline for flowing material heat transfer ", belongs to pipeline heating technology.A kind of two-layer columnar heat transfer unit (HTU), comprising can heat conduction cylindrical shell 1 and demarcation strip 2; Described can the inner chamber of heat conduction cylindrical shell 1 be confined space; Described demarcation strip 2 by described can the inner chamber of heat conduction cylindrical shell 1 be divided into described can multiple chambers 4 of paralleling of the axis of heat conduction cylindrical shell; Working medium is filled with in described chamber 4; The inwall of described chamber 4 is disposed with some micro-fins 3 be made up of Heat Conduction Material, form the capillary slot 9 of array between adjacent described micro-fin 3, described capillary slot be conducive to reducing described working medium flow in described chamber 4 suffered by the mode of resistance arrange; Also be fitted with tubular heat tube in described chamber, affiliated tubular heat tube inwall be provided with micro-fin of arrayed.The utility model additionally provides the pipeline based on above-mentioned column heat transfer unit (HTU).
Description
Technical field
The utility model relates to pipeline heating technology, particularly a kind of two-layer columnar heat transfer unit (HTU) and for flowing material heat transfer pipeline and method.
Background technology
In a lot of industrial circle, there is heating or the heat exchange demand of substance such as oil, water, gas on the one hand.On the other hand, can produce a lot of industrial exhaust heat again, these waste heats can be recycled, with economize energy.For the heat-transfer equipment of the demand of these two aspects, generally all need than relatively large, can conduct heat glibly and carry flowing material, in diabatic process, temperature be stable to ensure safety in certain limit.
Such as, the thickness oil of exploitation is transported to surface process from underground, because oil under surface temperature can become very dense thick and be difficult to effective conveying, therefore needs to carry out heating to the conveyance conduit of exploitation well head and makes Oil-temperature control at 80 DEG C ~ 120 DEG C.Control technology and the device of the oil temperature in course of conveying, improving always, water batch heater is with its reliable security performance in recent years, is used widely in oilfield surface engineering, particularly in oil field shaft mouth, terminal, multi-purpose station, substitutes direct fire barrel heating furnace and tubular heater gradually.The operation principle of water batch heater is: the high-temperature flue gas that fuel (being generally natural gas at present) produces is by the intermediate medium water heat exchange in smoke pipe and housing, intermediate medium water produces saturated vapor after absorbing heat, steam rises to heat(ing) coil place by carrying out the medium in phase-change heat-exchange heat(ing) coil with the crude oil in coil pipe, condensed water after steam phase transforming returns in water-bath, continue heating evaporation, so move in circles, formative dynamics balance in the housing of heating furnace.There are two crucial heat transfer process: flue gas and water heat exchange produce steam, water vapour is risen to heat(ing) coil place and conducted heat to crude oil in pipe by heat(ing) coil when heating with water jacket furnace.Therefore, the heat transfer of fire-cylinder fire tube and heat(ing) coil is the principal element affecting water jacket furnace heat transfer.Heat(ing) coil is mainly immersed in stove in steam, and steam heat passes to the process of crude oil in coil pipe and comprises: steam to the exothermic process of coil pipe outer surface, the conduction process of coil pipe wall and coil pipe inwall to the exothermic process of crude oil.Although the crude oil of conveying is forced flow state in pipe, but due to the restriction by oil property, particularly viscous crude, the exothermic coefficient of coil pipe inwall is not high, the heat exchange of inside pipe wall and crude oil, become restriction coil heat exchange performance important bottleneck (with reference to Li Qingfang, three application of internally finned tube on water jacket furnace. oil planning and designing, 2004; 15, (6): (38-40)).
