CN106568213A - Solar energy storing heat collector and solar heat collecting system - Google Patents
Solar energy storing heat collector and solar heat collecting system Download PDFInfo
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- CN106568213A CN106568213A CN201610991615.4A CN201610991615A CN106568213A CN 106568213 A CN106568213 A CN 106568213A CN 201610991615 A CN201610991615 A CN 201610991615A CN 106568213 A CN106568213 A CN 106568213A
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24S—SOLAR HEAT COLLECTORS; SOLAR HEAT SYSTEMS
- F24S10/00—Solar heat collectors using working fluids
- F24S10/90—Solar heat collectors using working fluids using internal thermosiphonic circulation
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24S—SOLAR HEAT COLLECTORS; SOLAR HEAT SYSTEMS
- F24S60/00—Arrangements for storing heat collected by solar heat collectors
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- 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
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/40—Solar thermal energy, e.g. solar towers
- Y02E10/44—Heat exchange systems
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Abstract
The invention provides a novel solar heat collector with an energy storing function and a novel solar heat collecting system. Particularly, by adopting a solid energy storing material to store energy, the structure of a traditional solar photothermal power generating system is greatly simplified, the using temperature of a heat transferring medium in the photothermal power generating system is directly raised above 700DEG C, and the power generating efficiency is at least increased above 10%. The problems of high-temperature heat storage and high-temperature heat source are solved for a supercritical carbon dioxide solar photothermal power generating system, and a perfect solution is provided for the coming popularization of supercritical carbon dioxide solar photothermal power generation. The used solid energy storing material of which the energy storing density is very high is a non-corrosive, nontoxic and stable high-quality energy storing material. The material can resist a temperature which is higher than 1000DEG C to an utmost degree, and in a heat radiating process, is nearly constant at more than 700DEG C, so that great help is provided for the thermoelectricity converting efficiency of a power generator and the stability of the system.
Description
Technical field
The invention belongs to solar energy heat utilization technical field, more particularly to a kind of solar energy storage heat collector and solar energy
The technology of collecting system.
Background technology
One side mankind's energy-consuming level is improved constantly, on the other hand conventional fossil energy increasingly depleted, and conventional
The adjoint pollutant emission problem of fossil energy can not increasingly meet people for the demand of future source of energy.Solar energy is used as one kind
Inexhaustible new cleaning fuel, just increasingly obtains the attention of people, for solar energy development just
Increasingly making progress.
Solar electrical energy generation popular at present is broadly divided into two kinds of forms of photovoltaic generation and solar light-heat power-generation.Wherein
Photovoltaic generation adopts solar panel or battery thin film receives sunlight, and luminous energy is changed into electric energy directly, but is sending out
There is very big deficiency in terms of electrical efficiency and battery life.By existing technology point, solar light-heat power-generation then can be divided into slot type too
Positive energy heat generates electricity, butterfly solar electrical energy generation and tower type solar thermal-arrest generate electricity.
Trough type solar power generation is not high due to focusing ratio, and the vapor (steam) temperature of generation is relatively low, therefore generating efficiency system
About.
Butterfly solar electrical energy generation is then made up of multiple scattered small-sized concentrating generation devices, and single-machine capacity is little, same unfavorable
In the raising of overall generating efficiency.
And it is then, using numerous reflectors, large-area sunray to be gathered in one that tower type solar thermal-arrest generates electricity
On heat extractor, therefore very high temperature can be obtained, improve electricity generation system steam initial temperature, obtain higher generating efficiency.
But, for the tower-type electricity generation system of prior art, have and its development constrained with next factor:
1, system structure is complicated, initial investment is big, construction period is long;
2, in existing tower solar-thermal generating system, the energy storage material for being adopted all is fused salt, at present fused salt, which makes
Ceiling temperature is 560 degrees Celsius, and up temperature raising can cause the decomposition of fused salt, cause very big danger in itself to system and fused salt
Evil.
3, molten salt energy-storage material is easy to freeze, once freeze the injury for causing system very big;
4, molten salt energy-storage material has certain corrosivity and energy storage density is little.
In sum, current tower photo-thermal power generation, although focusing ratio is high, but the restriction of energy storage material is limited to, its
The operating temperature of heat-transfer working medium still can drop to less than 560 °, for generating efficiency has a great impact, if also walked traditional
Technology path, then the potentiality of tower photo-thermal power generation are just limited.
