CN106403678A - Novel movable energy accumulation device using foamy copper phase change materials - Google Patents
Novel movable energy accumulation device using foamy copper phase change materials Download PDFInfo
- Publication number
- CN106403678A CN106403678A CN201610789764.2A CN201610789764A CN106403678A CN 106403678 A CN106403678 A CN 106403678A CN 201610789764 A CN201610789764 A CN 201610789764A CN 106403678 A CN106403678 A CN 106403678A
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- China
- Prior art keywords
- phase
- heat
- change material
- foam copper
- phase change
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Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F28—HEAT EXCHANGE IN GENERAL
- F28D—HEAT-EXCHANGE APPARATUS, NOT PROVIDED FOR IN ANOTHER SUBCLASS, IN WHICH THE HEAT-EXCHANGE MEDIA DO NOT COME INTO DIRECT CONTACT
- F28D20/00—Heat storage plants or apparatus in general; Regenerative heat-exchange apparatus not covered by groups F28D17/00 or F28D19/00
- F28D20/02—Heat storage plants or apparatus in general; Regenerative heat-exchange apparatus not covered by groups F28D17/00 or F28D19/00 using latent heat
- F28D20/021—Heat storage plants or apparatus in general; Regenerative heat-exchange apparatus not covered by groups F28D17/00 or F28D19/00 using latent heat the latent heat storage material and the heat-exchanging means being enclosed in one container
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E60/00—Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
- Y02E60/14—Thermal energy storage
Abstract
The invention discloses a novel movable energy accumulation device using foamy copper phase change materials. The novel movable energy accumulation device comprises multiple single body phase change energy accumulators which are connected in parallel. Each single body phase change accumulator comprises a sealed cylindrical shell. Each shell comprises an outer-layer sleeve, an inner-layer metal sleeve and an interlayer, wherein a sealing opening in the upper end of a superconduction heat pipe is inserted in the upper portion of the interior of the shell, and an opening in the lower end of the superconduction heat pipe is exposed out of the shell and is connected with a waste heat source; the part between the inner-layer sleeve and the superconduction heat pipe is filled with the foamy copper phase change materials; and a spiral pipeline is further arranged in the shell to pass between the phase change materials, and the shell interlayer and the spiral pipeline in the shell are cold water channels. The multiple single body phase change energy accumulators are erected side by side, water inlets in the upper ends of the multiple single body phase change energy accumulators are connected with a water inlet pipe, and water outlets in the lower ends of the multiple single body phase change energy accumulators are connected with a water outlet pipe. According to the novel movable energy accumulation device, the superconduction heat pipe is used for recycling waste heat, heat transmission is fast, and the heat transmission efficiency is high; the heat conduction coefficient of the phase change material is increased through foamy copper, and the heat accumulating and releasing rate is increased.
Description
Technical field
The invention belongs to energy accumulating technique field, it is related to a kind of new mobile type accumulation of energy dress of use foam copper phase-change material
Put.
Background technology
The highly energy-consumings such as traditional iron and steel, chemical industry, electric power, the industrial exhaust heat of maximum discharge industry, used heat recovery utilization rate very low,
Not yet develop as dissipated the low temperature exhaust heats such as type steam waste heat, exhaust heat of slag flushing water, fume afterheat, compressed air waste-heat, this leads
Cause annual substantial amounts of energy to be consumed, create a large amount of gas discharges simultaneously.Meanwhile, waste heat Waste Heat Recovery business and
The utilization of commercial market is still less, and most UTILIZATION OF VESIDUAL HEAT IN project economics, motility still are apparent not enough.
Nowadays, energy saving obviously has become as a kind of important social consciousness of the world today.The profit of industrial exhaust heat used heat
Considerable with economy.Research and development Low-temperature heat utilization techniques, reclaim the cryogenic waste heat resource of not yet utilization, store and transport with heat
Occasion, such as industrial undertaking, hotel, hotel, swimming pool etc. stablize the user of amount of hot water throughout the year, provide cool water heating, confession for it
Warm service.
, mostly there is heat transfer efficiency in the existing phase transition heat accumulation unit carrying out waste heat Waste Heat Recovery utilization using phase-change material
Low, thermal response is slow, envelope chamber internal pressure is larger, complex structure, bulky the problems such as.