Except its heat exchange property difference above-mentioned, based on the operation principle of water jacket furnace itself, the problem .1. that also there are other several respects due to heat be transmit outside to inside from petroleum pipeline, cause the crude oil of tube wall part to be heated better and the crude oil of tubular axis heart part is heated poor, in pipe, crude oil temperature is uneven, affects transporting velocity.More seriously, even if the crude oil temperature pressing close to tube wall part reaches 120 DEG C, the temperature of tube hub crude oil may also not reach 80 DEG C thus in be formed centrally wax and result in blockage.2. the fuel of water jacket furnace employing, is commonly natural gas at present.Natural gas reserves are limited, in recover petroleum process, consume natural gas, both uneconomical in the people in state, neither long-term plan, are unfavorable for energy-saving and emission-reduction.3., due to the ground surface works point that the place of water jacket furnace heat oil pipeline is in oil exploitation, at oil exploitation ground surface works point, adopt natural gas to be the fuel of water jacket furnace, very strict safety management mode must be taked.No matter how strict management cost is high, and management, still there is very large potential safety hazard.
The above-mentioned defect of the water jacket furnace mode of heating that current petroleum pipeline adopts there is not yet really effective and feasible solution.
Heat pipe heat exchanging technology, because the mode heat transfer efficiency of phase-change heat-exchange is high, is widely used in the industry, and the main heat transfer mode of heat pipe is evaporation and condensation, has the advantages that heat-transfer capability is large, temperature control capability is strong, heat transfer efficiency is high.About the application of heat pipe in petroleum transportation pipeline heating, before above-mentioned patent disclosure, propose with regard to there being people in water heater, adopt hot pipe technique augmentation of heat transfer to solve problem (Yin Yusheng, the application of insert augmentation of heat transfer in water heater of heat exchange property difference, Industrial Boiler, 1998; 1 (58): 21-23).But in water heater, insert heat pipe, crude oil in petroleum pipeline can not be solved and to be heated inequality, the problems such as the safety management of furnace fuel and shortage.
To sum up, there is above-mentioned defect in current petroleum delivery pipeline heating technique, there is not yet effective solution and advise or scheme.
Utility model content
The utility model according to the demand in above-mentioned field, provide a kind of two-layer columnar heat transfer unit (HTU) and for flowing material heat transfer pipeline and method, have to periphery uniformly transfer heat, the advantage that efficiency is high, concrete scheme is as follows:
A kind of two-layer columnar heat transfer unit (HTU), is characterized in that: comprising can heat conduction cylindrical shell and demarcation strip;
Described can the inner chamber of heat conduction cylindrical shell 1 be confined space;
Described demarcation strip by described can the inner chamber of heat conduction cylindrical shell be divided into described can multiple chambers of paralleling of the axis of heat conduction cylindrical shell;
Working medium is filled with in described chamber;
The inwall of described chamber is disposed with some micro-fins be made up of Heat Conduction Material, forms the capillary slot of array between adjacent described micro-fin, described capillary slot is arranged in the mode being conducive to reducing the resistance of described working medium suffered by the indoor moveable of described chamber,
Also Column shaped heat pipe is fitted with in described chamber, the inwall of described Column shaped heat pipe is disposed with some micro-fins be made up of Heat Conduction Material, form the capillary slot of array between adjacent described micro-fin, described capillary slot is arranged to be conducive to reducing flow in the described Column shaped heat pipe mode of suffered resistance of described working medium.
The column heat transfer unit (HTU) that the utility model provides, generally, profile is column, is conducive to being arranged in fluid line conventional at present, and working medium wherein, from can heat absorption or to fluid heat release the fluid that flows through of heat conduction column housing exterior walls, occurs because of phase transformation.The working medium of the flowing material flowed through conversely speaking, and continuous phase transformation constantly dynamic heat exchange thus realize conducting heat-heating the flowing material flowed through or condensation.The setting of multiple chamber and micro-fin, is conducive to the quick flowing of working medium in phase transition process.The setting of Column shaped heat pipe, object is to increase the quantity of the capillary slot being conducive to Working fluid phase changing flowing, improves the heat exchange efficiency of column heat transfer unit (HTU).
In embodiments more of the present utility model, preferred described chamber can the axle of heat conduction cylindrical shell distribute for axle center symmetrically and evenly with described.
In embodiments more of the present utility model, preferably described can heat conduction cylindrical shell be regular cylinder.
In embodiments more of the present utility model, preferably chamber described in each is independent closed space.
In embodiments more of the present utility model, preferably have at least one end of two described chambers to be open, working medium filling in described chamber can circulate between different chamber.
