CN110375436A

CN110375436A - Solid heat storage device with space three-dimensional multiple branch circuit parallel ventilation branch system

Info

Publication number: CN110375436A
Application number: CN201910788924.5A
Authority: CN
Inventors: 周封; 郝婷; 刘小可; 李伟力
Original assignee: Jinan Shipurun Energy Conservation And Environmental Protection Technology Co Ltd
Current assignee: Jinan Shipurun Energy Conservation And Environmental Protection Technology Co Ltd
Priority date: 2019-08-26
Filing date: 2019-08-26
Publication date: 2019-10-25

Abstract

The invention proposes a kind of solid heat storage devices with space three-dimensional multiple branch circuit parallel ventilation branch system, belong to heat storage technology field.Including horizontal channel, vertical air intake passage, vertical air-out passage, ventilation terminal, airstream deflector, inlet air plenum, out air compartment etc..Inlet air plenum is arranged, the temperature of fireproof heat-insulating brick and bottom gitter brick is effectively reduced using the lower advantage of inlet air temperature in bottom, improves the service life of fireproof heat-insulating brick and bottom gitter brick.It is staggered using vertical air intake passage and vertical air-out passage and constitutes main wind path, horizontal channel constitutes multiple-limb parallel branch, establish 3 D stereo air path system, the air inlet temperature difference can be balanced, increases heat exchange area, reduces temperature gradient, promotes heat exchange flowing, balanced duct pressure, to the heat exchange inside balanced heat storage, it significantly reduces between different gitter bricks and the temperature difference at same gitter brick different spaces position, improves regenerative capacity, heat absorption exothermal efficiency and dynamic response performance.

Description

Solid heat storage device with space three-dimensional multiple branch circuit parallel ventilation branch system

Technical field

The present invention relates to a kind of solid heat storage devices, especially with the solid of space three-dimensional multiple branch circuit parallel ventilation branch system Regenerative apparatus.Belong to heat storage technology field.

Background technique

In current solid heat storage device, lack the whole design and consideration to the ventilation heat exchange system inside heat storage. In the prior art, the air channel structure formed inside heat storage is substantially two-dimensional structure, than it is more typical and commonly used be Replace orthogonal air channel structure on horizontal plane, its main feature is that every air duct is independently through entire heat storage and complete between each other Full isolation, heating wire are normally in multiple groups parallel channels therein.Obviously, such structure will lead to every heat exchanging air duct The problems such as head and the tail temperature difference is larger, the heating wire temperature difference also resulted in different channels is excessively high.

The cloth wind mode of heat storage, and internal air path system structure, all can be to the temperature of entire heat storage each section Distribution has an impact.As Chinese patent " solid heat storage device air-flow guide frame (application number: 201720221364.1) ", Air outlet pipeline is equipped at housing inlet port, the air outlet of air outlet pipeline is in step arrangement, to the interior ventilating duct of solid heat storage material layer Carry out cloth wind；Meanwhile it being equipped with inclined gas-flow deflector at housing outlets top, so that the heat in each layer of solid heat storage material Amount uniformly, adequately discharges.Although the patent solves solid heat storage material layer, that is, common accumulation of heat to a certain extent The inlet air temperature equilibrium and outlet air pressure balance problem of body, but improvement is not made to the wind path inside heat storage, still can not Avoid there are the excessive and unbalanced problems of internal difference in temperature.

Inside heat storage between different gitter bricks and the excessive temperature differentials at same gitter brick different spaces position, it can reduce Whole regenerator temperature reduces hold over system efficiency and dynamic response to reduce regenerative capacity, influence heat absorption and exothermic character Performance；The excessively high service life etc. that can also substantially reduce heating wire of the enclosure space temperature of heating wire.

In addition, the density of gitter brick is higher, the gitter brick load-bearing for being piled into heat storage rear lower is very big, and bottom is resistance to Fiery insulation brick will bear the weight of entire heat storage.If the gitter brick and fireproof heat-insulating brick of lower part under long term high temperature environment again Biggish weight is born, mechanical performance will necessarily be impacted, service life is gently then reduced, it is serious possibly even to will cause It collapses the accidents such as furnace.Therefore, it is necessary to adopt an effective measure, mitigates the load-bearing of unit area, reduces operating ambient temperature.Chinese patent " (application number: 201510082349.9) ", insulating base part is exhausted by being distributed in matrix form for high-temp solid electric heating energy-storage furnace Edge support composition, is separately formed the external independent ventiduct to cool down to insulating base part, but its insulated thermal insulating layer and its Support construction between the cryogenic wind-tunnel on top does not specify simultaneously, it is clear that load-bearing is difficult using the second high-temperature insulation baffle, and And substantially lose meaning existing for insulated thermal insulating layer.

