CN209246045U - A kind of energy-efficient wind-powered electricity generation heat exchanger - Google Patents
A kind of energy-efficient wind-powered electricity generation heat exchanger Download PDFInfo
- Publication number
- CN209246045U CN209246045U CN201821974036.XU CN201821974036U CN209246045U CN 209246045 U CN209246045 U CN 209246045U CN 201821974036 U CN201821974036 U CN 201821974036U CN 209246045 U CN209246045 U CN 209246045U
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- heat exchanger
- tube
- shell
- exchanger tube
- energy
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Abstract
A kind of energy-efficient wind-powered electricity generation heat exchanger, it is related to technical field of heat exchange, and in particular to a kind of energy-efficient wind-powered electricity generation heat exchanger.It includes shell, heat exchanger tube, electrothermal tube, water pump, atomizer, baffle, conducting wire, one end of the shell is provided with heat exchanger tube, the other end of shell is provided with electrothermal tube, the heat exchanger tube is U-tube, the inside of shell is arranged in one end of heat exchanger tube, the other end of heat exchanger tube is arranged in the outside of shell and is connected to water pump, the atomizer is arranged on the heat exchanger tube of enclosure interior, baffle is provided in inner walls between the heat exchanger tube and electrothermal tube, the electrothermal tube is S-shaped disk-like structure, one end of electrothermal tube is stretched out outside shell and is electrically connected with conducting wire.The utility model has the beneficial effect that its structure is simple, and rationally, the electric energy that wind power plant issues can be carried out effective heat exchange and carry out wind power heating by compact, and thermal conversion efficiency is high, and capacity usage ratio is high, energy-efficient for design.
Description
Technical field
The utility model relates to technical field of heat exchange, and in particular to a kind of energy-efficient wind-powered electricity generation heat exchanger.
Background technique
Heat exchanger be for making heat be transmitted to cold fluid from hot fluid, with meet as defined in technique require device,
It is a kind of industrial application of convective heat transfer and heat transfer.Heat exchanger can differently classify.It can divide by its operating process
For dividing wall type, hybrid, heat accumulating type (or back-heating type) three categories;Close-coupled and non-tight can be divided by the compactness on its surface
Gather two class of formula.
The electricity of sending is mainly incorporated to power supply network through ovennodulation, the electric energy wave issued due to wind energy by present wind power generation
The reasons such as more complicated, the interconnection technology parameter request height of equipment bigger, that modulation is grid-connected are moved, cause wind-electricity integration difficult;In addition
Due to wind-powered peak regulation and consumption are difficult, wind-powered electricity generation is underused etc., wind-powered electricity generation is caused to ration the power supply the generation with wind-abandoning phenomenon.
Utility model content
The purpose of this utility model is that it is in view of the drawbacks of the prior art and insufficient, a kind of energy-efficient wind electric heating friendship is provided
Parallel operation, it can effectively be exchanged wind electric heating, and thermal conversion efficiency is high, and capacity usage ratio is high, more energy conservation and environmental protection.
To achieve the above object, the utility model is using following technical scheme: it include shell, heat exchanger tube, electrothermal tube,
Water pump, atomizer, baffle, conducting wire, one end of the shell are provided with heat exchanger tube, and the other end of shell is provided with electrothermal tube,
The heat exchanger tube is U-tube, and the inside of shell is arranged in one end of heat exchanger tube, and the outside of shell is arranged in the other end of heat exchanger tube
And be connected to water pump, the atomizer is arranged on the heat exchanger tube of enclosure interior, between the heat exchanger tube and electrothermal tube
Inner walls on be provided with baffle, the electrothermal tube is S-shaped disk-like structure, and it is outer and electrically connect that shell is stretched out in one end of electrothermal tube
It is connected to conducting wire.
Further, the shell includes side wall, left sealing plate, right sealing plate, steam outlet, and the both ends of the side wall are distinguished
It is fixedly connected with left sealing plate, right sealing plate, the left sealing plate side is provided with heat exchanger tube, and the right sealing plate side is provided with electric heating
It manages, offers steam outlet on the axis of right sealing plate.
Further, the side wall includes seamless steel pipe, and the seamless steel pipe is fixedly connected by flange with right sealing plate, nothing
Seam steel pipe and flange welding, the flange are spirally connected with right sealing plate.
Further, it is provided with insulating layer on the outside of the seamless steel pipe, is provided with shell on the outside of the insulating layer.
Further, there are two the heat exchanger tube settings, two heat exchanger tubes are symmetrical arranged, and are provided with two on each heat exchanger tube
A atomizer.
Further, the electrothermal tube is joined end to end by three U-tubes and forms S-shaped disk-like structure.