Content of the invention
It is an object of the invention to:Overcome the deficiencies in the prior art, provide a kind of heat transfer efficiency height, thermal response fast, internal
Pressure is little, the new mobile type energy storage equipment of the use foam copper phase-change material of compact conformation, and that is, one kind uses foam copper phase transformation
The new mobile type energy storage equipment of material.
The purpose of the present invention is achieved through the following technical solutions:
A kind of new mobile type energy storage equipment of use foam copper phase-change material, it includes multiple being connected in parallel
Monomer phase change heat accumulator;Described monomer phase change heat accumulator includes the cylindrical shell of a closing, and cylindrical shell divides three layers, respectively
It is outer layer sleeve, inner layer sleeve, and be located at the interlayer between outer layer sleeve and inner layer sleeve;Inner layer sleeve is metal material
's;Housing upper end is provided with water inlet, and water inlet is connected with crustless sandwich;Housing lower end side is provided with outlet, outlet with
Crustless sandwich is connected;Housing bottom is provided with the perforate of pluggable super heat-conductive pipe;Super heat-conductive pipe inserts from the perforate of housing bottom
The inside of housing inner layer sleeve;It is filled with foam copper phase-change material between housing inner layer sleeve and super heat-conductive pipe and (be filled in bubble
Phase-change material among the hole of foam copper);End closure on super heat-conductive pipe, lower ending opening, housing internal upper part is inserted in upper end, and lower end is revealed
Outside housing, it is easy to connect with waste heat source;Super heat-conductive pipe is fixed by the fixed support being fixedly connected with inner walls;
It is additionally provided with spirality pipe within housing inner layer sleeve to pass through between phase-change material, this spirality pipe upper end and housing upper end
Water inlet be connected, lower end is connected with the outlet of housing lower end;(spirality pipe of crustless sandwich and enclosure interior is equal
For cold water channel);
Several monomer phase change heat accumulators can be selected to carry out assembled in parallel according to user's heat load demand.By multiple monomers
Fix by fixing device is in parallel with hot water exit at the cold water inlet of phase change heat accumulator, that is, constitute new mobile type accumulation of energy dress
Put.
The top of described new mobile type energy storage equipment is provided with cold water inlet, inlet valve and water inlet pipe, bottom sidepiece
It is provided with hot water outlet, flowing water Valve and outlet pipe;Multiple monomer phase change heat accumulators are erect side by side, and its cylindrical shell bottom is equal
It is fixed on bottom bracket;The upper end water inlet of multiple monomer phase change heat accumulators in parallel is all by catchmenting square tube with water inlet pipe even
Connect;The lower end outlet of multiple monomer phase change heat accumulators in parallel is all connected with outlet pipe by tee T.
Further, on the inwall of inner layer sleeve, it is fixed with multiple discoid fixed supports from top to bottom;Each is solid
Fixed rack has a centre bore and Duo Gen supporting rib;Super heat-conductive pipe is fixed by inserting multiple support bracket fastened centre bores.
Further, described cylindrical shell, is additionally provided with adiabator layer in the outer surface of outer layer sleeve.
Further, the shell of described super heat-conductive pipe is copper material.
Further, described housing outer layer sleeve is stainless steel.Described inner layer sleeve is copper material.
Further, described foam copper be aperture be 0.1mm-10mm, porosity be 50-98% through-hole foam copper
(preferable porosity reaches the high porosity through-hole foam copper of 85-98%), described phase-change material is filled in the hole of through-hole foam copper
In.
Further, described phase-change material is inorganic salt, crystalline hydrate salt, paraffin or fatty acid phase-change material.
Further, described foam copper phase-change material is that foam copper passes through mechanical mixture or vacuum injection with phase-change material
Method is made, that is, be filled in the phase-change material among the hole of foam copper.
The new mobile type energy storage equipment of the use foam copper phase-change material of the present invention, is with industrial exhaust heat, Waste Heat Recovery
Based on, Rational choice phase-change material, as heat storage medium, is filled with to multiple monomer phase change heat accumulators respectively, makes monomer
Phase change heat accumulator;It is connected in parallel by multiple monomer phase change heat accumulators and form new mobile type phase change energy storage apparatus;
This new mobile type phase change energy storage apparatus, at top, assembling cold water enters pipeline, is diverted to each single phase by square tube of catchmenting
Become thermophore;Hot water effuser road is assembled in bottom, collects the hot water of each monomer phase change heat accumulator outflow by tee T.
