CN106323064B - It is a kind of using super heat-conductive pipe and the mobile energy storage equipment of foam copper phase-change material - Google Patents
It is a kind of using super heat-conductive pipe and the mobile energy storage equipment of foam copper phase-change material Download PDFInfo
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- CN106323064B CN106323064B CN201610789789.2A CN201610789789A CN106323064B CN 106323064 B CN106323064 B CN 106323064B CN 201610789789 A CN201610789789 A CN 201610789789A CN 106323064 B CN106323064 B CN 106323064B
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- heat
- phase
- change material
- foam copper
- conductive pipe
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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
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- Engineering & Computer Science (AREA)
- Physics & Mathematics (AREA)
- Thermal Sciences (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Heat-Exchange Devices With Radiators And Conduit Assemblies (AREA)
Abstract
The invention discloses a kind of using super heat-conductive pipe and the new mobile type energy storage equipment of foam copper phase-change material.It includes the monomer phase change heat accumulator of multiple parallel connections;Monomer phase change heat accumulator includes the cylindrical shell of a closing, and housing includes outer layer sleeve, inner layer metal sleeve and interlayer;Crustless sandwich is cold water channel, interior to be equipped with spirally-guided circle;Super heat-conductive pipe is equipped in housing, end closure is inserted into housing internal upper part on super heat-conductive pipe, and lower ending opening is exposed at outside housing to connect with waste heat source;The phase-change material being filled between inner layer sleeve and super heat-conductive pipe among the hole for being filled in foam copper;Multiple monomer phase change heat accumulators are erect side by side, and the upper end water inlet is connect by square tube of catchmenting with water inlet pipe, and lower end water outlet is connect by three-way pipe with outlet pipe.The new mobile type energy storage equipment of the present invention carries out waste heat recovery using super heat-conductive pipe, and heat transfer is fast, heat conduction efficiency is high;Increase the thermal conductivity factor of phase-change material using foam copper, improve the rate of accumulation of heat heat release.
Description
Technical field
The invention belongs to energy accumulating technique fields, are related to a kind of using super heat-conductive pipe and the mobile storage of foam copper phase-change material
It can device.
Background technology
The highly energy-consumings such as traditional steel, chemical industry, electric power, the industrial exhaust heat of maximum discharge industry, the recovery utilization rate of waste heat are very low,
It such as dissipates type steam waste heat, exhaust heat of slag flushing water, fume afterheat, compressed air waste-heat low temperature exhaust heat not yet to develop and use, this leads
Annual a large amount of energy has been caused to be consumed, while has produced a large amount of gas discharges.At the same time, waste heat Waste Heat Recovery business and
The utilization of commercial market is still less, and most UTILIZATION OF VESIDUAL HEAT IN project economics, flexibility still are apparent not enough.
Nowadays, the energy saving a kind of important social consciousness for obviously having become the world today.The profit of industrial exhaust heat waste heat
It is considerable with economy.Low-temperature heat utilization techniques are researched and developed, the cryogenic waste heat resource not yet utilized is recycled, stores and transport with heat
Occasion, such as industrial enterprise, hotel, swimming pool stablize the user of amount of hot water throughout the year, provide cool water heating for it, supply
Warm service.
The existing phase transition heat accumulation unit utilized using phase-change material progress waste heat Waste Heat Recovery, there are heat transfer efficiencys mostly
The problems such as low, thermal response is slowly, envelope chamber internal pressure is larger, complicated, bulky.
Invention content
It is an object of the invention to:Overcome the deficiencies of the prior art and provide that a kind of heat transfer efficiency is high, thermal response is fast, internal
Small, the compact-sized mobile energy storage equipment of pressure, i.e., it is a kind of to be stored using super heat-conductive pipe and the mobile of foam copper phase-change material
It can device.
The purpose of the present invention is what is be achieved through the following technical solutions:
It is a kind of using super heat-conductive pipe and the mobile energy storage equipment of foam copper phase-change material, it includes multiple be connected in parallel
Monomer phase change heat accumulator together;The monomer phase change heat accumulator includes the cylindrical shell of a closing, cylindrical shell point three
Layer, is outer layer sleeve, inner layer sleeve and the interlayer between outer layer sleeve and inner layer sleeve respectively;Inner layer sleeve is gold
Belong to material;Housing upper end is equipped with water inlet, and water inlet is connected with crustless sandwich;Housing lower end side is equipped with water outlet, goes out
The mouth of a river is connected with crustless sandwich;Crustless sandwich is cold water channel;Spirally-guided circle is equipped in crustless sandwich;Housing bottom is equipped with
It can be inserted into the trepanning of super heat-conductive pipe;Super heat-conductive pipe is inserted into the inside of housing inner layer sleeve from the trepanning of housing bottom;Housing internal layer
Foam copper phase-change material (being filled in the phase-change material among the hole of foam copper) is filled between sleeve and super heat-conductive pipe;It is super
Housing internal upper part is inserted into end closure, upper end to heat conducting pipe up and down, and lower end is exposed at outside housing, convenient for connecting with waste heat source;Heat superconducting
Pipe is fixed by the fixing bracket being fixedly connected with inner walls;
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
It is fixed at the cold water inlet of phase change heat accumulator with hot water exit by fixing device parallel connection, that is, forms mobile energy storage equipment.
