CN107289805A - The outdoor hot energy storage device of Large Copacity - Google Patents
The outdoor hot energy storage device of Large Copacity Download PDFInfo
- Publication number
- CN107289805A CN107289805A CN201710613599.XA CN201710613599A CN107289805A CN 107289805 A CN107289805 A CN 107289805A CN 201710613599 A CN201710613599 A CN 201710613599A CN 107289805 A CN107289805 A CN 107289805A
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- China
- Prior art keywords
- chamber
- energy storage
- heat
- storage device
- heat accumulation
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Classifications
-
- 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
- F28D20/023—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 being enclosed in granular particles or dispersed in a porous, fibrous or cellular structure
-
- 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 present invention proposes a kind of outdoor hot energy storage device of Large Copacity, and there is waterproof layer incubator shell outer surface;Incubator shell is divided into epicoele, lumen and cavity of resorption by upper spacer and lower clapboard;Some groups of heat accumulation groups are set in lumen, some groups of heat accumulation groups are alternately fitted with being incubated the front side wall and rear wall of tank shell successively, form the passage of zigzag, passage two ends set fluid intake and fluid issuing;Heat accumulation group includes top chamber and bottom cavity, is divided into some placing chambers by vertical chamber, left chamber, right chamber, a separate space and space bar between the two;Monomer energy storage device is housed in placing chamber;Vertical chamber, a separate space, left chamber and right chamber are connected with top chamber and bottom cavity respectively;Upper intracavitary sets heat exchange liquid and enters pipe, and it is connected with each top chamber;Lower intracavitary sets heat exchange liquid outlet pipe, and it is connected with each bottom cavity.The present invention can set the quantity of heat accumulation group according to demand, improve stored energy capacitance;The incubator shell outer surface being incubated using vacuum layer has waterproof layer, and energy storage device can be wholy set in outdoor, saves the interior space.
Description
Technical field
The present invention relates to energy storage device technical field, specifically a kind of outdoor hot energy storage device of Large Copacity.
Background technology
Heat storage type heat supply process provides a kind of new heat-supplying mode, can be by inside industrial exhaust heat storage to heating plant
Energy-accumulating medium in, being then moved to heating plant needs the place of heat, then heat is discharged from energy-accumulating medium,
For users to use, the recycling of industrial exhaust heat is realized.
Phase-change heat-storage material is filled in the gap between some bellowss by existing heat storage type heating plant, causes
Change operating difficulties during phase-change heat-storage material;Furthermore it is complete by ripple tube wall ability between phase-change heat-storage material and hot-fluid
Into heat exchange, the mode of this indirect contact heat exchanger can cause heat exchanged thermoresistance larger, heat exchange efficiency is relatively low.
In order to meet largely with the use heat demand at hot family, it is necessary to expand the capacity of energy storage device;When the capacity of energy storage device
After increase, certain change can also occur therewith for its volume, and energy storage device is positioned over into open air will greatly save the interior space, drop
Low cost.
The content of the invention
The present invention proposes a kind of outdoor hot energy storage device of Large Copacity, solves in the prior art that hot energy storage device capacity is not
The problem of foot, space-consuming, heat exchanged thermoresistance are big, heat exchange efficiency is low.