Inside described monomer phase change heat accumulator, the phase transition temperature of the phase-change material of filling is different, gradually drops with flow direction
Low.During accumulation of heat, industrial waste heat flows through super heat-conductive pipe lower end, and heat is passed to inside the phase change heat accumulator of upper end, and then is delivered to
In phase-change material, phase change memory heat;During heat release, cold water flows into, from upper end water inlet pipe, square tube of catchmenting, and branches to each monomer phase transformation
Thermophore, along the heat through the phase-change material solidification release of foam copper and the transmission of inner layer metal sleeve for the spirally-guided circle cyclic absorption
Amount, realizes high efficiente callback and the release of heat.
Beneficial effects of the present invention:
The new mobile type energy storage equipment of the use foam copper phase-change material of the present invention, by super heat-conductive pipe and foam copper application
In regenerative apparatus, using super heat-conductive pipe heat transfer fast, heat conduction efficiency is high, heat transfer mean temperature difference is big, flexible arrangement, work
Safe and reliable the features such as, industrial exhaust heat used heat is reclaimed, accumulation of energy is carried out using phase-change material, using foam copper, there is high hole
The excellent specific property such as gap rate, high thermal conductivity coefficient, heat conductivility are high, thermal storage density is big, heat structure is stable, filling through-hole foam copper increase
The heat conductivity of phase-change material, improves the speed of accumulation of heat heat release, effectively overcomes existing phase transition heat accumulation unit heat transfer efficiency low, hot
The larger problem of low-response, envelope chamber internal pressure.
Advantages of the present invention and good effect are as follows:
1. carry out heat recovery using super heat-conductive pipe, heat transfer is fast, heat conduction efficiency is high.Super heat-conductive pipe is as a kind of high
Industrial exhaust heat can be quickly transmitted to the phase change heat storage material in regenerative apparatus by the heat transfer unit of effect.
2. utilize foam copper to increase the heat conductivity of phase-change material, improve the speed of accumulation of heat heat release, thermal response is fast.Foam
Copper has very high heat conductivity, by adding phase-change material in foam copper, and is filled between the hole of through-hole foam copper,
Significantly improving the heat transfer property of phase-change material, effectively slow down hot stack phenomenon hence it is evident that shortening thermal response time, significantly
Enhance the heat transfer property of energy storage equipment, improve the temperature homogeneity in device so that heat can be rapidly by phase-change material institute
Absorb.
3. pass through to arrange two cold water channels of spirality pipe of crustless sandwich and enclosure interior, increase cold water and phase transformation
The contact area of material and time of contact, cold water can not only be made to absorb more heats at phase-change material, and make phase transformation
Faster, heat exchange efficiency is higher for the heat release rate of material.
4. envelope intracavity no pressure, safe and reliable.
5. waste heat source is wide, purposes is wide.
6. device is simple, compact conformation, is conducive to installing in the lorry of little medium-and-large-sized railway carriage or compartment.
Brief description
Fig. 1 is the structural representation of the portable energy storage equipment of the present invention;
Fig. 2 is the part sectioned view of the portable energy storage equipment of the present invention;
Fig. 3 is the internal structure schematic diagram of the monomer phase change heat accumulator 2 in the present invention;
Fig. 4 is the cross section structure schematic diagram of the monomer phase change heat accumulator 2 in the present invention.
In figure, 1- inlet valve, 2- monomer phase change heat accumulator, 3- water inlet pipe, 4- catchments square tube, 5- tee T, 6- bottom
Support, 7- flowing water Valve, 8- outlet pipe, 9- hex nut,
201- rustless steel sleeve, 202- interlayer, 203- spirality pipe, 204- super heat-conductive pipe, 205- exit branch, 206-
Fixed support, 2061- centre bore, 2062- supporting rib;207- foam copper phase-change material, 208- copper sleeve.
Specific embodiment
Below in conjunction with drawings and Examples, the present invention is further illustrated.