And a new technique " supercritical carbon dioxide generating set " is used in photo-thermal power generation, it will be following photo-thermal power generation
Outlet, supercritical CO 2 generating set has excellent characteristic, is mainly manifested in:Its power density is high, small volume, generally
The 1/20~1/30 of steam turbine, only 4 to 6 cubic metres of the equipment of 10 mw scales;Its low cost, initial outlay compare steam turbine
It is low by 30%~40%;It is lower than gas turbine by 20%;Its thermal efficiency is high, reaches as high as 55%;Its simple structure, amount of parts
It is few;Its operating temperature low (compared with gas turbine), low cost;Which belongs to external-combustion engine, it is possible to use pluralities of fuel, energy security
Property it is high;Due to the terseness of supercritical CO 2 circulation, which can be used as the bottoming cycle of combined cycle;Due to supercritical carbon dioxide
Circulation belongs to single-phase circulation (Brayton cycle), and no phase transition process does not use condenser, the quantity of the valve for being used, only
/ 10th of Rankine cycle;Conventional stainless steel material, low cost of manufacture can be used.Supercritical carbon dioxide generating set
Except small volume, it is lightweight in addition to, can also be without using water, be adapted to desert water-deficient area application, be solar light-heat power-generation
Ideal chose, when doing working medium using CO2, does not have that working medium is freezed, and without electric tracing on pipeline, construction is simple, and can
Significantly reduce cost.2011, the U.S. announced to develop a kind of new supercritical carbon dioxide Brayton cycle turbine, and which is high
The characteristic such as efficiency, pollution-free, small volume, becomes the mark post of world's power cycle generation technology, and this new nest wheel machine can be by thermoelectricity
Conversion efficiency improves up to 50% (general only three one-tenth more).
Due to the limitation of existing energy storage technology, the technology of current photo-thermal power generation is difficult supercritical carbon dioxide to be heated to
More than 700 °, and the tower system for adding energy storage of tradition is excessively complicated, transporting resistance of the supercritical carbon dioxide in system pipeline
To be very big, and can also affect application of the new technique in tower photo-thermal power generation.
So, the heat collector and efficient solar thermal collection system of novel efficient and energy energy storage are developed, for reduction
Photo-thermal power generation cost and raising power plant's reliability and popularization in future supercritical carbon dioxide solar power system all have weight
Want strategic importance.
Solar light-heat power-generation is realized into extensive industrialization, most critical still in the breakthrough of technical elements, in heat build-up
To there are technological innovation, technological break-through in mode, need once the technology of the property changed, promote out and out energy technology leather
Life.
The content of the invention
(1) technical problem for solving
1, to solve that existing solar energy tower type solar-thermal generating system structure is excessively complicated, initial investment is big, construction period
Long problem;
2, each side's planar defect of the energy storage material of existing solar energy tower type photo-thermal power generation will be solved;
3, the integration of the heat collector and energy storage material in existing solar energy tower type solar-thermal generating system will be solved;
4, to solve the problems, such as that tower solar-thermal generating system does not need water.In reality, sunlight-heat reaources are than more rich area
All in the area of the water resources shortage such as desert and Gobi desert, some places water is more expensive than oil;So, dry tower photo-thermal power generation
System will be very potential.
5, to solve the problems, such as how the operating temperature of heat-transfer working medium is easily heated to more than 700 degrees Celsius.
(2) technical scheme
In order to solve above-mentioned technical problem, following technical proposal is present invention employs:
Scheme one:
A kind of solar energy storage heat collector, including energy storing collector, described energy storing collector is in integrally a bar shape, is wrapped
Include:Heat exchange cavity, heated body, storage body, heat pipe, energy-accumulation material, thermal insulation layer, movable heat insulation cover, it is characterised in that:
Heat exchange cavity, the heat exchange cavity are arranged on the bottom of energy storing collector, are provided with fluid issuing and fluid enters
Mouthful;
Heated body, the heated body are arranged on the top of energy storing collector, including a heating surface, carry out self-reflection for receiving
The photo-thermal that mirror is focused on;
Storage body, the storage body are arranged between described heat exchange cavity and heated body, for storing heat;
Heat pipe, if being somebody's turn to do dry heat pipe after described storage body, its radiating segment is in heat exchanging chamber body, and its endotherm section is then located
It is being heated in vivo or is being connected as a single entity with which;
Energy-accumulation material, the energy-accumulation material are arranged in accumulation of energy body, and the heat pipe tight being in which is lived;
Thermal insulation layer, the thermal insulation layer are arranged on all outer in addition to the heating surface on heated body, fluid issuing and fluid inlet
On surface;
Movable heat insulation cover, the movable heat insulation cover can be covered on described heating surface as needed, formed to exposed
The thermal insulation function of heating surface, and can be by its folding of remotely control.Generally, the cavity that exchanges heat is a kind of by heat pipe offer heat
A kind of heat exchanger in source, its internal heat structure can have various similar to traditional various heat exchanger structures, and such as tubular type is changed
Hot device, spiral type plate type heat exchanger etc., for those of ordinary skill in the art, in the premise for not paying creative work
Under, the heat exchange cavity of different type structure can be designed, the power for just crossing this technology is not represented to be described according to these
Limit.Heat pipe in the design, is a kind of extraordinary heat pipe, and the heat transfer medium inside heat pipe is mixed using various inorganic material,
What this heat transfer medium formula was invented by physicist Qu Yuzhi, formula and manufacturing method of thermotube are shown in the patent No.
(01120356.0).This kind of heat pipe is laterally and vertical placement does not affect heat-transfer effect, and substantially isothermal heat transfer, and which is resistance to
The limit of temperature is more than 1500 degrees Celsius, and heat transfer rate is more than at least thousand of compensations of silver.The heat pipe at home production and with
Obtain and extensively apply.