The top of the movable type energy storage equipment is provided with cold water inlet, inlet valve and water inlet pipe, the setting of bottom end side
There are hot water outlet, flowing water Valve and outlet pipe;Multiple monomer phase change heat accumulators are erect side by side, and cylindrical shell bottom is fixed
On bottom bracket;The upper end water inlet of the monomer phase change heat accumulator of multiple parallel connections is connect by square tube of catchmenting with water inlet pipe;
The lower end water outlet of the monomer phase change heat accumulator of multiple parallel connections is connect by three-way pipe with outlet pipe.
Further, on the inner wall of inner layer sleeve, it is fixed with multiple discoid fixing brackets from top to bottom;It is each solid
There are one centre bore and Duo Gen supporting ribs for fixed rack;Super heat-conductive pipe is fixed by being inserted into multiple support bracket fastened centre bores.
Further, the cylindrical shell is additionally provided with adiabator layer in the outer surface of outer layer sleeve.
Further, the shell of the super heat-conductive pipe is copper material.
Further, the housing outer layer sleeve is stainless steel.The inner layer sleeve is copper material.
Further, the foam copper is the through-hole foam copper that aperture is 0.1mm-10mm, porosity is 50-98%
(preferable porosity reaches the high porosity through-hole foam copper of 85-98%), the phase-change material is filled in the hole of through-hole foam copper
In.
Further, the phase-change material is inorganic salts, crystalline hydrate salt, paraffin or fatty acid phase-change material.
Further, the foam copper phase-change material is that foam copper passes through mechanical mixture or vacuum injection with phase-change material
Made of method, that is, the phase-change material that is filled among the hole of foam copper.
The mobile energy storage equipment of the present invention is based on industrial exhaust heat, Waste Heat Recovery, and Rational choice phase-change material is made
For heat storage medium, multiple monomer phase change heat accumulators are filled respectively, monomer phase change heat accumulator is made;By multiple monomer phase transformations
Storage heater is connected in parallel one new mobile type phase change energy storage apparatus of composition;The new mobile type phase change energy storage apparatus,
At top, assembling cold water enters pipeline, and each monomer phase change heat accumulator is diverted to by square tube of catchmenting;Bottom assembling hot water outflow
Pipeline collects the hot water of each monomer phase change heat accumulator outflow by three-way pipe.
The phase transition temperature for the phase-change material filled inside the monomer phase change heat accumulator is different, is gradually dropped with flow direction
It is 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 transmitted to
In phase-change material, phase change memory heat;During heat release, cold water flows into square tube of catchmenting from upper end water inlet pipe, branches to each monomer phase transformation
Storage heater, the heat of phase-change material solidification release transmitted along spirally-guided circle cyclic absorption through foam copper and inner layer metal sleeve
Amount, realizes the high efficiente callback and release of heat.
Beneficial effects of the present invention:
The mobile energy storage equipment of the present invention, super heat-conductive pipe and foam copper are applied in regenerative apparatus, utilize heat superconducting
Tubular heat transmit fast, heat conduction efficiency is high, heat transfer mean temperature difference is big, flexible arrangement, it is safe and reliable the features such as, more than industry
Hot waste heat is recycled, and accumulation of energy is carried out using phase-change material, has high porosity, high thermal conductivity coefficient, thermal conductivity using foam copper
The excellent specific properties such as energy is high, thermal storage density is big, heat structure is stablized, the thermal conductivity factor of filling through-hole foam copper increase phase-change material, carry
The rate of high accumulation of heat heat release, effectively overcome existing phase transition heat accumulation unit heat transfer efficiency is low, thermal response is slow, envelope chamber internal pressure compared with
The problem of big.
The advantages and positive effects of the present invention are as follows:
1. carrying 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
The heat transfer unit of effect, the phase change heat storage material that industrial exhaust heat can be quickly transmitted in regenerative apparatus.