Embodiment 1
As shown in Figure 1 and Figure 2, the new mobile type energy storage equipment of a kind of use of present invention foam copper phase-change material, it includes
Multiple monomer phase change heat accumulators 2 being connected in parallel;As shown in Figure 3, Figure 4, described monomer phase change heat accumulator 2 includes an envelope
The cylindrical shell closing, cylindrical shell divides three layers, is outer layer rustless steel sleeve 201, internal layer copper sleeve 208, Yi Jiwei respectively
Interlayer 202 between outer layer rustless steel sleeve and internal layer copper sleeve;Cylindrical shell upper end is provided with water inlet, water inlet and folder
Layer is connected;Cylindrical shell lower end side is provided with outlet, and outlet is connected with interlayer;Housing bottom is provided with pluggable super
The perforate of heat pipe;Super heat-conductive pipe inserts the inside of housing internal layer copper sleeve from the perforate of housing bottom;Copper sleeve and heat superconducting
It is filled with foam copper phase-change material 207 (being filled in the phase-change material between the hole of through-hole foam copper) between pipe;Heat superconducting
End closure on pipe, lower ending opening, upper end insertion housing internal upper part (major part of whole pipe and phase change material contacts), lower end is revealed
Outside housing, it is easy to be connected with waste heat source;On the inwall of copper sleeve 208, it is fixed with multiple discoid from top to bottom
Fixed support 206;Each fixed support 206 has a centre bore 2061 and Duo Gen supporting rib 2062;Super heat-conductive pipe 204 passes through
The centre bore 2061 inserting multiple fixed supports 206 can be fixed, and meanwhile, multiple fixed supports 206 also have to copper sleeve
Supporting and fixing effect (because the wall of copper sleeve is very thin).It is additionally provided with spirality pipe 203 from phase transformation within housing internal layer copper sleeve
Pass through between material, this spirality pipe 203 upper end is connected with the water inlet of housing upper end, the water outlet of lower end and housing lower end
Mouth is connected.This spirality pipe 203 is copper material.Spirality pipe 203 can make, under cold water spiral flow, to increase and phase transformation
The time of contact of material;The spirality pipe 203 of crustless sandwich 202 and enclosure interior is cold water channel, increases and phase transformation
The contact area of material.
As shown in Figure 1 and Figure 2, the top of the new mobile type energy storage equipment of described use foam copper phase-change material is provided with
Cold water inlet, inlet valve 1 and water inlet pipe 3, bottom sidepiece is provided with hot water outlet, flowing water Valve 7 and outlet pipe 8.Multiple lists
Body phase change heat accumulator is erect side by side, and its cylindrical shell bottom is each attached on bottom bracket 6;Multiple monomer phase transformations in parallel store
The upper end water inlet of hot device is all connected with water inlet pipe 3 by square tube 4 of catchmenting, can by the inlet valve 1 on water inlet pipe 3 adjust into
Discharge;The lower end outlet hot water outlet of multiple monomer phase change heat accumulators in parallel is all by tee T 5 with outlet pipe 8 even
Connect, can be by the flowing water Valve 7 adjusting water outlet flow on outlet pipe 8.The junction hexagonal of multiple water inlets and square tube 4 of catchmenting
Nut 9 fastens;Multiple outlets are also fastened with hex nut 9 with the junction of tee T 5.
Described cylindrical shell, is additionally provided with adiabator layer in the outer surface of rustless steel sleeve.The pipe of described super heat-conductive pipe
Shell is copper material.Fixed support 206 adopts stainless steel.Described foam copper be aperture be 0.1mm-10mm, porosity reaches
The high porosity through-hole foam copper of 85-98%.Described phase-change material is inorganic phase-changing material.
The new mobile type energy storage equipment of the use foam copper phase-change material of the present invention, using super heat-conductive pipe to industrial exhaust heat
Used heat is reclaimed, and carries out accumulation of heat using the phase-change material being filled between the hole of through-hole foam copper, after phase-change material heat absorption
Mutually it is changed into liquid, be stored in monomer phase change heat accumulator;Recycle the phase-change material phase transformation being stored in monomer phase change heat accumulator
Heat release is heated to cold water, provides the purposes such as cool water heating, heating.This specifically used method of new mobile type energy storage equipment is such as
Under:
First, this new regenerative apparatus is transported at waste heat thermal source, super heat-conductive pipe is away from one end of phase change heat storage material
Access waste heat source (as high-temp waste gas, hot waste water etc.), fixing regenerative apparatus.Because super heat-conductive pipe has heat transfer speed
Hurry up, the extremely low advantage of the two ends temperature difference, quickly regenerative apparatus can reach maximum amount of stored heat, now super heat-conductive pipe can be pulled out from waste heat source
Go out, carry out the seal operation of waste heat source and new regenerative apparatus, then new regenerative apparatus obtain once quick, reliably absorbed heat
Journey.