Scheme two:
A kind of solar energy storage heat collector, including energy storing collector, described energy storing collector is in integrally a bar shape, is wrapped
Include:Heat exchange cavity, heated body, storage body, heat pipe, energy-accumulation material, thermal insulation layer, movable heat insulation cover, it is characterised in that:
Heat exchange cavity, the heat exchange cavity is arranged between heated body and storage body, on the outside of which on be provided with fluid issuing and
Fluid inlet;
Heated body, the heated body are arranged on the top of energy storing collector, including a heating surface, carry out self-reflection for receiving
The photo-thermal that mirror is focused on;
Storage body, the storage body are arranged on the bottom of energy storing collector, for storing heat;
Heat pipe, if should dry heat pipe in the described storage body and heat exchanging chamber body, its endotherm section be then in be heated in vivo or
It is connected as a single entity with which;
Energy-accumulation material, the energy-accumulation material are arranged in accumulation of energy body, and the heat pipe tight being in which is lived;
Thermal insulation layer, the thermal insulation layer are arranged on all outer in addition to the heating surface on heated body, fluid issuing and fluid inlet
On surface;
Movable heat insulation cover, the movable heat insulation cover can be covered on described heating surface as needed, formed to exposed
The thermal insulation function of heating surface, and can be by its folding of remotely control.Generally, movable heat insulation cover is when the evening draws on
Wait, begin to shut off, in case heat scatters and disappears, at this time the energy of electromotor is endlessly supplied by energy-accumulation material.Simultaneously as
Energy storing collector is in the top of tower body, and the movements design of its folding is into long-distance centralized control.
In a kind of above-mentioned solar energy storage heat collector, it is characterised in that described heat exchange cavity is rolled by one block of steel plate
Into a single-screw shape runner, and after the two ends of single-screw shape runner are respectively welded with upper cover plate and lower cover, forming one can
For the single-screw runner that fluid passes through, one end of described single-screw runner connects described fluid issuing, and the other end then connects
Fluid inlet, the radiating segment of described heat pipe are uniformly arranged in described single-screw runner after described lower cover, institute
Heat transmission fin is provided with the outer surface of the radiating segment stated.In fact, heat exchange cavity can also be existed by two single-screw shape runners
The inner is mutually communicated, and forms a structure similar to the unidirectional runner of Double-spiral, and now fluid issuing and fluid inlet exist
The both sides of heat exchange cavity.
In a kind of above-mentioned solar energy storage heat collector, it is characterised in that described heated body is by resistant to elevated temperatures steel alloy
Make, overall dish-shaped, both are by being welded to connect, described after heated body body for the termination of the endotherm section of described heat pipe
Heating surface on and to expose and be provided with high temperature resistant heat absorbing coating on the surface of the endotherm section outside heating surface.Generally, absorb heat
Coating adopts the high temperature lacquer of the Pyromark2500 of U.S. Tian Bao (Tempil) as the high temperature resistant heat absorbing coating of this technology, its painting
Layer can bear 1093 DEG C.Generally, such termination for designing the endotherm section for alloing heat pipe directly receives sunlight
Heat build-up, increases the surface area of heating surface, more conducively quickly conducts heat and improves heat build-up efficiency.
In a kind of above-mentioned solar energy storage heat collector, it is characterised in that described heated body is in integrally a bar shape, interior
Portion is provided with a hollow airtight cavity, and the endotherm section of described heat pipe is arranged in cavity, the upper surface of described heating surface
High temperature resistant heat absorbing coating is provided with, some heat carriers are welded with its bottom surface, in described cavity, heat transfer medium is also filled with.It is logical
Often, some heat carriers are welded on the reverse side of heating surface, on the one hand cavity is quickly introduced beneficial to the heat for receiving heating surface
It is interior and heat is quickly absorbed by the endotherm section of heat pipe, wherein, heat transfer medium is heated first, on the other hand, it is possible to reduce passed
The volume of thermal medium, to reduce the cost of heat transfer medium, when particularly using relatively valuable heat transfer medium.
In a kind of above-mentioned solar energy storage heat collector, it is characterised in that described heat transfer medium is a kind of tin alloy.Stannum
Fusing point there was only 231 DEG C, and boiling point reaches 2000 DEG C, and the pressure for running only has 5bar or so, is highly suitable as high temperature biography
Thermal medium.
In a kind of above-mentioned solar energy storage heat collector, it is characterised in that described energy-accumulation material is a kind of solid-state high temperature
Energy-accumulation material, is mainly made up of inorganics such as magnesium oxide, iron sesquioxide, ferrum oxides.Highest heatproof can be Celsius up to more than 1000
Degree.Generally, the proportioning of the compound of this kind of solid-state energy-accumulation material is consisted of:64%MgO, 22.5%Fe2O3,9.5%FeO, its
It is remaining for water, after this several material is sufficiently mixed, through certain pressure forming, and dry under 250 celsius temperatures and make
Obtain finished product., in the transformation process of heat release and accumulation of heat, its change in volume is minimum for this solid-state energy-accumulation material, can ignore its volume
Change.Its unit weight is 3140Kg/m3, and specific heat is high, is the high-quality energy-accumulation material of a kind of non-corrosiveness, nontoxic, stable performance,
, during heat release, temperature is almost constant at more than 700 degrees Celsius for which, and this thermoelectric conversion efficiency and stability to electromotor will
It is very helpful.