In embodiments more of the present utility model, preferably describedly can be provided with the axial syndeton of housing in heat conduction cylindrical shell two ends, for connecting an other column heat transfer unit (HTU) and mutually conducting heat between the column heat transfer unit (HTU) being conducive to adjacent connection.
In embodiments more of the present utility model, preferably describedly at least can be provided with housing thermal source attaching parts in one end by heat conduction cylindrical shell, can to can the heat source accommodation device of heat conduction cylindrical shell transmission heat for connecting.
In embodiments more of the present utility model, can the material of heat conduction cylindrical shell be preferably metal heat-conducting material.
In embodiments more of the present utility model, the tube wall of at least one end of preferred described Column shaped heat pipe is provided with some apertures, so that the working medium in described Column shaped heat pipe flows inside and outside tube wall.
In embodiments more of the present utility model, the outer wall of preferred described Column shaped heat pipe is disposed with some micro-fins be made up of Heat Conduction Material, form the capillary slot of array between adjacent described micro-fin, described capillary slot is arranged along the mode of the resistance suffered by described Column shaped heat pipe axial flow to be conducive to reducing described working medium.
For a pipeline for flowing material heat transfer, it is characterized in that, comprise pipeline and above-mentioned arbitrary two-layer columnar heat transfer unit (HTU),
Described column heat transfer unit (HTU) comprises can heat conduction cylindrical shell and demarcation strip;
Described can heat conduction cylindrical shell two ends airtight;
Described demarcation strip by described can the inner chamber of heat conduction cylindrical shell be divided into described can multiple chambers of paralleling of the axis of heat conduction cylindrical shell;
Working medium is filled with in described chamber;
The inwall of described chamber is disposed with some micro-fins be made up of Heat Conduction Material, form the capillary slot of array between adjacent described micro-fin, the axis of described capillary slot with described can the axis of heat conduction cylindrical shell parallel to reduce the resistance of working medium at described chamber indoor moveable;
Also Column shaped heat pipe is fitted with in described chamber, the inwall of described Column shaped heat pipe is disposed with some micro-fins be made up of Heat Conduction Material, form the capillary slot of array between adjacent described micro-fin, described capillary slot is arranged to be conducive to reducing flow in the described Column shaped heat pipe mode of suffered resistance of described working medium;
The described through hole flowed for flowing material that can leave between heat conduction cylindrical shell and described pipeline along described pipeline axial.
In pipeline embodiment of the present utility model, as shown in Figure 2, the preferred described column heat transfer unit (HTU) of some of them is multiple, spaced and be arranged in described pipeline abreast, the pipeline internal fixtion parts for supporting and install described column heat transfer unit (HTU) that described inner-walls of duct establishes oriented pipeline axle center to extend.Those skilled in the art can according to can according to the size of pipeline, the weight of column heat transfer unit (HTU), pipeline internal fixtion parts are arranged different structures, and be such as welded with the collar shape structure corresponding with column heat transfer unit (HTU) quantity at inner-walls of duct, column heat transfer unit (HTU) is inserted in the collar.
In pipeline embodiments more of the present utility model, preferred described column heat transfer unit (HTU) is multiple, spaced and be arranged in described pipeline abreast, the pipeline internal fixtion parts for supporting and install described column heat transfer unit (HTU) that described inner-walls of duct establishes oriented pipeline axle center to extend.
In pipeline embodiments more of the present utility model, preferred described column heat transfer unit (HTU) can heat conduction column housing exterior walls be provided with column heat transfer unit (HTU) described in another can the heat transfer housing lateral connection parts that are interconnected and fixed of heat conduction cylindrical shell.
In pipeline embodiments more of the present utility model, preferred described column heat transfer unit (HTU) is arranged on described pipeline axle center, the fixed part for installing described column heat transfer unit (HTU) that described inner-walls of duct establishes oriented pipeline axle center to extend.
In pipeline embodiments more of the present utility model, preferred described column heat transfer unit (HTU) is arranged on described pipeline axle center, described pipeline and describedly can be formed in one by heat conduction cylindrical shell, and described through hole is along being uniformly distributed by heat conduction column casing peripheral.
In pipeline embodiments more of the present utility model, be preferred for described pipeline and described can the integrated material of heat conduction cylindrical shell be Heat Conduction Material.