The technical proposal of the invention is realized in this way:
A kind of outdoor hot energy storage device of Large Copacity, including incubator shell, the outer surface of the incubator shell has waterproof layer;
The incubator shell is internally provided with upper spacer and lower clapboard, and the incubator shell is divided into by the upper spacer and lower clapboard
Epicoele, lumen and cavity of resorption;
Some groups of heat accumulation groups are provided with the lumen, the top of the heat accumulation group is fitted with the upper spacer, the storage
Fitted with the lower clapboard bottom of heat group;Some groups of heat accumulation groups are lined up and leave gap, queue between a pair of row, adjacent heat accumulation group
Gap is left between the side wall of the heat accumulation group at two ends and the insulation shell left and right ends;Wherein positioned at single digit heat accumulation group with
The rear side sidewall laminating of the incubator shell, gap is left with the front side sidewall of the incubator shell;Wherein positioned at dual number digits
Heat accumulation group is fitted with the front side sidewall of the incubator shell, and gap is left with the rear side sidewall of the incubator shell;It is first with queue
Be provided with fluid intake on the side wall of the heat accumulation group laminating at end, the fluid intake be located at the heat accumulation group of queue head end with it is adjacent
Between the wall of left side side;Fluid issuing is provided with the side wall fitted with the heat accumulation group of queue tail end, the fluid issuing is located at team
Between the heat accumulation group of row tail end and adjacent right sidewall;
The heat accumulation group includes flat top chamber and flat bottom cavity, is provided between the top chamber and the bottom cavity
The flat vertical chamber of vertical direction, the vertical chamber by it is described top chamber and the bottom cavity between space be divided into front area and
Background Region;
If it is described top chamber and the bottom cavity between be provided with dried layer vertical direction it is flat between separate space, it is described between separate space
The front area and Background Region are divided into the elongated slot that some left and right are set;Some space bars are provided with the elongated slot,
The elongated slot is divided into some placing chambers by some space bars;Monomer energy storage device is equipped with the placing chamber;
The flat left chamber of vertical direction, the top chamber and institute are provided between the top chamber and the left side of the bottom cavity
The flat right chamber of vertical direction is provided between the right side for stating bottom cavity;
The vertical chamber, a separate space, left chamber and right chamber are connected with the top chamber and bottom cavity respectively;
The upper intracavitary is provided with heat exchange liquid and enters pipe, and the heat exchange liquid enters pipe and connected with each top chamber;The heat exchange liquid enters pipe
Arrival end be located at the epicoele outside;The lower intracavitary is provided with heat exchange liquid outlet pipe, the heat exchange liquid outlet pipe and each bottom cavity
Connection;The port of export of the heat exchange liquid outlet pipe is located at the outside of the cavity of resorption.
Further, the monomer energy storage device includes being filled with the housing fitted with placement cavity wall, the housing
Phase-changing energy storage material.
Further, woven wire or large aperture foam metal are provided with the housing.
Further, a side surface of the housing is provided with heat transmission fin, and the heat transmission fin extends into the housing
It is internal;
The surface of shell is provided with the side of heat transmission fin towards the outside of the placing chamber.
Further, the epicoele and lower intracavitary are filled with polyurethane foam.
Further, the incubator shell includes hypostracum and outer shell, and the hypostracum and outer shell form vacuum chamber,
The vacuum chamber, which is communicated with, vacuumizes the mouth of pipe.
Further, the top chamber, bottom cavity, vertical chamber, a separate space, left chamber and right chamber are all made up of heat-conducting plate.
Further, the vertical chamber and it is described between separate space, left chamber and right chamber be respectively communicated with.
Further, the hypostracum and outer shell are all heat-insulated plate body.
Beneficial effects of the present invention are:
The present invention is simple in construction, reasonable in design;Some groups of heat accumulation groups are set, the number of heat accumulation group can be set according to demand
Amount, improves stored energy capacitance;The outer surface of incubator shell has waterproof layer, and energy storage device can be wholy set in outdoor, saves
The interior space, reduces cost;Using monomer energy storage device, energy-accumulating medium is conveniently replaceable, is easy to manage and repairs;Push up chamber, bottom cavity,
Vertical chamber, a separate space, left chamber and right chamber wrap up each monomer energy storage device, are convenient for heat exchange, monomer energy storage device
Interior heat can be absorbed when outwards scattering and disappearing by each chamber, it is to avoid energy dissipation;Epicoele and lower intracavitary set respectively heat exchange liquid enter pipe and
Exchange heat liquid outlet pipe, for the heat exchanging liquid that circulates, and is filled with polyurethane foam in epicoele and lower intracavitary, improves heat insulation effect;By
The flow entered in heat exchange liquid at pipe and heat exchange liquid outlet pipe is less than the flow of each intracavitary so that each intracavitary flow velocity is slower, can carry out
More preferable heat exchange;Incubator shell realizes insulation using vacuum chamber, can preferably completely cut off inside and outside heat exchange, it is to avoid energy
Amount is scattered and disappeared.