In a kind of above-mentioned solar energy storage heat collector, it is characterised in that described heating surface upper surface portion is additionally provided with one
The resistant to elevated temperatures glass catch of all-transparent.Generally, at the light inlet window of heated body, it is additionally provided with a resistant to elevated temperatures clear glass
Piece, in case heat scatter and disappear and protect heat-collecting head not polluted by dust.
A kind of solar thermal collection system, including the energy storing collector described in claim 1-8, heliostat, quadratic surface be anti-
Penetrate mirror, pylon, mirror station control system, it is characterised in that Mirrors with second order surface is arranged on the top of pylon, and heliostat is with pylon
Centered on be distributed on the surrounding ground of pylon layer by layer in concentric circles, described energy storing collector stand upright on the centre of pylon and
Its heating surface face up the Mirrors with second order surface for being in described focus point on, mirror is controlled by described mirror station control system
All of heliostat in, on described Mirrors with second order surface, then sunlight is reflexed to, and Jing Mirrors with second order surface will
To on described heating surface, the energy-accumulation material in the heat of high temperature Jing accumulation of energy body of generation is stored solar light focusing, according to need
Will, heat is transferred out after heat exchanging chamber body heat is exchanged.
In a kind of above-mentioned solar thermal collection system, it is characterised in that be provided with one on the center ground of described pylon
Similar to the rail on railway, a slide rail vehicle frame on described rail, is provided with, is provided with described slide rail vehicle frame multiple straight
Vertical and closely arranged in columns energy storing collector, described slide rail vehicle frame also configures that a dynamic traction device, by power traction
The traction of device so that multiple upright and energy storing collector closely arranged in columns can be back and forth moved back on described rail
It is dynamic, and traction can ensure after pausing that the heating surface of one of energy storing collector is in described Mirrors with second order surface every time
Focus point on.Generally, the energy storage capacity of an energy storing collector is inadequate, even if much of that, then the volume of energy storing collector is excessively
It is huge and have influence on manufacturing process, so needing multiple energy storing collectors, as reflecting mirror is fixed, most it is exactly reasonably to move
Dynamic energy storing collector, so this programme can allow multiple energy storing collectors heat accumulation in turn.If, a kind of solar energy of this programme
Collecting system and supercritical carbon dioxide generating set are combined into a set of SC02 electricity generation systems, then supercritical carbon dioxide is sent out
Group of motors is also placed on slide rail vehicle frame, allows generating set to move with energy storing collector, so ensures all and generating set
The conveyance conduit of connection can be connected with hard tube, and avoid hose connection, because, the work of supercritical carbon dioxide electricity generation system
Matter pressure ratio is higher, and the sealing of general flexible pipe to working medium is difficult.
(3) beneficial effect
The above-mentioned technical proposal of the present invention has the advantages that:
A kind of novel solar collector with energy-storage function and new type solar collecting system that the present invention is provided, especially
Which is to carry out energy storage using energy-accumulating solid material, and the system for greatly simplifying traditional solar light-heat power-generation is constituted, and photo-thermal can be sent out
The use temperature of the heat-transfer working medium in electric system, is directly promoted to more than 700 degrees Celsius, at least lifted generating efficiency 10% with
On.High temperature energy-storage and high temperature heat source will be solved the problems, such as supercritical carbon dioxide solar light-heat power-generation system, being will
The popularization of the supercritical carbon dioxide solar light-heat power-generation of arrival, there is provided a perfect solution.
Description of the drawings
For the technical scheme being illustrated more clearly that in the embodiment of the present invention, below will be to making needed for embodiment description
Accompanying drawing is briefly described, it should be apparent that, drawings in the following description are only some embodiments of the present invention, for
For those of ordinary skill in the art, on the premise of not paying creative work, can be obtaining other according to these accompanying drawings
Accompanying drawing.Accompanying drawing only provides reference and illustrates to use, not for being any limitation as to the present invention.
Fig. 1 is a kind of structural representation of solar energy storage heat collector of the embodiment 1 that the present invention is provided;
Fig. 2 is a kind of structural representation of solar energy storage heat collector of the embodiment 2 that the present invention is provided;
Fig. 3 is a kind of structural representation of solar energy storage heat collector of the embodiment 3 that the present invention is provided;
Fig. 4 is a kind of structural representation of solar energy storage heat collector of the embodiment 4 that the present invention is provided;
Fig. 5 is a kind of structural representation of solar thermal collection system of the embodiment 5 that the present invention is provided;
Fig. 6 is to be placed on a track sled after several energy storing collectors for the embodiment 5 that the present invention is provided are formed a line side by side
Structural representation on frame.