In pipeline embodiments more of the present utility model, preferred described pipe ends is provided with pipeline longitudinal connection structure, for connecting an other described pipeline; When length and the described duct length of described column heat transfer unit (HTU) adapt two described pipelines are connected, between the column heat transfer unit (HTU) in two described pipelines, heat trnasfer heat transfer can be carried out.
The utility model is also based on above-mentioned two-layer columnar heat transfer unit (HTU), a kind of method to the heat transfer of fluids within pipes material is provided, it is characterized in that: in the pipeline of flowing material flowing, its axial direction is provided with one or more above-mentioned arbitrary two-layer columnar heat transfer unit (HTU); The heat exchange between fluids within pipes material is realized by the phase transformation of the working medium in two-layer columnar heat transfer unit (HTU).
Accompanying drawing explanation
Fig. 1 the utility model two-layer columnar heat transfer unit (HTU) structural representation,
The pipeline configuration schematic diagram of Fig. 2 the utility model heating flowing material
The another kind of structural representation of the pipeline of Fig. 3 the utility model heating flowing material,
Wherein 1-can heat conduction cylindrical shell, 2-demarcation strip, the micro-fin of 3-, 4-chamber, 5-pipeline, 6-pipeline internal fixtion parts, 7-through hole, 8-Column shaped heat pipe, 9-capillary slot.
Detailed description of the invention
Below by way of the drawings and specific embodiments, the technical solution of the utility model is described.
As shown in Figure 1, the most important aspect of the utility model, is to provide a kind of two-layer columnar heat transfer unit (HTU), it is characterized in that: comprising can heat conduction cylindrical shell 1 and demarcation strip 2; Described can the inner chamber of heat conduction cylindrical shell 1 be confined space; Described demarcation strip 2 by described can the inner chamber of heat conduction cylindrical shell 1 be divided into described can multiple chambers 4 of paralleling of the axis of heat conduction cylindrical shell; Working medium is filled with in described chamber 4; The inwall of described chamber 4 is disposed with some micro-fins 3 be made up of Heat Conduction Material, form the capillary slot 9 of array between adjacent described micro-fin 3, described capillary slot 9 be conducive to reducing described working medium flow in described chamber 4 suffered by the mode of resistance arrange; Column shaped heat pipe 8 is also fitted with in described chamber 4, the inwall of described Column shaped heat pipe 8 is disposed with some micro-fins 3 be made up of Heat Conduction Material, form the capillary slot 9 of array between adjacent described micro-fin 3, described capillary slot 9 be conducive to reducing described working medium flow in described Column shaped heat pipe 8 suffered by the mode of resistance arrange.The column heat transfer unit (HTU) that the utility model provides, generally, profile is column, is conducive to being arranged in fluid line conventional at present, and working medium wherein, from can heat absorption or to fluid heat release the fluid that flows through of heat conduction column housing exterior walls, occurs because of phase transformation.The working medium of the flowing material flowed through conversely speaking, and continuous phase transformation constantly dynamic heat exchange thus realize conducting heat-heating the flowing material flowed through or condensation.The setting of multiple chamber and micro-fin, is conducive to the quick flowing of working medium in phase transition process.The setting of Column shaped heat pipe, object is to increase the quantity of the capillary slot 9 being conducive to Working fluid phase changing flowing, improves the heat exchange efficiency of column heat transfer unit (HTU).
In embodiments more of the present utility model, preferred described chamber 4 can the axle of heat conduction cylindrical shell 1 distribute for axle center symmetrically and evenly with described.Be conducive to the flowing of working medium, towards periphery uniformly transfer heat.
In embodiments more of the present utility model, preferably described can heat conduction cylindrical shell 1 be regular cylinder.Be conducive to uniformly transfer heat and making towards periphery.
In embodiments more of the present utility model, preferably described in each, chamber 4 is independent closed space.This is designed with to be beneficial to and increases the service life, and is independent of each other mutually between each chamber.