Summary of the invention

In order to solve the above technical problems, the purpose of the present invention is to provide one kind to have space three-dimensional multiple branch circuit in parallel The solid heat storage device of air path system, using three-dimensional space multiple branch circuit parallel ventilation branch system, the balance air inlet temperature difference increases heat-transfer surface Product reduces temperature gradient, promotes heat exchange flowing, balanced duct pressure etc., significantly reduces between different gitter bricks and same storage The temperature difference at hot brick different spaces position improves regenerative capacity, heat absorption exothermal efficiency and dynamic response performance；Meanwhile reducing bottom The supporting power of unit area reduces operating ambient temperature, effectively improves the service life etc. of main component.Also there is structure letter Singly, the advantages that cost is relatively low, reliable for operation, easy to maintain.

The technical solution adopted by the present invention to solve the technical problems is:

The solid heat storage device with space three-dimensional multiple branch circuit parallel ventilation branch system, including heat storage (1), horizontal channel (2), vertical air intake passage (3), vertical air-out passage (4), ventilation terminal (5), wind distributing hole (6), inlet air plenum (7), airstream deflector (8), Air-guiding hole (9) goes out air compartment (10), air inlet (11), air outlet (12), heating wire (13).

There are horizontal channel (2) and orthogonal to that vertical air intake passage (3) and vertical outlet air logical inside heat storage (1) Road (4), vertical air intake passage (3) are connected by horizontal channel (2) with vertical air-out passage (4).

Horizontal channel (2), vertical air intake passage (3), vertical air-out passage (4) be it is corresponding a plurality of, in the heat storage (1) The wind path structure of portion's composition space three-dimensional multiple branch circuit parallel connection.

Ventilation terminal (5) is located at the bottom of heat storage (1), is provided with wind distributing hole corresponding with vertical air intake passage (3) above (6), it is only capable of being connected to vertical air intake passage (3) with inlet air plenum (7).

Airstream deflector (8) is located at the top of heat storage (1), is provided with air-guiding hole corresponding with vertical air-out passage (4) above (9), it is only capable of being connected to vertical air-out passage (4) with air compartment out (10).

There are air inlet (11) in inlet air plenum (7), has air outlet (12) on air compartment (10) out, air inlet (11) and air outlet (12) it is connect with outside air path pipeline.

Gas enters inlet air plenum (7) by air inlet (11) and respectively enters via wind distributing hole (6) cloth wind of ventilation terminal (5) Multiple vertical air intake passages (3), then after corresponding multiple horizontal channels (2) and multiple vertical air-out passages (4) heat exchange, respectively Collect via the air-guiding hole (9) of airstream deflector (8) into air compartment (10) are gone out, is sent out finally by air outlet (12).

Heating wire (13) is multiple groups, and it is internal to be mounted on heat storage (1).

Further, including bottom support frame (14) is supported under ventilation terminal (5) positioned at inlet air plenum (7) inside Side is fireproof heat-insulating brick (15) to have on fireproof heat-insulating brick (15) with wind distributing hole (6) one by one between heat storage (1) and ventilation terminal (5) Corresponding ventilation hole (16).

Further, the quantity of the vertical air intake passage (3) is identical with the quantity of vertical air-out passage (4).

Further, a plurality of vertical air intake passage (3) and a plurality of vertical air-out passage (4) are staggered.

Further, the air inlet (11) and air outlet (12) are located at the opposite of the solid heat storage device Two sides.

Further, the multiple groups heating wire (13) is separately mounted in a plurality of horizontal channel (2), or is mounted on storage Hot body (1) is internal with horizontal channel (2), vertical air intake passage (3), the disconnected heating channel of vertical air-out passage (4) (17) in.

Further, in the horizontal channel (2) of heat storage (1) bottom, heating wire (13) are not installed.

Further, the horizontal channel (2), vertical air intake passage (3), vertical air-out passage (4) inner wall on have High-temperature heat-conductive coating (18).

Further, the heating wire (13) surface has high-temperature heat-conductive anticorrosive paint (19).

Further, including heat insulation layer (20), by heat storage (1), inlet air plenum (7), to go out air compartment (10) fully wrapped around.