In figure, energy storing collector 1, heat exchange cavity 2, heated body 3, storage body 4, heat pipe 5, energy-accumulation material 6, thermal insulation layer 7, work
Dynamic insulation cover 8, heat transfer medium 9, heliostat 10, Mirrors with second order surface 11, pylon 12, mirror station control system 13, rail 14, cunning
Rail vehicle frame 15, dynamic traction device 16, fluid issuing 20, fluid inlet 21, upper cover plate 22, lower cover 23, single-screw runner 24,
Heating surface 30, high temperature resistant heat absorbing coating 31, cavity 32, heat carrier 33, glass catch 34, endotherm section 50, radiating segment 51, heat conduction wing
Piece 52.
Specific embodiment
With reference to the accompanying drawings and examples embodiments of the present invention are described in further detail.Following examples are used for
The present invention is illustrated, but can not be used for limiting the scope of the present invention.
In describing the invention, it should be noted that unless otherwise stated, " some " be meant that one or one with
On.
In describing the invention, in addition it is also necessary to explanation, unless otherwise clearly defined and limited, term " connection " should
It is interpreted broadly, for example, it may be being fixedly connected, or being detachably connected, or is integrally connected;Can be that machinery connects
Connect, or electrically connect;Can be joined directly together, it is also possible to be indirectly connected to by intermediary.It is common for this area
For technical staff, visual concrete condition understands above-mentioned term concrete meaning in the present invention.
Embodiment 1:
As shown in figure 1, a kind of solar energy storage heat collector, including energy storing collector 1, which is in integrally a bar shape, including:
Heat exchange cavity 2, heated body 3, storage body 4, heat pipe 5, energy-accumulation material 6, thermal insulation layer 7, movable heat insulation cover 8.Wherein, exchange heat cavity 2
The bottom of energy storing collector 1 is arranged on, fluid issuing 20 and fluid inlet 21 is provided with;Heated body 3 is arranged on energy storage collection
The top of hot device 1, including a heating surface 30, for receiving the photo-thermal from focusing mirror;Storage body 4 is arranged on described
Between heat exchange cavity 2 and heated body 3, for storing heat;If after dry heat pipe 5 is after 4 body of storage body, at its radiating segment 51
In heat exchange cavity 2, its endotherm section 50 is then in heated body 3 or is connected as a single entity with which;Energy-accumulation material 6 is arranged on storage body 4
It is interior, and 5 tight of heat pipe being in which is lived;Thermal insulation layer 7 is arranged on except the heating surface 30, fluid issuing on heated body 3
20 and fluid inlet 21 outside all outer surfaces on;Movable heat insulation cover 8 can be covered on heating surface 30 as needed, and it is right to be formed
The thermal insulation function of exposed heating surface 30, and can be by its folding of remotely control.Movable heat insulation cover 8 the evening draws on or
When energy storage is finished, begin to shut off, in case heat scatter and disappear, at this time the energy of electromotor by energy-accumulation material 6 endlessly
Supply.
In the present embodiment, heat exchange cavity 2 rolls into a single-screw shape runner by one block of steel plate, and in single-screw shape runner
Two ends be respectively welded with upper cover plate 22 and lower cover 23 after, formed a single-screw runner 24 for being available for fluid to pass through, single-screw
Fluid issuing 20 described in one end connection of runner 24, the other end then connecting fluid import 21, under the radiating segment 51 of heat pipe 5 runs through
It is uniformly arranged on after cover plate 23 in single-screw runner 24, on the outer surface of radiating segment 51, is provided with heat transmission fin 52.
In the present embodiment, heated body 3 is made up of resistant to elevated temperatures steel alloy, overall dish-shaped, the end of the endotherm section 50 of heat pipe 5
Both, by being welded to connect, on heating surface 30 and expose endotherm section 50 outside heating surface 30 to head after 3 body of heated body
Surface on be provided with high temperature resistant heat absorbing coating 31.
In the present embodiment, high temperature lacquer of the high temperature resistant heat absorbing coating 31 using the Pyromark2500 of U.S. Tian Bao (Tempil)
Used as the high temperature resistant heat absorbing coating of this technology, its coating can bear 1093 DEG C.
In the present embodiment, the heat pipe 5 for being adopted is a kind of extraordinary heat pipe, and the heat transfer medium inside heat pipe 5 is using various nothings
Machine material mixing is formed, what this heat transfer medium formula was invented by physicist Qu Yuzhi, and formula and manufacturing method of thermotube are shown in specially
Sharp number (01120356.0).This kind of heat pipe is laterally and vertical placement does not affect heat-transfer effect, and substantially isothermal heat transfer,
The limit of its heatproof is more than 1500 degrees Celsius, and heat transfer rate is more than at least thousand of compensations of silver.The heat pipe is produced at home
And extensively applied with obtaining.
In the present embodiment, energy-accumulation material 6 is a kind of solid-state high temperature energy-accumulation material, mainly by magnesium oxide, iron sesquioxide, oxygen
Change the inorganics such as ferrum composition, highest heatproof can be up to more than 1000 degrees Celsius.Generally, the compound of this kind of solid-state energy-accumulation material is matched somebody with somebody
Than consisting of:64%MgO, 22.5%Fe2O3,9.5%FeO, remaining is water, after this several material is sufficiently mixed, Jing Guoyi
Fixed pressure forming, and drying is finished product under 250 celsius temperatures.This solid-state energy-accumulation material is in heat release and accumulation of heat
In transformation process, its change in volume is minimum, can ignore the change of its volume.Its unit weight is 3140Kg/m3, and specific heat is high, is
A kind of non-corrosiveness, the high-quality energy-accumulation material of nontoxic, stable performance, its raw material for using of making widely and commonly, valency
Lattice are low.