In other embodiment of the present utility model, the one end preferably having two described chambers 4 at least is open, and working medium filling in described chamber can circulate between different chamber.Be conducive to the smooth outflow in Working fluid phase changing process.Although it is noted that two or more chamber two ends can be made connection, the inner chamber of heat conduction cylindrical shell can remain closed, by demarcation strip, each cavity seal wherein.
In embodiments more of the present utility model, preferably describedly can be provided with the axial syndeton of housing in heat conduction cylindrical shell two ends, for connecting an other two-layer columnar heat transfer unit (HTU) and mutually conducting heat between the two-layer columnar heat transfer unit (HTU) being conducive to adjacent connection.The object arranging the axial syndeton of housing is column heat transfer unit (HTU) of the present utility model can be extended according to actual needs.
In embodiments more of the present utility model, preferably describedly at least can be provided with housing thermal source attaching parts in one end by heat conduction cylindrical shell 1, can to can the heat source accommodation device of heat conduction cylindrical shell transmission heat for connecting.Such as electrical heating interface.
In embodiments more of the present utility model, can the material of heat conduction cylindrical shell 1 be preferably metal heat-conducting material.
In embodiments more of the present utility model, the tube wall of at least one end of preferred described Column shaped heat pipe is provided with some apertures, so that the working medium in described Column shaped heat pipe flows inside and outside tube wall.
In embodiments more of the present utility model, the outer wall of preferred described Column shaped heat pipe is disposed with some micro-fins be made up of Heat Conduction Material, form the capillary slot of array between adjacent described micro-fin, described capillary slot is arranged along the mode of the resistance suffered by described Column shaped heat pipe axial flow to be conducive to reducing described working medium.
The two-layer columnar heat transfer unit (HTU) that the utility model provides, can directly apply to be installed on needs to carry out in the pipeline of heat exchange fluid in pipeline.Be applicable in large scale industry, such as, to the waste heat recovery of industrial water drainage, exhaust, to the heating etc. of the oil in Cemented filling, existing pipeline need not be transformed; Himself size can according to the needs of field of employment, make large-scale or hypomegetic; There is the advantage that heat transfer evenly, does not affect the fluid flow of fluids within pipes material.
Another important aspect of the utility model, as Fig. 2, shown in 3, a kind of pipeline for flowing material heat transfer is additionally provided based on above-mentioned two-layer columnar heat transfer unit (HTU), it is characterized in that, comprise pipeline 5 and above-mentioned arbitrary two-layer columnar heat transfer unit (HTU), the described through hole 7 flowed for flowing material that can leave between heat conduction cylindrical shell 1 and described pipeline 5 along described pipeline axial.
In pipeline embodiments more of the present utility model, as shown in Figure 2, preferred described two-layer columnar heat transfer unit (HTU) is multiple, spaced and be arranged in described pipeline 5 abreast, the pipeline internal fixtion parts 6 for supporting and install described column heat transfer unit (HTU) that the inwall of described pipeline 5 establishes oriented pipeline axle center to extend.Those skilled in the art can according to can according to the size of pipeline, the weight of column heat transfer unit (HTU), pipeline internal fixtion parts are arranged different structures, and be such as welded with the collar shape structure corresponding with column heat transfer unit (HTU) quantity at inner-walls of duct, column heat transfer unit (HTU) is inserted in the collar.
In pipeline embodiments more of the present utility model, preferred described two-layer columnar heat transfer unit (HTU) can the outer wall of heat conduction cylindrical shell 1 be provided with column heat transfer unit (HTU) described in another can the heat transfer housing lateral connection parts that are interconnected and fixed of heat conduction cylindrical shell 1.
As shown in Figure 3, in other embodiment of the present utility model, preferred described two-layer columnar heat transfer unit (HTU) is arranged on the axle center of described pipeline 5, described pipeline 5 and describedly can be formed in one by heat conduction cylindrical shell 1, and described through hole 7 is along being uniformly distributed by heat conduction cylindrical shell 1 periphery.
In embodiments more of the present utility model, be preferred for described pipeline 5 and described can the integrated material of heat conduction cylindrical shell 1 be Heat Conduction Material.
In embodiments more of the present utility model, preferred described pipe ends is provided with pipeline longitudinal connection structure, for connecting an other described pipeline; When length and the described duct length of described two-layer columnar heat transfer unit (HTU) adapt two described pipelines are connected, between the two-layer columnar heat transfer unit (HTU) in two described pipelines, heat trnasfer heat transfer can be carried out.
