CN209430308U - Gas heating system based on Stirling thermal engine operating heat dump - Google Patents
Gas heating system based on Stirling thermal engine operating heat dump Download PDFInfo
- Publication number
- CN209430308U CN209430308U CN201822269260.5U CN201822269260U CN209430308U CN 209430308 U CN209430308 U CN 209430308U CN 201822269260 U CN201822269260 U CN 201822269260U CN 209430308 U CN209430308 U CN 209430308U
- Authority
- CN
- China
- Prior art keywords
- annular
- gas
- heat
- heat dump
- pipe
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Abstract
The utility model relates to Stirling thermal engine operating technical fields, disclose a kind of gas heating system based on Stirling thermal engine operating heat dump, including circulating line, annular heat-conducting plate is equipped in circulating line, the outside of heat dump shell is equipped with air inlet pipe, and the inside of heat dump shell is equipped with diversion pipe, one end of diversion pipe is connected to annular internal channel, the other end of diversion pipe is connected with annular gas distribution pipe, and several gas nozzles are evenly equipped on the upside of annular gas distribution pipe, and each gas nozzle side is equipped with igniter;The inside of heat dump shell is equipped with offgas duct, one end of offgas duct is connected to the intracorporal space of heat dump shell, the other end of offgas duct is connected to annular outer passageway, the outside of heat dump shell is equipped with exhaust pipe, the inner end of exhaust pipe is connected to annular outer passageway, and the position in annular outer passageway between offgas duct and exhaust pipe is equipped with external partition.The utility model can improve heat utilization efficiency to the heat recovery and utilization in tail gas, energy saving.
Description
Technical field
The utility model relates to Stirling thermal engine operating technical field more particularly to a kind of combustions based on Stirling thermal engine operating heat dump
Gas heating system.
Background technique
Stirling engine is by working media in cylinder (hydrogen, nitrogen or inert gas) through supercooling, compression, suction
Heat, the circulation for being expanded to a cycle carry out output power, therefore are otherwise known as and are also Stirling thermal engine operating.Stirling engine is one
Kind external-burning engine, effective efficiency are typically in the range of between gasoline engine and diesel engine.The cylinder body hot end of Stirling thermal engine operating need from
Outside is heated, so that the medium in cylinder is absorbed heat, expanded, cooling down, compressing circulation, converts heat into mechanical energy, therefore
Stirling engine has a wide range of applications in terms of generation of electricity by new energy and military project.Need to be arranged a suction on Stirling thermal engine operating
Hot device, heat dump is interior to be equipped with heat exchanger, is heated by heat exchanging device, the working media in pipeline passes through heat exchanger and heat source
Heat exchange is carried out, and then transfers heat to the hot end of cylinder body: for example the heat exchanger in heat dump being heated by combustion gas,
Tail gas direct emission is fallen after fuel gas buring, causes the heat in tail gas to waste, heat utilization efficiency is low.
Utility model content
The utility model in order to solve the gas heating system on Stirling thermal engine operating in the prior art burning exhaust gas heat
The problem of capable of wasting, a kind of gas heating system based on Stirling thermal engine operating heat dump is provided, which can be to burning
Exhaust heat-energy recycling afterwards, and for flammable mixed gas preheating, heat utilization efficiency is improved, heat-energy losses are reduced.
To achieve the goals above, the utility model adopts the following technical solution:
A kind of gas heating system based on Stirling thermal engine operating heat dump, including being arranged in inside the lower end of heat dump shell
Circulating line, annular heat-conducting plate is equipped in circulating line, the space in circulating line is separated cyclization by the annular heat-conducting plate
Shape internal channel, annular outer passageway, the outside of the heat dump shell are equipped with air inlet pipe, lead in the inner end of the air inlet pipe and annular
Road connection, the inside of heat dump shell are equipped with diversion pipe, and one end of the diversion pipe is connected to annular internal channel, diversion pipe it is another
One end is connected with annular gas distribution pipe, be located in annular internal channel the position positioned at total inlet pipe and diversion pipe between be equipped in every
Plate, it is described annular gas distribution pipe on the upside of be evenly equipped with several gas nozzles, each gas nozzle side is equipped with igniter;The suction
The inside of hot device shell is equipped with offgas duct, and one end of the offgas duct is connected to the intracorporal space of heat dump shell, offgas duct it is another
One end is connected to annular outer passageway, and the outside of the heat dump shell is equipped with exhaust pipe, outside the inner end of the exhaust pipe and annular
Channel connection, the interior position between offgas duct and exhaust pipe of annular outer passageway are equipped with external partition.