In the present embodiment, 30 upper surface portion of heating surface is additionally provided with the resistant to elevated temperatures glass catch 34 of an all-transparent.
Embodiment 2:
As shown in Fig. 2 heated body 3 is overall to be internally provided with a hollow airtight cavity 32 in a bar shape, heat pipe 5
Endotherm section 50 is arranged in cavity 32, and the upper surface of heating surface 30 is provided with high temperature resistant heat absorbing coating 31, is welded with its bottom surface
Some heat carriers 33, are also filled with heat transfer medium 9 in cavity 32, heat transfer medium 9 is a kind of tin alloy.Other and embodiment 1
Equally, this is no longer going to repeat them.
Embodiment 3:
As shown in figure 3, a kind of solar energy storage heat collector, including energy storing collector 1, which is in integrally a bar shape, including:
Heat exchange cavity 2, heated body 3, storage body 4, heat pipe 5, energy-accumulation material 6, thermal insulation layer 7, movable heat insulation cover 8, wherein:Heat exchange cavity 2
Be arranged between heated body 3 and storage body 4, on the outside of which on be provided with fluid issuing 20 and fluid inlet 21;Heated body 3 is arranged on
The top of energy storing collector 1, including a heating surface 30, for receiving the photo-thermal from focusing mirror;Storage body 4 is arranged on
The bottom of energy storing collector 1, for storing heat;If dry heat pipe 5 is after heat exchange 4 body of cavity 2 and storage body, its endotherm section
50 are in heated body 3 or are connected as a single entity with which;Energy-accumulation material 6 is arranged in storage body 4, and the heat pipe 5 being in which
Tight is lived;Thermal insulation layer 7 is arranged on all in addition to the heating surface 30 on heated body 3, fluid issuing 20 and fluid inlet 21
On outer surface;Movable heat insulation cover 8 can be covered on heating surface 30 as needed, form the heat-insulated guarantor to exposed heating surface 30
Temperature effect, and can be by its folding of remotely control.Movable heat insulation cover 8 when the evening draws on or energy storage is finished starts to close
Close, in case heat scatters and disappears, at this time the energy of electromotor is endlessly supplied by energy-accumulation material 6.
In the present embodiment, it is in a bar shape that heated body 3 is overall, is internally provided with a hollow airtight cavity 32, heat pipe 5
Endotherm section 50 is arranged in cavity 32, and the upper surface of heating surface 30 is provided with high temperature resistant heat absorbing coating 31, is welded with its bottom surface
Some heat carriers 33, are also filled with heat transfer medium 9 in cavity 32, heat transfer medium 9 is a kind of tin alloy.
In the present embodiment, the heat pipe 5 for being adopted is a kind of extraordinary heat pipe, and the heat transfer medium inside heat pipe 5 is using various nothings
Machine material mixing is formed, what this heat transfer medium formula was invented by physicist Qu Yuzhi, and formula and manufacturing method of thermotube are shown in specially
Sharp number (01120356.0).This kind of heat pipe is laterally and vertical placement does not affect heat-transfer effect, and substantially isothermal heat transfer,
The limit of its heatproof is more than 1500 degrees Celsius, and heat transfer rate is more than at least thousand of compensations of silver.The heat pipe is produced at home
And extensively applied with obtaining.
In the present embodiment, energy-accumulation material 6 is a kind of solid high-temperature energy-accumulation material, mainly by magnesium oxide, iron sesquioxide, oxygen
Change the inorganics such as ferrum composition, highest heatproof can be up to more than 1000 degrees Celsius.Generally, the compound of this kind of solid-state energy-accumulation material is matched somebody with somebody
Than consisting of:
64%MgO, 22.5%Fe2O3,9.5%FeO, remaining is water, after this several material is sufficiently mixed, through certain
Pressure forming, and drying is finished product under 250 celsius temperatures.This solid-state energy-accumulation material turning in heat release and accumulation of heat
During changing, its change in volume is minimum, can ignore the change of its volume.Its unit weight is 3140Kg/m3, and specific heat is high, is one
Kind of non-corrosiveness, the high-quality energy-accumulation material of nontoxic, stable performance, the raw material that its making is used widely and commonly, price
It is low.
In the present embodiment, 30 upper surface portion of heating surface is additionally provided with the resistant to elevated temperatures glass catch 34 of an all-transparent.
Embodiment 4:
As shown in figure 4, heated body 3 is made up of resistant to elevated temperatures steel alloy, overall dish-shaped, the end of the endotherm section 50 of heat pipe 5
Both, by being welded to connect, on heating surface 30 and expose endotherm section 50 outside heating surface 30 to head after 3 body of heated body
Surface on be provided with high temperature resistant heat absorbing coating 31.It is other as embodiment 3, this is no longer going to repeat them.