2. increasing the thermal conductivity factor of phase-change material using foam copper, the rate of accumulation of heat heat release is improved, thermal response is fast.Foam
Copper has very high thermal conductivity factor, by the way that phase-change material is added in foam copper, and be filled between the hole of through-hole foam copper,
The heat transfer property of phase-change material is significantly improved, effectively slows down hot stack phenomenon, hence it is evident that shortens thermal response time, substantially
The heat transfer property of energy storage equipment is enhanced, improves the temperature uniformity in device so that heat can be rapidly by phase-change material institute
It absorbs.
3. by the setting spirally-guided circle in the crustless sandwich (i.e. cold water channel), connecing for cold water and phase-change material is increased
The time is touched, cold water is enable to be absorbed into more heats at phase-change material.
4. envelope intracavitary no pressure, securely and reliably.
5. waste heat source is wide, purposes is wide.
6. device is simple, compact-sized, be conducive to install in small medium-and-large-sized compartment lorry.
Description of the drawings
Fig. 1 is the structure diagram of the mobile energy storage equipment of the present invention;
Fig. 2 is the partial cutaway view of the mobile 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 valves, 2- monomer phase change heat accumulators, 3- water inlet pipes, 4- catchments square tube, 5- three-way pipes, 6- bottoms
Stent, 7- flowing water Valves, 8- outlet pipes, 9- hex nuts,
201- stainless steel sleeves, 202- interlayers, 203- spirally-guided circles, 204- super heat-conductive pipes, 205- exit branch, 206-
Fixing bracket, 2061- centre bores, 2062- supporting ribs;207- foam copper phase-change materials, 208- copper sleeves.
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 present invention is a kind of using super heat-conductive pipe and the mobile energy storage equipment of 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, the monomer phase change heat accumulator 2 wraps
Including the cylindrical shell of a closing, three layers of cylindrical shell point is outer layer stainless steel sleeve 201, internal layer copper sleeve 208 respectively,
And the interlayer 202 between outer layer stainless steel sleeve and internal layer copper sleeve;Cylindrical shell upper end is equipped with water inlet, water inlet
Mouth is connected with interlayer;Cylindrical shell lower end side is equipped with water outlet, and water outlet is connected with interlayer;202 (i.e. cold water of interlayer
Channel) in be equipped with spirally-guided circle 203, cold water can be made along under 203 spiral flow of spirally-guided circle in interlayer;Housing bottom is equipped with
It can be inserted into the trepanning of super heat-conductive pipe;Super heat-conductive pipe is inserted into the inside of housing internal layer copper sleeve from the trepanning of housing bottom;Copper sleeve
Foam copper phase-change material 207 is filled between super heat-conductive pipe and (is filled in the phase transformation material between the hole of through-hole foam copper
Material);Housing internal upper part (major part and phase change material contacts of whole pipe) is inserted into end closure, upper end to super heat-conductive pipe up and down, under
End is exposed at outside housing, convenient for being connected with waste heat source;On the inner wall of copper sleeve 208, it is fixed with multiple disks from top to bottom
The fixing bracket 206 of shape;There are one centre bore 2061 and Duo Gen supporting ribs 2062 for each fixing bracket 206;Super heat-conductive pipe 204
It can be fixed by the centre bore 2061 for being inserted into multiple fixing brackets 206, meanwhile, multiple fixing brackets 206 are to copper sleeve
Also there is supporting and fixing effect (because the wall of copper sleeve is very thin).Fixing bracket 206 uses stainless steel.
As shown in Figure 1 and Figure 2, the top of the mobile energy storage equipment is provided with cold water inlet, inlet valve 1 and water inlet
Pipe 3, bottom end side are provided with hot water outlet, flowing water Valve 7 and outlet pipe 8.Multiple monomer phase change heat accumulators are erect side by side, circle
Barrel-type casing bottom is each attached on bottom bracket 6;The upper end water inlet of the monomer phase change heat accumulator of multiple parallel connections passes through collection
Water square tube 4 is connect with water inlet pipe 3, can adjust flow of inlet water by the inlet valve 1 on water inlet pipe 3;The single phase of multiple parallel connections
The lower end water outlet hot water outlet for becoming storage heater is connect by three-way pipe 5 with outlet pipe 8, can pass through going out on outlet pipe 8
7 adjusting water outlet flow of penstock.Multiple water inlets and the junction hex nut 9 for square tube 4 of catchmenting fasten;Multiple water outlets with
The junction of three-way pipe 5 is also fastened with hex nut 9.