Then, this portable energy storage equipment is transported neighbouring hotel, hotel, bathing city, swimming pool etc. throughout the year with car
At the larger user of amount of hot water, the cold water pipe of the cold water inlet of this new mobile type energy storage equipment and user is connected by pipeline
After connecting, the phase-change material phase transformation heat release being stored in monomer phase change heat accumulator is heated to cold water, provide cool water heating,
The purposes such as heating.The new mobile type energy storage equipment of the present invention, during transport or use, traverse or place vertically.
The operation principle of the new mobile type energy storage equipment of use foam copper phase-change material of the present invention is as follows:
During accumulation of heat, industrial exhaust heat used heat enters and flows through super heat-conductive pipe 204, super heat-conductive pipe heat from super heat-conductive pipe 204 lower end
End (bottom) internal work medium heat absorption evaporation becomes steam, steam flow cold end (top), after being condensed into liquid release heat,
By gravity stream backheat end (bottom);So circulating and evaporating, condensation transfer heat to the phase transformation being filled between foam copper space
Material;Phase-change material is endothermic melting, is liquid by solid state transformation, by heat storage in liquid state phase change material, completes accumulation of heat
Journey.
During heat release, it is passed through cold water from monomer phase change heat accumulator 2 upper end, opens inlet valve 1, the cold water that need to heat is through water inlet
Pipe 3 is flowed into square collector pipe 4, then is diverted in each monomer phase change heat accumulator 2 and (can be returned according to the temperature reclaiming thermal source and heat
Receive and require, using inlet valve 1 and bypass line, the number of reasonable selection monomer phase change heat accumulator in parallel carries out accumulation of heat, releases
Heat);After cold water enters the interlayer 202 between rustless steel sleeve 201 and copper sleeve 208, along spirally-guided circle in interlayer 202
203 circulate, and fully absorb the heat being discharged by the phase-change material solidification that copper sleeve 208 and foam copper conduction come, phase transformation
Material becomes solid-state again by liquid, and heated hot water is pooled in outlet pipe 8 through exit branch 205, flows out to through flowing water Valve 7
User side, completes heat release process.
Claims (10)
1. a kind of new mobile type energy storage equipment of use foam copper phase-change material is it is characterised in that it includes multiple parallel connections even
The monomer phase change heat accumulator being connected together;Described monomer phase change heat accumulator includes the cylindrical shell of a closing, cylindrical shell
Divide three layers, be outer layer sleeve, inner layer sleeve respectively, and be located at the interlayer between outer layer sleeve and inner layer sleeve;Inner layer sleeve
It is metal material;Housing upper end is provided with water inlet and is connected with crustless sandwich;Housing lower end side is provided with outlet and housing
Interlayer is connected;Housing bottom is provided with the perforate of pluggable super heat-conductive pipe;Super heat-conductive pipe inserts housing from the perforate of housing bottom
The inside of inner layer sleeve;It is filled with foam copper phase-change material between housing inner layer sleeve and super heat-conductive pipe and be filled in foam copper
Phase-change material among hole;End closure on super heat-conductive pipe, lower ending opening, housing internal upper part is inserted in upper end, and lower end is exposed at housing
Outside, is easy to connect with waste heat source;Super heat-conductive pipe is fixed by the fixed support being fixedly connected with inner walls;In housing
It is additionally provided with spirality pipe within layer sleeve to pass through between phase-change material, the water inlet of this spirality pipe upper end and housing upper end
Mouth is connected, and lower end is connected with the outlet of housing lower end;
The top of described new mobile type energy storage equipment is provided with cold water inlet, inlet valve and water inlet pipe, and bottom sidepiece is arranged
There are hot water outlet, flowing water Valve and outlet pipe;Multiple monomer phase change heat accumulators are erect side by side, and its cylindrical shell bottom is all fixing
On bottom bracket;The upper end water inlet of multiple monomer phase change heat accumulators in parallel is all connected with water inlet pipe by square tube of catchmenting;
The lower end outlet of multiple monomer phase change heat accumulators in parallel is all connected with outlet pipe by tee T.