Compared with prior art, the present invention has the advantage that

1, it is staggered using vertical air intake passage and vertical air-out passage and constitutes main wind path, horizontal channel constitutes multiple-limb parallel connection Branch establishes space three-dimensional multiple branch circuit parallel ventilation branch system.The vertical air inlet for realizing temperature relative equilibrium, avoids each heat-transfer surface The big temperature difference situation as caused by different inlet air temperature occurs；It effectively increases the heat exchange area of gitter brick, reduce temperature gradient, avoid There is the situation that distance is blocked up between gitter brick and heat-transfer surface to occur.It is between different gitter bricks and same to significantly reduce The temperature difference at gitter brick different spaces position improves regenerative capacity, heat absorption exothermal efficiency and dynamic response performance.Meanwhile also having The advantages that structure is simple, cost is relatively low, reliable for operation, easy to maintain.

2, inlet air plenum setting carries out bottom cloth wind through ventilation hole using ventilation terminal, balances the air inlet temperature difference, utilize in bottom The lower advantage of inlet air temperature, is effectively reduced the temperature of fireproof heat-insulating brick and bottom gitter brick；The horizontal channel of heat storage bottom In heating wire is not installed, further avoid bottom temp it is excessively high, influence mechanical strength the phenomenon that generation.To effectively increase The service life of fireproof heat-insulating brick and bottom gitter brick.

3, inlet air plenum and out air compartment are separately mounted to the two sides up and down of heat storage, it can be inside the vertical main air duct of active balance Gas pressure, in conjunction with the setting of wind distributing hole and air-guiding hole, making wind path is vertical air intake passage, horizontal channel, vertical outlet air Channel, so that it is balanced as far as possible by the gas flow and flow velocity of a plurality of vertical air intake passage and vertical air-out passage, it is effectively reduced Temperature gradient, avoid due to flow velocity difference it is excessive caused by heat storage the case where excessive temperature differentials.

4, heat transfer process is completed jointly by vertical air intake passage, horizontal channel, vertical air-out passage, increases effectively heat exchange Area；And vertical channel can also make full use of stack effect, the automatic gas flowing promoted in vertical air plenums.

5, the identical vertical air intake passage of quantity and vertical air-out passage are spatially staggered, the boundary with horizontal channel Place uses inclined-plane or arcwall face structure, duct pressure as balanced as possible, the internal difference in temperature for eliminating regenerative apparatus, to realize equilibrium Heat exchange.

6, heating wire can be using ready-made horizontal channel as heating channel, and participates in gas and directly exchange heat, to reduce electricity Hot-wire temperature improves heating and heat exchange efficiency；It can also be mounted on and the three-dimensional wind path system for the purpose for weakening oxidation It unites in disconnected independent horizontal direction channel, does not influence the general effect of the design.

Detailed description of the invention

Fig. 1: regenerative apparatus front view.

Fig. 2: regenerative apparatus top view.

In figure: 1- heat storage, the horizontal channel 2-, the vertical air intake passage of 3-, the vertical air-out passage of 4-, 5- ventilation terminal, 6- cloth Air holes, 7- inlet air plenum, 8- airstream deflector, 9- air-guiding hole, 10- go out air compartment, 11- air inlet, 12- air outlet, 13- heating wire, the bottom 14- Portion's braced frame, 15- fireproof heat-insulating brick, 16- ventilation hole, 17- heating channel, 18- high-temperature heat-conductive coating, 19- high-temperature heat-conductive are anti- Rotten coating, 20- heat insulation layer.

Specific embodiment

The invention will now be described in further detail with reference to the accompanying drawings:

It is as shown in Figure 1 regenerative apparatus front view, Fig. 2 show regenerative apparatus top view.Described has space three-dimensional more The solid heat storage device of road parallel ventilation branch system includes heat storage (1), horizontal channel (2), vertical air intake passage (3), vertically goes out Wind channel (4), wind distributing hole (6), inlet air plenum (7), airstream deflector (8), air-guiding hole (9), goes out air compartment (10), air inlet at ventilation terminal (5) (11), air outlet (12), heating wire (13), bottom support frame (14), fireproof heat-insulating brick (15), ventilation hole (16), heating are logical Road (17), high-temperature heat-conductive coating (18), high-temperature heat-conductive anticorrosive paint (19), heat insulation layer (20).

There are horizontal channel (2) and orthogonal to that vertical air intake passage (3) and vertically in Fig. 1, inside heat storage (1) Air-out passage (4), vertical air intake passage (3) are connected by horizontal channel (2) with vertical air-out passage (4).Horizontal channel (2), vertical air intake passage (3), vertical air-out passage (4) be it is corresponding a plurality of, in heat storage (1), Inner Constitution space three-dimensional is more The wind path structure of branch circuit parallel connection.The vertical air inlet for realizing temperature relative equilibrium, avoids each heat-transfer surface from being caused by different inlet air temperature Big temperature difference situation occur；It effectively increases the heat exchange area of gitter brick, reduce temperature gradient, avoid the occurrence of gitter brick and heat-transfer surface Between the blocked up situation of distance occur.To significantly reduce between different gitter bricks and same gitter brick different spaces position The temperature difference, improve regenerative capacity, heat absorption exothermal efficiency and dynamic response performance.