Working principle of the utility model is: when work, the electric energy that wind power plant is issued supplies electric heating by conducting wire
Pipe is heated, and so that space in wind-powered electricity generation heat exchanger is generated stable high-temperature region, the external water route of water pump simultaneously carries out U-shaped heat exchanger tube
It supplies water, the baffle between U-shaped heat exchanger tube and electrothermal tube can carry out baffling to fluid, reduce heat exchanger tube and electrothermal tube tail portion thermal energy
Mutual radiation, while the atomizer on heat exchanger tube ejects water mist, and water mist is in the stable high-temperature region of wind-powered electricity generation heat exchanger
Heat absorption instant vaporization is steam, forms the form of thermal energy of high-energy to utilize, improves the utilization rate of wind energy, the steam of high temperature passes through
Steam outlet discharge carries out heat supply, and the wind power heating system equipment of formation, thermal conversion efficiency is high, and capacity usage ratio is high, efficiently
Energy conservation.
After adopting the above technical scheme, the utility model has the beneficial effect that its structure is simple, design is reasonable, compact,
The electric energy that wind power plant issues can be subjected to effective heat exchange and carry out wind power heating, thermal conversion efficiency is high, energy
Utilization rate is high, energy-efficient.
Detailed description of the invention
In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment
Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is only
It is some embodiments of the utility model, for those of ordinary skill in the art, before not making the creative labor property
It puts, is also possible to obtain other drawings based on these drawings.
Fig. 1 is the structural schematic diagram of the utility model;
Fig. 2 is the enlarged drawing of part A in Fig. 1;
Fig. 3 is the enlarged drawing of part B in Fig. 1.
Description of symbols: shell 1, heat exchanger tube 2, electrothermal tube 3, water pump 4, atomizer 5, baffle 6, conducting wire 7, side wall
11, left sealing plate 12, right sealing plate 13, steam outlet 14, flange 15, seamless steel pipe 111, insulating layer 112, shell 113.
Specific embodiment
Referring to shown in Fig. 1-Fig. 3, present embodiment the technical solution adopted is that: it includes shell 1, heat exchanger tube 2, electricity
Heat pipe 3, water pump 4, atomizer 5, baffle 6, conducting wire 7, one end of the shell 1 are provided with heat exchanger tube 2, the other end of shell 1
Be provided with electrothermal tube 3, heat exchanger tube 2 and electrothermal tube 3 respectively penetrate in shell 1, the heat exchanger tube 2 be U-tube, the one of heat exchanger tube 2
The inside of shell 1 is arranged in end, and the other end of heat exchanger tube 2 is arranged in the outside of shell 1 and is connected to water pump 4, the fixed peace of water pump 4
On the sealing plate of 1 one end of shell, water pump 4 is attached with external water supply line, and water pump 4 supplies water to heat exchanger tube 2, described
Atomizer 5 is arranged on the heat exchanger tube 2 inside shell 1, and the water in heat exchanger tube 2 is ejected in by the atomization of atomizer 5
The inside of shell 1 makes water mist heat absorption instant vaporization steam carry out heat supply, the shell 1 between the heat exchanger tube 2 and electrothermal tube 3
Baffle 6 is provided on inner wall, the baffle 6 between U-shaped heat exchanger tube 2 and electrothermal tube 3 can carry out baffling to fluid, reduce heat exchanger tube
2 with the mutual radiation of 3 tail portion thermal energy of electrothermal tube, improve the efficiency of heat exchange, the electrothermal tube 3 is S-shaped disk-like structure, electrothermal tube 3
One end stretch out that shell 1 is outer and be electrically connected with conducting wire 7, and electrothermal tube 3 carries out electrical connect by conducting wire 7 and wind power plant
It connects, so that wind power plant provides electric energy to electrothermal tube 3.
The shell 1 includes side wall 11, left sealing plate 12, right sealing plate 13, steam outlet 14, the both ends point of the side wall 11
It is not fixedly connected with left sealing plate 12, right sealing plate 13, left 12 side of sealing plate is provided with heat exchanger tube 2, right 13 side of sealing plate
It is provided with electrothermal tube 3, steam outlet 14 is offered on the axis of right sealing plate 13, the high-temperature steam generated inside shell 1 passes through
The discharge of steam outlet 14 carries out heating.
The side wall 11 includes seamless steel pipe 111, and the seamless steel pipe 111 connects by the way that flange 15 and right sealing plate 13 are fixed
It connects, seamless steel pipe 111 and flange 15 weld, and the flange 15 is spirally connected with right sealing plate 13, the outside setting of the seamless steel pipe 111
There is insulating layer 112, the outside of the insulating layer 112 is provided with shell 113, and side wall 11 can guarantee shell using seamless steel pipe 111
The leakproofness of body 1 guarantees the high temperature in shell 1, while the insulating layer 112 in 111 outside of seamless steel pipe can make to produce inside shell 1
Raw high temperature, reduces the loss of thermal energy, and the shell 113 that 112 outside of insulating layer is arranged in plays the role of protection to insulating layer 112,
Extend the service life of equipment.