Brief description of the drawings
In order to illustrate more clearly about the embodiment of the present invention or technical scheme of the prior art, below will be to embodiment or existing
There is the accompanying drawing used required in technology description to be briefly described, it should be apparent that, drawings in the following description are only this
Some embodiments of invention, for those of ordinary skill in the art, on the premise of not paying creative work, can be with
Other accompanying drawings are obtained according to these accompanying drawings.
Fig. 1 is the structural representation of one embodiment of the invention;
Fig. 2 is the structural representation of the heat accumulation group of one embodiment of the invention;
Fig. 3 is the structural representation of the monomer energy storage device of one embodiment of the invention.
Wherein:
1st, incubator shell;2nd, upper spacer;3rd, lower clapboard;4th, epicoele;5th, lumen;6th, cavity of resorption;7th, heat accumulation group;8th, fluid enters
Mouthful;9th, fluid issuing;10th, chamber is pushed up;11st, bottom cavity;12nd, chamber is found;13rd, a separate space;14th, space bar;15th, placing chamber;16th, left chamber;
17th, right chamber;18th, heat exchange liquid enters pipe;19th, exchange heat liquid outlet pipe;20th, housing;21st, woven wire;22nd, heat transmission fin.
Embodiment
Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is carried out clear, complete
Site preparation is described, it is clear that described embodiment is only a part of embodiment of the invention, rather than whole embodiments.It is based on
Embodiment in the present invention, it is every other that those of ordinary skill in the art are obtained under the premise of creative work is not made
Embodiment, belongs to the scope of protection of the invention.
As Figure 1-3, in the present embodiment the outdoor hot energy storage device of Large Copacity, including incubator shell 1, the present embodiment
In, incubator shell 1 be cuboid, the incubator shell 1 include hypostracum and outer shell (not shown), the hypostracum and
Outer shell is all heat-insulated plate body.Hypostracum and outer shell formation the vacuum chamber (not shown), the vacuum chamber is communicated with
Mouth of pipe (not shown) is vacuumized, vacuum chamber can be vacuumized by vacuum orifice, vacuum chamber can play good avoid
The effect of heat transfer, high insulating effect.The outer surface of the incubator shell 1 has waterproof layer (not shown), good
Heat insulation effect and waterproof layer allow the present embodiment to be arranged at open air, save the interior space, reduce cost.
The incubator shell 1 is internally provided with upper spacer 2 and lower clapboard 3, and the upper spacer 2 and lower clapboard 3 will be described
Incubator shell 1 is divided into epicoele 4, lumen 5 and cavity of resorption 6;Some groups of heat accumulation groups 7, the heat accumulation group 7 are provided with the lumen 5
Top fitted with the upper spacer 2, the bottom of the heat accumulation group 7 is fitted with the lower clapboard 3;Some groups of heat accumulation groups 7 are lined up
Gap, the heat accumulation group 7 at queue two ends and the side of the left and right ends of insulation shell 20 are left between a pair of row, adjacent heat accumulation group 7
Gap is left between wall;Heat accumulation group 7 wherein positioned at single digit is fitted with the rear side sidewall of the incubator shell 1, is protected with described
The front side sidewall of incubator shell 1 leaves gap;Wherein pasted positioned at the heat accumulation group 7 of dual number digits with the front side sidewall of the incubator shell 1
Close, gap is left with the rear side sidewall of the incubator shell 1;In the present embodiment, there is provided four groups of heat accumulation groups 7, each heat accumulation group 7 according to
Secondary alternating is fitted setting with the front side sidewall and rear side sidewall of incubator shell 1 so that insulation shell 20 is internally formed zigzag
Passage.