Embodiment 5:
As shown in Figure 5 and Figure 6, a kind of solar thermal collection system, including it is the energy storing collector 1 described in claim 1-8, fixed
Solar eyepiece 10, Mirrors with second order surface 11, pylon 12, mirror station control system 13, Mirrors with second order surface 11 are arranged on pylon 12
Top, some heliostats 10 are distributed on the surrounding ground of pylon 12 layer by layer in concentric circles centered on pylon 12, energy storage collection
Hot device 1 stands upright on the centre of pylon and its heating surface 30 faces up and is on the focus point of Mirrors with second order surface 11, by mirror
All of heliostat 10 in the control mirror of station control system 13 field, sunlight is reflexed on described Mirrors with second order surface 11,
Then, Jing Mirrors with second order surface 11 is by the storage on solar light focusing to heating surface 30, in the heat of high temperature Jing storage body 4 of generation
Energy material 6 is stored, and as needed, transfers out heat after 2 heat exchange of cavity that exchanges heat.
In the present embodiment, one is provided with the center ground of pylon 12 similar to the rail 14 on railway, is set on rail 14
A slide rail vehicle frame 15 is equipped with, multiple upright and closely arranged in columns energy storing collectors 1, slide rail vehicle frame on slide rail vehicle frame 15, is provided with
15 also configure that a dynamic traction device 16, by the traction of dynamic traction device 16 so that multiple upright and closely arranged in columns
Energy storing collector 1 can back and forth move back and forth on rail 14, and every time traction can ensure one of energy storage after pausing
The heating surface 30 of heat collector 1 is on the focus point of Mirrors with second order surface 11.
Embodiments of the invention in order to example and description for the sake of and be given, and be not exhaustively or by this
It is bright to be limited to disclosed form.Many modifications and variations are obvious for the ordinary skill in the art.Choosing
It is, for the principle and practical application that more preferably illustrate the present invention, and to make one of ordinary skill in the art to select and describe embodiment
It will be appreciated that the present invention is so as to designing the various embodiments with various modifications for being suitable to special-purpose.
Specific embodiment described herein is only explanation for example spiritual to the present invention.Technology neck belonging to of the invention
The technical staff in domain can be made various modifications or supplement or replaced using similar mode to described specific embodiment
Generation, but without departing from the spiritual of the present invention or surmount scope defined in appended claims.
Although more used herein energy storing collector, heat exchange cavity, heated body, storage body, heat pipe, energy-accumulation material,
Thermal insulation layer, movable heat insulation cover, heat transfer medium, heliostat, Mirrors with second order surface, pylon, mirror station control system, rail, slide rail
Vehicle frame, dynamic traction device, fluid issuing, fluid inlet, upper cover plate, lower cover, single-screw runner, heating surface, high temperature resistant are inhaled
The terms such as hot coating, cavity, heat carrier, glass catch, endotherm section, radiating segment, heat transmission fin, but be not precluded from using other arts
The probability of language.It is used for the purpose of more easily describing and explaining the essence of the present invention using these terms;It is construed as
Any additional restriction is all contrary with spirit of the invention.
Claims (10)
1. a kind of solar energy storage heat collector, including energy storing collector (1), described energy storing collector (1) are in integrally a cylinder
Shape, including:Heat exchange cavity (2), heated body (3), storage body (4), heat pipe (5), energy-accumulation material (6), thermal insulation layer (7), activity are protected
Temperature lid (8), it is characterised in that:
Heat exchange cavity (2), the heat exchange cavity (2) are arranged on the bottom of energy storing collector (1), are provided with fluid issuing (20)
With fluid inlet (21);
Heated body (3), the heated body (3) are arranged on the top of energy storing collector (1), including a heating surface (30), for connecing
Receive the photo-thermal from focusing mirror;
Storage body (4), the storage body (4) are arranged between described heat exchange cavity (2) and heated body (3), for storing heat;
Heat pipe (5), if being somebody's turn to do dry heat pipe (5) after described storage body (4), its radiating segment (51) is in heat exchange cavity (2),
Its endotherm section (50) is then in heated body (3) or is connected as a single entity with which;
Energy-accumulation material (6), the energy-accumulation material (6) are arranged in storage body (4), and heat pipe (5) tight being in which
Firmly;
Thermal insulation layer (7), the thermal insulation layer (7) are arranged on and enter except the heating surface (30) on heated body (3), fluid issuing (20) and fluid
On mouth (21) all outer surfaces outward;
Movable heat insulation cover (8), the movable heat insulation cover (8) can be covered on described heating surface (30) as needed, and it is right to be formed
The thermal insulation function of exposed heating surface (30), and photo-thermal can be received in heating surface (30) by its folding of remotely control
When be open.