In Fig. 1 and Fig. 2, horizontal channel (2) are 5 rows, 4 column, and totally 20, heating wire (13) is mounted in horizontal channel (2), In the horizontal channel (2) of heat storage (1) bottom, heating wire (13) are not installed, therefore, heating wire (13) is 4 rows, 4 column, totally 16 Group.In Fig. 2, calculating from left to right, odd number is classified as vertical air-out passage (4), and totally 8, even number is classified as vertical air intake passage (3), Totally 8, the quantity of vertical air intake passage (3) is identical with the quantity of vertical air-out passage (4), spatially interleaved arrangement, with to the greatest extent Possible equilibrium duct pressure, the internal difference in temperature for eliminating heat storage (1), to realize balanced heat exchange.

In Fig. 1, ventilation terminal (5) is located at the bottom of heat storage (1), is provided with above corresponding with vertical air intake passage (3) Wind distributing hole (6) is only capable of being connected to vertical air intake passage (3) with inlet air plenum (7).Airstream deflector (8) is located at the top of heat storage (1), It is provided with air-guiding hole (9) corresponding with vertical air-out passage (4) above, is only capable of making vertical air-out passage (4) and air compartment (10) out Connection.Gas enters inlet air plenum (7) by air inlet (11), via the wind distributing hole (6) and fireproof heat-insulating brick (15) of ventilation terminal (5) Ventilation hole (16) cloth wind, respectively enter multiple vertical air intake passages (3), then through corresponding multiple horizontal channels (2) and multiple After vertical air-out passage (4) heat exchange, collects via the air-guiding hole (9) of airstream deflector (8) enter air compartment (10) respectively, finally by Air outlet (12) is sent out.Heat transfer process is completed jointly by vertical air intake passage, horizontal channel, vertical air-out passage, is effectively increased Heat exchange area；And vertical channel can also make full use of stack effect, the automatic gas flowing promoted in vertical air plenums；So that logical Gas flow and the flow velocity for crossing a plurality of vertical air intake passage (3) and vertical air-out passage (4) are balanced as far as possible, and temperature ladder is effectively reduced Degree realizes the air inlet of temperature relative equilibrium, and each heat-transfer surface big temperature difference situation as caused by different inlet air temperature is avoided to occur, thus It will can be controlled by the internal inlet air temperature temperature difference of heat storage (1), the leaving air temp temperature difference in lesser level.

In Fig. 1, there are air inlet (11) in inlet air plenum (7), is located at heat storage (1) bottom, has air outlet on air compartment (10) out (12), it is located at the top of heat storage (1), air inlet (11) and air outlet (12) are connect with external air path pipeline；Air inlet (11) and Air outlet (12) is located at the opposite two sides of the solid heat storage device.It can gas inside the vertical main air duct of active balance Temperature gradient is effectively reduced so that balanced as far as possible by the gas flow of a plurality of vertical main air duct and flow velocity in body pressure, avoid by In the heat storage caused by flow velocity difference is excessive the case where excessive temperature differentials.

In Fig. 1, bottom support frame (14) is located at inlet air plenum (7) inside, is supported on the lower section of ventilation terminal (5)；Heat storage It (1) is fireproof heat-insulating brick (15) to have to lead to correspondingly with wind distributing hole (6) on fireproof heat-insulating brick (15) between ventilation terminal (5) The temperature of fireproof heat-insulating brick and bottom gitter brick is effectively reduced using the lower advantage of inlet air temperature in air holes (16).Heat storage (1) in the horizontal channel (2) of bottom, heating wire (13) are not installed, further avoid the excessively high phenomenon of bottom temp and occurs.From And effectively increase the service life of fireproof heat-insulating brick and bottom gitter brick.

In Fig. 2, the horizontal channel (2), vertical air intake passage (3), vertical air-out passage (4) inner wall on have high temperature Heat-conductive coating (18), heating wire (13) surface have high-temperature heat-conductive anticorrosive paint (19).High-temperature heat-conductive coating (18) can effectively enhance Wind path wall surface absorbs infra-red radiation and the heat convection ability with gas, high-temperature heat-conductive anticorrosive paint (19) and can then not influence Heating wire (13) under the premise of radiations heat energy, improves the anti-corrosion ability of heating wire (13), prolongs the service life outward.