Fluid intake 8 is provided with the side wall fitted with the heat accumulation group 7 of queue head end, the fluid intake 8 is located at queue
Between the heat accumulation group 7 of head end and adjacent left side side wall;Fluid is provided with the side wall fitted with the heat accumulation group 7 of queue tail end to go out
Mouth 9, the fluid issuing 9 is located between the heat accumulation group 7 of queue tail end and adjacent right sidewall.I.e. in the zigzag of formation
The two ends of passage be provided with fluid intake 8 and fluid issuing 9 so that the industrial waste gas for carrying heat enters through fluid intake 8
Enter and flowed in the passage of zigzag, carry out heat exchange with heat accumulation group 7, then discharged from fluid issuing 9.
The heat accumulation group 7 includes flat top chamber 10 and flat bottom cavity 11, the top chamber 10 and the bottom cavity 11
Between be provided with the flat vertical chamber 12 of vertical direction, the vertical chamber 12 is by the sky between the top chamber 10 and the bottom cavity 11
Between be divided into front area and Background Region;If being provided with the flat of dried layer vertical direction between the top chamber 10 and the bottom cavity 11
Separate space 13 between tabular, it is described between separate space 13 by the front area and Background Region be divided into it is some left and right set elongated slots;
Some space bars 14 are provided with the elongated slot, the elongated slot is divided into some placing chambers 15 by some space bars 14;The peace
Put and monomer energy storage device is equipped with chamber 15;The flat of vertical direction is provided between the top chamber 10 and the left side of the bottom cavity 11
The left chamber 16 of tabular, is provided with the flat right chamber 17 of vertical direction between the top chamber 10 and the right side of the bottom cavity 11;
Each chamber wraps up monomer energy storage device, is easy to heat exchange.Here, the top chamber 10, bottom cavity 11, vertical chamber 12, a separate space
13rd, left chamber 16 and right chamber 17 are all made up of heat-conducting plate, are easy to heat transfer.
The vertical chamber 12, a separate space 13, left chamber 16 and right chamber 17 are connected with the top chamber 10 and bottom cavity 11 respectively;On described
Heat exchange liquid is provided with chamber 4 and enters pipe 18, the heat exchange liquid enters pipe 18 and connected with each top chamber 10;The heat exchange liquid enters the entrance of pipe 18
End is positioned at the outside of the epicoele 4;Heat exchange liquid outlet pipe 19, the heat exchange liquid outlet pipe 19 and each bottom cavity are provided with the cavity of resorption 6
11 connections;The port of export of the heat exchange liquid outlet pipe 19 is located at the outside of the cavity of resorption 6.Filled with poly- in the epicoele 4 and cavity of resorption 6
Urethane is foamed (not shown), and heat exchange liquid can both have been entered pipe 18 and heat exchange liquid outlet pipe 19 is fixed by polyurethane foam, again
With extraordinary heat insulation effect.Then heat exchanging liquid can be entered pipe 18 by heat exchange liquid and be entered, through top chamber 10 be distributed to vertical chamber 12,
In separate space 13, left chamber 16 and right chamber 17, bottom cavity 11 is then converged to again, is discharged from heat exchange liquid outlet pipe 19, heat exchanging liquid can be with
Monomer energy storage device carries out sufficient heat exchange.In the present embodiment, the vertical chamber 12 and it is described between separate space 13, left chamber 16 and the right side
Chamber 17 is respectively communicated with so that the heat exchanging liquid of each intracavitary can be uniformly distributed and spread, and improves heat exchange uniformity.
In the present embodiment, the monomer energy storage device includes the housing 20 fitted with the inwall of placing chamber 15, the housing 20
It is interior to be filled with phase-changing energy storage material (not shown);Woven wire 21, or large aperture foam metal are provided with the housing 20,
Strengthen transmission of the hot-fluid in phase-changing energy storage material.One side surface of the housing 20 is provided with heat transmission fin 22, the heat conduction
Fin 22 is extended into inside the housing 20, and the surface of housing 20 is provided with the side of heat transmission fin 22 towards the placing chamber
15 outside, then the heat transmission fin 22 towards the channel side of zigzag can improve the efficiency with heat exchange, and heat is passed
It is handed to inside monomer energy storage device, improves heat exchanger effectiveness.