2. a kind of solar energy storage heat collector, including energy storing collector (1), described energy storing collector (1) are in integrally a cylinder
Shape, including:Heat exchange cavity (2), heated body (3), storage body (4), heat pipe (5), energy-accumulation material (6), thermal insulation layer (7), activity are protected
Temperature lid (8), it is characterised in that:
Heat exchange cavity (2), the heat exchange cavity (2) is arranged between heated body (3) and storage body (4), on the outside of which on be provided with stream
Body exports (20) and fluid inlet (21);
Heated body (3), the heated body (3) are arranged on the top of energy storing collector (1), including a heating surface (30), for connecing
Receive the photo-thermal from focusing mirror;
Storage body (4), the storage body (4) are arranged on the bottom of energy storing collector (1), for storing heat;
Heat pipe (5), if the dry heat pipe (5) is after described heat exchange cavity (2) and storage body (4) body, its endotherm section (50)
Then it is in heated body (3) or is connected as a single entity with which;
Energy-accumulation material (6), the energy-accumulation material (6) are arranged in storage body (4), and heat pipe (5) tight being in which
Firmly;
Thermal insulation layer (7), the thermal insulation layer (7) are arranged on and enter except the heating surface (30) on heated body (3), fluid issuing (20) and fluid
On mouth (21) all outer surfaces outward;
Movable heat insulation cover (8), the movable heat insulation cover (8) can be covered on described heating surface (30) as needed, and it is right to be formed
The thermal insulation function of exposed heating surface (30), and photo-thermal can be received in heating surface (30) by its folding of remotely control
When be open.
3. a kind of solar energy storage heat collector according to claim 1, it is characterised in that described heat exchange cavity (2) by
One block of steel plate rolls into a single-screw shape runner, and is respectively welded with upper cover plate (22) and lower cover at the two ends of single-screw shape runner
After plate (23), a single-screw runner (24) for being available for fluid to pass through is formed, one end of described single-screw runner (24) connects
Described fluid issuing (20), the other end then connecting fluid import (21), the radiating segment (51) of described heat pipe (5) is through described
Lower cover (23) after be uniformly arranged in described single-screw runner (24), arrange on the outer surface of described radiating segment (51)
There is heat transmission fin (52).
4. a kind of solar energy storage heat collector according to claim 1 and 2, it is characterised in that described heated body (3) by
Resistant to elevated temperatures steel alloy is made, overall dish-shaped, the termination of the endotherm section (50) of described heat pipe (5) through heated body (3) this
After body, both on described heating surface (30) and expose the table of heating surface (30) endotherm section (50) outward by being welded to connect
High temperature resistant heat absorbing coating (31) is provided with face.
5. a kind of solar energy storage heat collector according to claim 1 and 2, it is characterised in that described heated body (3) is whole
Body is in a bar shape, is internally provided with a hollow airtight cavity (32), and the endotherm section (50) of described heat pipe (5) is arranged on chamber
In body (32), the upper surface of described heating surface (30) is provided with high temperature resistant heat absorbing coating (31), is welded with some on its bottom surface
Heat carrier (33), is also filled with heat transfer medium (9) in described cavity (32).
6. a kind of solar energy storage heat collector according to claim 5, it is characterised in that described heat transfer medium (9) is
A kind of tin alloy.
7. a kind of solar energy storage heat collector according to claim 1 and 2, it is characterised in that described energy-accumulation material (6)
It is a kind of solid high-temperature energy-accumulation material, is mainly made up of inorganics such as magnesium oxide, iron sesquioxide, ferrum oxides.
8. a kind of solar energy storage heat collector according to claim 1 and 2, it is characterised in that described heating surface (30)
Upper surface portion is additionally provided with the resistant to elevated temperatures glass catch (34) of an all-transparent.
9. a kind of solar thermal collection system, including the energy storing collector (1) described in claim 1-8, heliostat (10), secondary song
Face reflecting mirror (11), pylon (12), mirror station control system (13), it is characterised in that Mirrors with second order surface (11) is arranged on tower
The top of frame (12), heliostat (10) are distributed in the surrounding of pylon (12), institute centered on pylon (12) layer by layer in concentric circles
The energy storing collector (1) stated stands upright on the centre of pylon (12) and its heating surface (30) faces up, and to be in described quadratic surface anti-
Penetrate on the focus point of mirror (11), all of heliostat (10) in mirror field is controlled by described mirror station control system (13), will too
Sunlight is reflexed on described Mirrors with second order surface (11), and then, solar light focusing is arrived by Jing Mirrors with second order surface (11)
On described heating surface (30), the energy-accumulation material (6) in the heat of high temperature Jing storage body (4) of generation is stored, as needed,
Heat is transferred out after cavity (2) heat exchange that exchanges heat.
10. a kind of solar thermal collection system according to claim 9, it is characterised in that the center of described pylon (12)
One is provided with ground similar to the rail (14) on railway, a slide rail vehicle frame (15), institute on described rail (14), is provided with
Multiple upright and closely arranged in columns energy storing collectors (1), described slide rail vehicle frame are provided with the slide rail vehicle frame (15) stated
(15) a dynamic traction device (16) is also configured that, by the traction of dynamic traction device (16) so that multiple upright and tight
Energy storing collector (1) arranged in columns can back and forth move back and forth on described rail (14), and traction can after pausing every time
Ensure on focus point of the heating surface (30) of one of energy storing collector (1) in described Mirrors with second order surface (11).
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