In Fig. 1 and Fig. 2, heat insulation layer (20) by heat storage (1), inlet air plenum (7), go out air compartment (10) it is fully wrapped around, realize it is whole The thermal isolation and heat storage of a heat storage (1).

The foregoing is merely preferable embodiments of the invention, are not intended to limit the invention, all in spirit of the invention Within principle, any modification, equivalent replacement, improvement and so on be should all be included in the protection scope of the present invention.

Claims

1. with space three-dimensional multiple branch circuit parallel ventilation branch system solid heat storage device, it is characterised in that: including heat storage (1), Horizontal channel (2), vertical air-out passage (4), ventilation terminal (5), wind distributing hole (6), inlet air plenum (7), is led at vertical air intake passage (3) Wind device (8), goes out air compartment (10), air inlet (11), air outlet (12), heating wire (13) at air-guiding hole (9)；

There are horizontal channel (2) and orthogonal to that vertical air intake passage (3) and vertical air-out passage inside heat storage (1) (4), vertical air intake passage (3) is connected by horizontal channel (2) with vertical air-out passage (4)；

Horizontal channel (2), vertical air intake passage (3), vertical air-out passage (4) are corresponding a plurality of, the structure inside heat storage (1) At the wind path structure of space three-dimensional multiple branch circuit parallel connection；

Ventilation terminal (5) is located at the bottom of heat storage (1), is provided with wind distributing hole (6) corresponding with vertical air intake passage (3) above, It is only capable of being connected to vertical air intake passage (3) with inlet air plenum (7)；

Airstream deflector (8) is located at the top of heat storage (1), is provided with air-guiding hole (9) corresponding with vertical air-out passage (4) above, It is only capable of being connected to vertical air-out passage (4) with air compartment out (10)；

Have air inlet (11) in inlet air plenum (7), have air outlet (12) on air compartment (10) out, air inlet (11) and air outlet (12) with External air path pipeline connection；

Gas enters inlet air plenum (7) by air inlet (11) and respectively enters multiple via wind distributing hole (6) cloth wind of ventilation terminal (5) Vertical air intake passage (3), then after corresponding multiple horizontal channels (2) and multiple vertical air-out passages (4) exchange heat, respectively via The air-guiding hole (9) of airstream deflector (8) collects into air compartment (10) are gone out, and sends out finally by air outlet (12)；

2. the solid heat storage solid air path system of vertical main air duct according to claim 1 and multilevel branch, feature Be: including bottom support frame (14), be located at inlet air plenum (7) it is internal, be supported on the lower section of ventilation terminal (5), heat storage (1) with It is fireproof heat-insulating brick (15) to have on fireproof heat-insulating brick (15) and wind distributing hole (6) one-to-one ventilation hole between ventilation terminal (5) (16).

3. the solid heat storage solid air path system of vertical main air duct according to claim 1 and multilevel branch, feature Be: the quantity of the vertical air intake passage (3) is identical with the quantity of vertical air-out passage (4).

4. the solid heat storage solid air path system of vertical main air duct according to claim 1 and multilevel branch, feature Be: a plurality of vertical air intake passage (3) and a plurality of vertical air-out passage (4) are staggered.

5. the solid heat storage device according to claim 1 with space three-dimensional multiple branch circuit parallel ventilation branch system, feature Be: the air inlet (11) and air outlet (12) is located at the opposite two sides of the solid heat storage device.

6. the solid heat storage device according to claim 1 with space three-dimensional multiple branch circuit parallel ventilation branch system, feature Be: the multiple groups heating wire (13) is separately mounted in a plurality of horizontal channel (2), or is mounted on heat storage (1) inside In the disconnected heating channel (17) of horizontal channel (2), vertical air intake passage (3), vertical air-out passage (4).

7. the solid heat storage device according to claim 1 with space three-dimensional multiple branch circuit parallel ventilation branch system, feature It is: in the horizontal channel (2) of heat storage (1) bottom, heating wire (13) is not installed.

8. the solid heat storage device of vertical heating according to claim 1 and the heat exchange of space multiple branch circuit parallel ventilation branch, special Sign is: the horizontal channel (2), vertical air intake passage (3), vertical air-out passage (4) inner wall on have high-temperature heat-conductive painting Expect (18).

9. the solid heat storage device of vertical heating according to claim 1 and the heat exchange of space multiple branch circuit parallel ventilation branch, special Sign is: described heating wire (13) surface has high-temperature heat-conductive anticorrosive paint (19).

10. the solid heat storage device of vertical heating according to claim 1 and the heat exchange of space multiple branch circuit parallel ventilation branch, special Sign is: including heat insulation layer (20), by heat storage (1), inlet air plenum (7), air compartment (10) are fully wrapped around out.