When the present embodiment works, the industrial waste gas for carrying heat enters through fluid intake 8 and in the passage of zigzag
Flowing, carries out heat exchange with heat accumulation group 7, is then discharged from fluid issuing 9;When reaching specified heat storage capacity, stop injection
Industrial waste gas.During industrial waste gas and heat accumulation group 7 carry out heat exchange, due to heat transmission fin 22 and woven wire 21 or
The setting of large aperture foam metal, substantially increases heat exchange efficiency.
When it is with hot family heat supply to need, heat exchanging liquid enters pipe 18 by heat exchange liquid and entered, and vertical chamber is distributed to by pushing up chamber 10
12nd, in a separate space 13, left chamber 16 and right chamber 17, bottom cavity 11 is then converged to again, is discharged from heat exchange liquid outlet pipe 19, heat exchanging liquid can
To carry out sufficient heat exchange with monomer energy storage device, the heat exchanging liquid for carrying heat can be with hot family direct heating.
The present embodiment sets some groups of heat accumulation groups 7, and the quantity of heat accumulation group 7 can be set according to demand, improves stored energy capacitance;
The outer surface of incubator shell 1 has waterproof layer, and energy storage device can be wholy set in outdoor, saves the interior space, reduces into
This;Using monomer energy storage device, energy-accumulating medium is conveniently replaceable, is easy to manage and repairs;Push up chamber 10, bottom cavity 11, vertical chamber 12, interval
Chamber 13, left chamber 16 and right chamber 17 wrap up each monomer energy storage device, are convenient in heat exchange, monomer energy storage device
Heat can be absorbed when outwards scattering and disappearing by each chamber, it is to avoid energy dissipation;Heat exchange liquid is set to enter the He of pipe 18 respectively in epicoele 4 and cavity of resorption 6
Exchange heat liquid outlet pipe 19, for the heat exchanging liquid that circulates, and is filled with polyurethane foam in epicoele 4 and cavity of resorption 6, improves insulation effect
Really;Because the flow that heat exchange liquid enters at pipe 18 and heat exchange liquid outlet pipe 19 is less than the flow of each intracavitary so that each intracavitary flow velocity is slower,
More preferable heat exchange can be carried out;Incubator shell 1 realizes insulation using vacuum chamber, can preferably completely cut off inside and outside heat and hand over
Change, it is to avoid energy dissipation.
The foregoing is merely illustrative of the preferred embodiments of the present invention, is not intended to limit the invention, all essences in the present invention
God is with principle, and any modification, equivalent substitution and improvements made etc. should be included in the scope of the protection.
Claims (9)
1. the outdoor hot energy storage device of a kind of Large Copacity, it is characterised in that including incubator shell, the appearance mask of the incubator shell
There is waterproof layer;The incubator shell is internally provided with upper spacer and lower clapboard, and the upper spacer and lower clapboard are by the insulation
Case shell is divided into epicoele, lumen and cavity of resorption;
Some groups of heat accumulation groups are provided with the lumen, the top of the heat accumulation group is fitted with the upper spacer, the heat accumulation group
Bottom fitted with the lower clapboard;Some groups of heat accumulation groups are lined up and leave gap, queue two ends between a pair of row, adjacent heat accumulation group
Heat accumulation group and the insulation shell left and right ends side wall between leave gap;Wherein positioned at single digit heat accumulation group with it is described
The rear side sidewall laminating of incubator shell, gap is left with the front side sidewall of the incubator shell;Wherein it is located at the heat accumulation of dual number digits
Group is fitted with the front side sidewall of the incubator shell, and gap is left with the rear side sidewall of the incubator shell;With queue head end
Fluid intake is provided with the side wall of heat accumulation group laminating, the fluid intake is located at the heat accumulation group of queue head end and adjacent left side
Between the wall of side;Fluid issuing is provided with the side wall fitted with the heat accumulation group of queue tail end, the fluid issuing is located at rear of queue
Between the heat accumulation group at end and adjacent right sidewall;