The cylindrical shell is additionally provided with adiabator layer in the outer surface of stainless steel sleeve.The pipe of the super heat-conductive pipe
Shell is copper material.The foam copper is the high porosity through-hole foam that aperture reaches 85-98% for 0.1mm-10mm, porosity
Copper.The phase-change material is inorganic phase-changing material.
The mobile energy storage equipment of the present invention, recycles industrial exhaust heat waste heat using super heat-conductive pipe, using being filled in
Phase-change material between the hole of through-hole foam copper carries out accumulation of heat, mutually becomes liquid after phase-change material heat absorption, is stored in single phase
Become in storage heater;The phase-change material phase transformation heat release being stored in monomer phase change heat accumulator is recycled to heat cold water, is provided
The purposes such as cool water heating, heating.The specifically used method of movable type energy storage equipment is as follows:
First, which is transported at waste heat heat source, the one end of super heat-conductive pipe far from phase change heat storage material
Access waste heat source (such as high-temp waste gas, hot waste water), fixed regenerative apparatus.Since super heat-conductive pipe has heat transfer speed
Soon, the advantages of temperature difference between the two ends are extremely low, quickly regenerative apparatus can reach maximum amount of stored heat, super heat-conductive pipe can be pulled out from waste heat source at this time
Go out, carry out the seal operation of waste heat source and novel regenerative apparatus, then novel regenerative apparatus obtain it is primary quick, reliably absorbed heat
Journey.
Then, which is transported into neighbouring hotel, bathing city, swimming pool etc. throughout the year with vehicle
At the larger user of amount of hot water, the cold water inlet of the movable type energy storage equipment and the cold water pipe of user are connected by pipeline
Later, cold water is heated in the phase-change material phase transformation heat release being stored in monomer phase change heat accumulator, provides cool water heating, heating
Etc. purposes.The mobile energy storage equipment of the present invention during transport or use, traverse or is placed vertically.
The operation principle of the mobile energy storage equipment of the present invention is as follows:
During accumulation of heat, industrial exhaust heat waste heat enters and flows through super heat-conductive pipe 204, super heat-conductive pipe heat from 204 lower end of super heat-conductive pipe
End (lower part) internal work medium heat absorption, which is evaporated, becomes steam, steam flow cold end (top), after being condensed into liquid release heat,
By gravity stream backheat end (lower part);Such circulating and evaporating, condensation transfer heat to the phase transformation being filled between foam copper gap
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, cold water is passed through from 2 upper end of monomer phase change heat accumulator, opens inlet valve 1, the cold water that need to be heated is through water inlet
Pipe 3 is flowed into rectangular collector pipe 4, then be diverted in each monomer phase change heat accumulator 2 (can according to recycling heat source temperature and heat return
Requirement is received, using inlet valve 1 and bypass line, the number for reasonably selecting monomer phase change heat accumulator in parallel carries out accumulation of heat, releases
Heat);After cold water enters the interlayer 202 between stainless steel sleeve 201 and copper sleeve 208, along spirally-guided circle in interlayer 202
203 circulate, and fully absorb the phase-change material come by copper sleeve 208 and foam copper conduction and solidify the heat that releases, phase transformation
Material becomes solid-state again by liquid, and the hot water heated is pooled to through exit branch 205 in outlet pipe 8, is flowed out to through flowing water Valve 7
User terminal completes heat release process.
Claims (9)
- It is 1. a kind of using super heat-conductive pipe and the mobile energy storage equipment of foam copper phase-change material, which is characterized in that it includes multiple The monomer phase change heat accumulator being connected in parallel;The monomer phase change heat accumulator includes the cylindrical shell of a closing, cylinder Three layers of shape housing point, is outer layer sleeve, inner layer sleeve and the interlayer between outer layer sleeve and inner layer sleeve respectively;It is interior Layer sleeve is metal material;Housing upper end is connected equipped with water inlet with crustless sandwich;Housing lower end side is equipped with water outlet It is connected with crustless sandwich;Spirally-guided circle is equipped in crustless sandwich;Housing bottom is equipped with the trepanning that can be inserted into super heat-conductive pipe;It is super Heat conducting pipe is inserted into the inside of housing inner layer sleeve from the trepanning of housing bottom;It is filled between housing inner layer sleeve and super heat-conductive pipe Foam copper phase-change material is the phase-change material being filled among the hole of foam copper;The phase-change material is inorganic salts, the crystallization water Close salt, paraffin or fatty acid phase-change material;Housing internal upper part is inserted into end closure, upper end to super heat-conductive pipe up and down, and lower end is exposed at Outside housing, convenient for connecting with waste heat source;Super heat-conductive pipe is carried out by the fixing bracket that the inner wall with inner layer sleeve is fixedly connected It is fixed;The top of the movable type energy storage equipment is provided with cold water inlet, inlet valve and water inlet pipe, and bottom end side is provided with heat Water out, flowing water Valve and outlet pipe;Multiple monomer phase change heat accumulators are erect side by side, and cylindrical shell bottom is each attached to bottom On portion's stent;The upper end water inlet of the monomer phase change heat accumulator of multiple parallel connections is connect by square tube of catchmenting with water inlet pipe;It is multiple The lower end water outlet of monomer phase change heat accumulator in parallel is connect by three-way pipe with outlet pipe.