2. use foam copper phase-change material as claimed in claim 1 new mobile type energy storage equipment it is characterised in that including
On the inwall of layer sleeve, it is fixed with multiple discoid fixed supports from top to bottom;Each fixed support have a centre bore and
Many supporting ribs;Super heat-conductive pipe is fixed by inserting multiple support bracket fastened centre bores.
3. use foam copper phase-change material as claimed in claim 1 or 2 new mobile type energy storage equipment it is characterised in that
Described foam copper be aperture be 0.1mm-10mm, porosity be 50-98% through-hole foam copper, described phase-change material is filled in logical
In the hole of hole foam copper.
4. the new mobile type energy storage equipment of use foam copper phase-change material as claimed in claim 3 is it is characterised in that described
Foam copper is the high porosity through-hole foam copper that porosity reaches 85-98%.
5. use foam copper phase-change material as claimed in claim 1 or 2 new mobile type energy storage equipment it is characterised in that
Described cylindrical shell, is additionally provided with adiabator layer in the outer surface of outer layer sleeve.
6. use foam copper phase-change material as claimed in claim 1 or 2 new mobile type energy storage equipment it is characterised in that
The shell of described super heat-conductive pipe is copper material.
7. use foam copper phase-change material as claimed in claim 1 or 2 new mobile type energy storage equipment it is characterised in that
Described inner layer sleeve is copper material;Described spirality pipe is copper material.
8. use foam copper phase-change material as claimed in claim 1 or 2 new mobile type energy storage equipment it is characterised in that
Described outer layer sleeve is stainless steel;Described fixed support adopts stainless steel.
9. use foam copper phase-change material as claimed in claim 1 or 2 new mobile type energy storage equipment it is characterised in that
Described phase-change material is inorganic salt, crystalline hydrate salt, paraffin or fatty acid phase-change material.
10. use foam copper phase-change material as claimed in claim 1 or 2 new mobile type energy storage equipment it is characterised in that
Described foam copper phase-change material is that foam copper is made by mechanical mixture or vacuum injection method with phase-change material.
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108692592A (en) * | 2018-05-17 | 2018-10-23 | 上海电力学院 | Using the tube-plate type heat-exchanger of foam copper product |
CN112352134A (en) * | 2018-07-11 | 2021-02-09 | 林德有限责任公司 | Temperature compensation element, pipe and method for producing a pipe |
CN113028873A (en) * | 2019-12-09 | 2021-06-25 | 江苏启能新能源材料有限公司 | Packaging body for phase change heat storage system and application thereof |
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CN201191144Y (en) * | 2007-12-03 | 2009-02-04 | 陈定兴 | Phase change energy storageheat exchanger |
CN201258323Y (en) * | 2008-06-17 | 2009-06-17 | 莫津 | Condenser core |
CN102538533A (en) * | 2012-02-28 | 2012-07-04 | 湖南省汇通热源技术有限责任公司 | Phase change heat storage element and heat storage and supply device adopting same |
CN203163569U (en) * | 2013-03-06 | 2013-08-28 | 昆明理工大学 | Phase-change heat storage tank for waste heat of automobile exhaust |
CN206056366U (en) * | 2016-08-31 | 2017-03-29 | 上海绚光节能环保有限公司 | Using the new mobile type energy storage equipment of foam copper phase-change material |
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US4131158A (en) * | 1976-01-23 | 1978-12-26 | Institut Fur Kerntechnik Und Energiewandlung E.V. | Storage arrangement for thermal energy |
JPS56155389A (en) * | 1980-05-02 | 1981-12-01 | Nissan Motor Co Ltd | Heat accumulator utilizing exhaust heat |
CN201191144Y (en) * | 2007-12-03 | 2009-02-04 | 陈定兴 | Phase change energy storageheat exchanger |
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Publication number | Priority date | Publication date | Assignee | Title |
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CN108692592A (en) * | 2018-05-17 | 2018-10-23 | 上海电力学院 | Using the tube-plate type heat-exchanger of foam copper product |
CN112352134A (en) * | 2018-07-11 | 2021-02-09 | 林德有限责任公司 | Temperature compensation element, pipe and method for producing a pipe |
CN113028873A (en) * | 2019-12-09 | 2021-06-25 | 江苏启能新能源材料有限公司 | Packaging body for phase change heat storage system and application thereof |
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CN106403678B (en) | 2018-06-19 |
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