The heat accumulation group includes flat top chamber and flat bottom cavity, and it is vertical to be provided between the top chamber and the bottom cavity
Space between the top chamber and the bottom cavity is divided into front area and rear portion by the flat vertical chamber in direction, the vertical chamber
Region;
If be provided between the top chamber and the bottom cavity dried layer vertical direction it is flat between separate space, it is described between separate space by institute
State front area and Background Region is divided into the elongated slot that some left and right are set;Some space bars are provided with the elongated slot, it is some
The elongated slot is divided into some placing chambers by space bar;Monomer energy storage device is equipped with the placing chamber;
The flat left chamber of vertical direction, the top chamber and the bottom are provided between the top chamber and the left side of the bottom cavity
The flat right chamber of vertical direction is provided between the right side of chamber;
The vertical chamber, a separate space, left chamber and right chamber are connected with the top chamber and bottom cavity respectively;
The upper intracavitary is provided with heat exchange liquid and enters pipe, and the heat exchange liquid enters pipe and connected with each top chamber;The heat exchange liquid enters entering for pipe
Mouth end is located at the outside of the epicoele;The lower intracavitary is provided with heat exchange liquid outlet pipe, and the heat exchange liquid outlet pipe is connected with each bottom cavity;
The port of export of the heat exchange liquid outlet pipe is located at the outside of the cavity of resorption.
2. the outdoor hot energy storage device of Large Copacity as claimed in claim 1, it is characterised in that the monomer energy storage device include with
Dispose and phase-changing energy storage material is filled with the housing of cavity wall laminating, the housing.
3. the outdoor hot energy storage device of Large Copacity as claimed in claim 2, it is characterised in that woven wire is provided with the housing
Or large aperture foam metal.
4. the outdoor hot energy storage device of Large Copacity as claimed in claim 3 a, it is characterised in that side surface of the housing is set
There is heat transmission fin, the heat transmission fin extends into the enclosure interior;
The surface of shell is provided with the side of heat transmission fin towards the outside of the placing chamber.
5. the outdoor hot energy storage device of Large Copacity as claimed in claim 4, it is characterised in that the epicoele and lower intracavitary are filled with
Polyurethane foam.
6. the outdoor hot energy storage device of Large Copacity as claimed in claim 5, it is characterised in that the incubator shell includes hypostracum
And outer shell, hypostracum and outer shell the formation vacuum chamber, the vacuum chamber, which is communicated with, vacuumizes the mouth of pipe.
7. the outdoor hot energy storage device of Large Copacity as claimed in claim 6, it is characterised in that the top chamber, bottom cavity, vertical chamber,
Separate space, left chamber and right chamber are all made up of heat-conducting plate.
8. the outdoor hot energy storage device of Large Copacity as claimed in claim 7, it is characterised in that the vertical chamber and it is described between separate space,
Left chamber and right chamber are respectively communicated with.
9. the outdoor hot energy storage device of Large Copacity as claimed in claim 8, it is characterised in that the hypostracum and outer shell are all
Heat-insulated plate body.
Priority Applications (1)
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CN201710613599.XA CN107289805A (en) | 2017-07-25 | 2017-07-25 | The outdoor hot energy storage device of Large Copacity |
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CN201710613599.XA CN107289805A (en) | 2017-07-25 | 2017-07-25 | The outdoor hot energy storage device of Large Copacity |
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CN108006715A (en) * | 2017-11-24 | 2018-05-08 | 宁波德萨电器制造有限公司 | A kind of fireplace using oven waste heat |
CN108050543A (en) * | 2017-11-24 | 2018-05-18 | 宁波德萨电器制造有限公司 | A kind of fireplace that can utilize oven waste heat |
CN113745609A (en) * | 2021-10-11 | 2021-12-03 | 哈尔滨工业大学(深圳) | Self-hydrogen-generation power generation device for taking water from air |
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CN113745609B (en) * | 2021-10-11 | 2023-12-19 | 哈尔滨工业大学(深圳) | Self-hydrogen-generating power generation device taking water from air |
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