There are two the settings of heat exchanger tube 2, and two heat exchanger tubes 2 are symmetrical arranged, and there are two atomizations for setting on each heat exchanger tube 2
Spray head 5 carries out water mist spray simultaneously by four atomizers 5, can effectively improve the utilization rate of energy, thermal conversion efficiency
Height, capacity usage ratio is high, energy-efficient.
The electrothermal tube 3 is joined end to end by three U-tubes and forms S-shaped disk-like structure, and three U-tubes on electrothermal tube 3 are logical
The mode for crossing welding is connected to form one.
When work, the electric energy that wind power plant is issued supplies electrothermal tube 3 by conducting wire 7 and is heated, makes wind electric heating
Space generates stable high-temperature region in exchanger, and the external water route of water pump 4 simultaneously supplies water to U-shaped heat exchanger tube 2, U-shaped heat exchanger tube 2 with
Baffle 6 between electrothermal tube 3 can carry out baffling to fluid, reduce the mutual radiation of heat exchanger tube 2 and 3 tail portion thermal energy of electrothermal tube,
The atomizer 5 on heat exchanger tube 2 ejects water mist simultaneously, and water mist absorbs heat moment vapour in the stable high-temperature region of wind-powered electricity generation heat exchanger
Steam is turned to, forms the form of thermal energy of high-energy to utilize, improves the utilization rate of wind energy, the steam of high temperature passes through steam outlet
14 discharges carry out heat supply, and the wind power heating system equipment of formation, thermal conversion efficiency is high, and capacity usage ratio is high, efficient energy conservation.
The above is merely intended for describing the technical solutions of the present application, but not for limiting the present application, those of ordinary skill in the art couple
The other modifications or equivalent replacement that the technical solution of the utility model is made, without departing from technical solutions of the utility model
Spirit and scope should all cover in the scope of the claims of the utility model.
Claims (6)
1. a kind of energy-efficient wind-powered electricity generation heat exchanger, it is characterised in that: it includes shell, heat exchanger tube, electrothermal tube, water pump, atomization
Spray head, baffle, conducting wire, one end of the shell are provided with heat exchanger tube, and the other end of shell is provided with electrothermal tube, the heat exchanger tube
For U-tube, the inside of shell is arranged in one end of heat exchanger tube, and the other end of heat exchanger tube is arranged in the outside of shell and connects with water pump
Logical, the atomizer is arranged on the heat exchanger tube of enclosure interior, the inner walls between the heat exchanger tube and electrothermal tube
On be provided with baffle, the electrothermal tube is S-shaped disk-like structure, and it is outer and be electrically connected with conducting wire that shell is stretched out in one end of electrothermal tube.
2. a kind of energy-efficient wind-powered electricity generation heat exchanger according to claim 1, it is characterised in that: the shell includes side
Wall, left sealing plate, right sealing plate, steam outlet, the both ends of the side wall have been respectively fixedly connected with left sealing plate, right sealing plate, the left side
Sealing plate side is provided with heat exchanger tube, and the right sealing plate side is provided with electrothermal tube, and steam discharge is offered on the axis of right sealing plate
Mouthful.
3. a kind of energy-efficient wind-powered electricity generation heat exchanger according to claim 2, it is characterised in that: the side wall includes seamless
Steel pipe, the seamless steel pipe are fixedly connected by flange with right sealing plate, seamless steel pipe and flange welding, the flange and right sealing plate
It is spirally connected.
4. a kind of energy-efficient wind-powered electricity generation heat exchanger according to claim 3, it is characterised in that: outside the seamless steel pipe
Side is provided with insulating layer, is provided with shell on the outside of the insulating layer.
5. a kind of energy-efficient wind-powered electricity generation heat exchanger according to claim 1, it is characterised in that: the heat exchanger tube is provided with
Two, two heat exchanger tubes are symmetrical arranged, and there are two atomizers for setting on each heat exchanger tube.
6. a kind of energy-efficient wind-powered electricity generation heat exchanger according to claim 1, it is characterised in that: the electrothermal tube is by three
U-tube joins end to end to form S-shaped disk-like structure.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821974036.XU CN209246045U (en) | 2018-11-28 | 2018-11-28 | A kind of energy-efficient wind-powered electricity generation heat exchanger |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821974036.XU CN209246045U (en) | 2018-11-28 | 2018-11-28 | A kind of energy-efficient wind-powered electricity generation heat exchanger |
Publications (1)
Publication Number | Publication Date |
---|---|
CN209246045U true CN209246045U (en) | 2019-08-13 |
Family
ID=67528884
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201821974036.XU Expired - Fee Related CN209246045U (en) | 2018-11-28 | 2018-11-28 | A kind of energy-efficient wind-powered electricity generation heat exchanger |
Country Status (1)
Country | Link |
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CN (1) | CN209246045U (en) |
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2018
- 2018-11-28 CN CN201821974036.XU patent/CN209246045U/en not_active Expired - Fee Related
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Legal Events
Date | Code | Title | Description |
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20190813 Termination date: 20211128 |
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CF01 | Termination of patent right due to non-payment of annual fee |