According to above-mentioned two aspects of the utility model core concept, the utility model additionally provides a kind of method to the heat transfer of fluids within pipes material, it is characterized in that: in the pipeline of flowing material flowing, its axial direction is provided with one or more above-mentioned two-layer columnar heat transfer unit (HTU); The heat exchange between fluids within pipes material is realized by the phase transformation of the working medium in column heat transfer unit (HTU).
Claims (17)
1. a two-layer columnar heat transfer unit (HTU), is characterized in that: comprising can heat conduction cylindrical shell and demarcation strip;
Described can the inner chamber of heat conduction cylindrical shell 1 be confined space;
Described demarcation strip by described can the inner chamber of heat conduction cylindrical shell be divided into described can multiple chambers of paralleling of the axis of heat conduction cylindrical shell;
Working medium is filled with in described chamber;
The inwall of described chamber is disposed with some micro-fins be made up of Heat Conduction Material, forms the capillary slot of array between adjacent described micro-fin, described capillary slot is arranged in the mode being conducive to reducing the resistance of described working medium suffered by the indoor moveable of described chamber,
Also Column shaped heat pipe is fitted with in described chamber, the inwall of described Column shaped heat pipe is disposed with some micro-fins be made up of Heat Conduction Material, form the capillary slot of array between adjacent described micro-fin, described capillary slot is arranged to be conducive to reducing flow in the described Column shaped heat pipe mode of suffered resistance of described working medium.
2. two-layer columnar heat transfer unit (HTU) according to claim 1, is characterized in that, described chamber can the axle of heat conduction cylindrical shell distribute for axle center symmetrically and evenly with described.
3. two-layer columnar heat transfer unit (HTU) according to claim 1, is characterized in that, described can heat conduction cylindrical shell be regular cylinder.
4. two-layer columnar heat transfer unit (HTU) according to claim 1, is characterized in that, chamber described in each is independent closed space.
5. two-layer columnar heat transfer unit (HTU) according to claim 4, is characterized in that, have at least one end of two described chambers to be open, working medium filling in described chamber can circulate between different chamber.
6. two-layer columnar heat transfer unit (HTU) according to claim 1, it is characterized in that, describedly can be provided with the axial syndeton of housing in heat conduction cylindrical shell two ends, for connecting an other column heat transfer unit (HTU) and mutually conducting heat between the column heat transfer unit (HTU) being conducive to adjacent connection.
7. two-layer columnar heat transfer unit (HTU) according to claim 1, is characterized in that, describedly at least can be provided with housing thermal source attaching parts in one end by heat conduction cylindrical shell, can to can the heat source accommodation device of heat conduction cylindrical shell transmission heat for connecting.
8. two-layer columnar heat transfer unit (HTU) according to claim 1, is characterized in that, can the material of heat conduction cylindrical shell be metal heat-conducting material.
9. two-layer columnar heat transfer unit (HTU) according to claim 1, is characterized in that: the tube wall of at least one end of described Column shaped heat pipe is provided with some apertures, so that the working medium in described Column shaped heat pipe flows inside and outside tube wall.
10. according to the arbitrary described two-layer columnar heat transfer unit (HTU) of claim 1 ~ 9, it is characterized in that: the outer wall of described Column shaped heat pipe is disposed with some micro-fins be made up of Heat Conduction Material, form the capillary slot of array between adjacent described micro-fin, described capillary slot is arranged along the mode of the resistance suffered by described Column shaped heat pipe axial flow to be conducive to reducing described working medium.