- 2. as described in claim 1 using super heat-conductive pipe and the mobile energy storage equipment of foam copper phase-change material, feature exists In on the inner wall of inner layer sleeve, being fixed with multiple discoid fixing brackets from top to bottom;Each fixing bracket has one A centre bore and Duo Gen supporting ribs;Super heat-conductive pipe is fixed by being inserted into multiple support bracket fastened centre bores.
- 3. as claimed in claim 1 or 2 using super heat-conductive pipe and the mobile energy storage equipment of foam copper phase-change material, feature It is, the foam copper is the through-hole foam copper that aperture is 0.1mm-10mm, porosity is 50-98%, and the phase-change material is filled out It fills in the hole of through-hole foam copper.
- 4. as claimed in claim 3 using super heat-conductive pipe and the mobile energy storage equipment of foam copper phase-change material, feature exists In the foam copper is the high porosity through-hole foam copper that porosity reaches 85-98%.
- 5. as claimed in claim 1 or 2 using super heat-conductive pipe and the mobile energy storage equipment of foam copper phase-change material, feature It is, the cylindrical shell, adiabator layer is additionally provided in the outer surface of outer layer sleeve.
- 6. as claimed in claim 1 or 2 using super heat-conductive pipe and the mobile energy storage equipment of foam copper phase-change material, feature It is, the shell of the super heat-conductive pipe is copper material;The fixing bracket uses stainless steel.
- 7. as claimed in claim 1 or 2 using super heat-conductive pipe and the mobile energy storage equipment of foam copper phase-change material, feature It is, the inner layer sleeve is copper material.
- 8. as claimed in claim 1 or 2 using super heat-conductive pipe and the mobile energy storage equipment of foam copper phase-change material, feature It is, the outer layer sleeve is stainless steel.
- 9. as claimed in claim 1 or 2 using super heat-conductive pipe and the mobile energy storage equipment of foam copper phase-change material, feature It is, the foam copper phase-change material is that foam copper passes through with phase-change material made of mechanical mixture or vacuum injection method.
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CN201610789789.2A CN106323064B (en) | 2016-08-31 | 2016-08-31 | It is a kind of using super heat-conductive pipe and the mobile energy storage equipment of foam copper phase-change material |
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CN112648787A (en) * | 2019-10-10 | 2021-04-13 | 中车石家庄车辆有限公司 | Method and device for determining cold accumulation residual service life and computer equipment |
CN112648784A (en) * | 2019-10-10 | 2021-04-13 | 中车石家庄车辆有限公司 | Method and device for determining cold accumulation residual service life and computer equipment |
CN115307334B (en) * | 2022-08-08 | 2024-01-26 | 安徽工程大学 | Multi-heat source heat pump air conditioning system and operation control method 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 |
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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 |
CN206056367U (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 super heat-conductive pipe and foam copper phase-change material |
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JPS56155389A (en) * | 1980-05-02 | 1981-12-01 | Nissan Motor Co Ltd | Heat accumulator utilizing exhaust heat |
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2016
- 2016-08-31 CN CN201610789789.2A patent/CN106323064B/en active Active
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Publication number | Priority date | Publication date | Assignee | Title |
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US4131158A (en) * | 1976-01-23 | 1978-12-26 | Institut Fur Kerntechnik Und Energiewandlung E.V. | Storage arrangement for thermal energy |
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 |
CN206056367U (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 super heat-conductive pipe and foam copper phase-change material |
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Address after: 201900 Yang Tai Road, Baoshan District, Baoshan District, Shanghai, five Patentee after: Shanghai Xuan light energy-saving environmental protection Polytron Technologies Inc Address before: 201901 Yang Tai Road, Baoshan District, Baoshan District, Shanghai, five Patentee before: Shanghai Xuan light energy-saving environmental protection Co. Ltd. |