11. 1 kinds, for the pipeline of flowing material heat transfer, is characterized in that, comprise pipeline and the arbitrary described two-layer columnar heat transfer unit (HTU) of claim 1 ~ 10,
Described column heat transfer unit (HTU) comprises can heat conduction cylindrical shell and demarcation strip;
Described can heat conduction cylindrical shell two ends airtight;
Described demarcation strip by described can the inner chamber of heat conduction cylindrical shell be divided into described can multiple chambers of paralleling of the axis of heat conduction cylindrical shell;
Working medium is filled with in described chamber;
The inwall of described chamber is disposed with some micro-fins be made up of Heat Conduction Material, form the capillary slot of array between adjacent described micro-fin, the axis of described capillary slot with described can the axis of heat conduction cylindrical shell parallel to reduce the resistance of working medium at described chamber indoor moveable;
Also Column shaped heat pipe is fitted with in described chamber, the inwall of described Column shaped heat pipe is disposed with some micro-fins be made up of Heat Conduction Material, form the capillary slot of array between adjacent described micro-fin, described capillary slot is arranged to be conducive to reducing flow in the described Column shaped heat pipe mode of suffered resistance of described working medium;
The described through hole flowed for flowing material that can leave between heat conduction cylindrical shell and described pipeline along described pipeline axial.
12. pipelines according to claim 11, it is characterized in that: described column heat transfer unit (HTU) is multiple, spaced and be arranged in described pipeline abreast, the pipeline internal fixtion parts for supporting and install described column heat transfer unit (HTU) that described inner-walls of duct establishes oriented pipeline axle center to extend.
13. pipelines according to claim 12, is characterized in that: described column heat transfer unit (HTU) can heat conduction column housing exterior walls be provided with column heat transfer unit (HTU) described in another can the heat transfer housing lateral connection parts that are interconnected and fixed of heat conduction cylindrical shell.
14. pipelines according to claim 11, is characterized in that: described column heat transfer unit (HTU) is arranged on described pipeline axle center, the fixed part for installing described column heat transfer unit (HTU) that described inner-walls of duct establishes oriented pipeline axle center to extend.
15. pipelines according to claim 11, is characterized in that: described column heat transfer unit (HTU) is arranged on described pipeline axle center, described pipeline and describedly can be formed in one by heat conduction cylindrical shell, and described through hole is along being uniformly distributed by heat conduction column casing peripheral.
16. pipelines according to claim 15, is characterized in that, for described pipeline and described can the integrated material of heat conduction cylindrical shell be Heat Conduction Material.
17. according to the arbitrary described pipeline of claim 11 ~ 16, and it is characterized in that, described pipe ends is provided with pipeline longitudinal connection structure, for connecting an other described pipeline; When length and the described duct length of described column heat transfer unit (HTU) adapt two described pipelines are connected, can just heat trnasfer heat transfer between the column heat transfer unit (HTU) in two described pipelines.
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
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CN105180696A (en) * | 2015-10-09 | 2015-12-23 | 昆山捷桥电子科技有限公司 | Condensation-section-separated type heat pipe and manufacturing method thereof |
WO2016004835A1 (en) * | 2014-07-07 | 2016-01-14 | 杨积文 | Cylindrical heat transfer device and pipeline and method for heat transfer of fluid material |
CN105318755A (en) * | 2014-07-29 | 2016-02-10 | 杨积文 | Double-layer columnar heat transfer device, pipeline for heat transfer of fluid substance and method |
CN107477369A (en) * | 2017-08-09 | 2017-12-15 | 中化工储运有限公司 | A kind of method and device for preventing storage tank dipping guide tube from coagulating oil |
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2014
- 2014-07-29 CN CN201420421035.8U patent/CN204064067U/en active Active
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
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WO2016004835A1 (en) * | 2014-07-07 | 2016-01-14 | 杨积文 | Cylindrical heat transfer device and pipeline and method for heat transfer of fluid material |
CN105318755A (en) * | 2014-07-29 | 2016-02-10 | 杨积文 | Double-layer columnar heat transfer device, pipeline for heat transfer of fluid substance and method |
CN105180696A (en) * | 2015-10-09 | 2015-12-23 | 昆山捷桥电子科技有限公司 | Condensation-section-separated type heat pipe and manufacturing method thereof |
CN105180696B (en) * | 2015-10-09 | 2017-12-08 | 昆山捷桥电子科技有限公司 | A kind of condensation segment separate heat pipe and preparation method thereof |
CN107477369A (en) * | 2017-08-09 | 2017-12-15 | 中化工储运有限公司 | A kind of method and device for preventing storage tank dipping guide tube from coagulating oil |
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