The top of gas nozzle is set in the heat exchanger of pot shape, and flammable mixed gas enters annular from air inlet pipe
In internal channel, flammable mixed gas flows at diversion pipe along annular internal channel, then enters annular cloth by diversion pipe
Intratracheally, it is finally sprayed from each gas nozzle, igniter lights combustion gas, so that heat exchanging device is heated, after burning
High-temperature tail gas entered in annular outer passageway by offgas duct, be finally discharged from exhaust pipe extraneous;Height in annular outer passageway
The flammable mixed gas that warm tail gas passes through in annular heat-conducting plate and annular internal channel carries out heat exchange, so that combustibility be mixed
Gas preheats, and the thermal energy in tail gas is greatly recycled, to improve heat utilization efficiency, reduces thermal energy waste.
Preferably, the cross section of the circulating line is in rectangular configuration, the cross section of annular heat-conducting plate is along circulating line
Cross section diagonal distribution;Heat transmission fin is equipped on the annular medial surface of heat-conducting plate, lateral surface.Heat transmission fin can increase
Heat exchanger effectiveness between strong annular internal channel, annular outer passageway.
Preferably, the outer end of the air inlet pipe is equipped with mixed gas tank, be connected on mixed gas tank the first air intake branch, second into
Gas branch pipe is equipped with electrically-controlled valve on the first air intake branch, the second air intake branch.Combustion gas enters mixed gas tank from the first air intake branch
Interior, combustion-supporting property gas (oxygen or air) enters in mixed gas tank from the second air intake branch, and air inlet is entered after mixed gas in-tank mixing
Pipe.
Preferably, the gas nozzle includes blast tube, pedestal, pod, the lower end of the blast tube and gas distribution
Pipe connection, the center of the pedestal are equipped with connection through-hole, and the lower end of pedestal is equipped with connector sleeve, and company is protruded into the upper end of the blast tube
It connects in hole and is threadedly coupled between connector sleeve, the upper end of the pedestal is equipped with impeller inducer, and the impeller inducer includes lower company
Contact pin, upper connection sheet, several blades, form flow-guiding channel between adjacent blades, and the upper end of lower connection sheet and blast tube, which rotates, to be connected
It connects, several deflector holes is evenly distributed on the pod.Flammable mixed gas is after the discharge of blast tube upper end by each
Flow-guiding channel drives impeller inducer rotation, can change the revolving speed of impeller inducer, water conservancy diversion by changing the flow velocity of air mixture
Wheel rotation is uniformly mixed the combustion gas in flammable mixed gas further with combustion-supporting property gas, so that burning
More sufficiently, it on the other hand can improve gas nozzle heat exchanging device bottom-heated uniformity, increase heating surface (area) (HS.
Preferably, the air inlet pipe is equipped with flow control valve.It can be adjusted according to the needs the inlet air flow of air inlet pipe
Amount can change the rotation speed of impeller inducer by the charge flow rate of air inlet pipe.
Therefore, the utility model has the following beneficial effects: (1) using the thermal energy in tail gas to flammable mixed gas into
Row preheating improves heat utilization efficiency height to the heat energy recycle in tail gas, and the heat-energy losses reduced in tail gas are small;(2) flammable
Mixed gas can drive impeller inducer to rotate when passing through gas nozzle, so that combustion gas mixes more uniform, burning with combustion-supporting gas
More sufficiently.
Detailed description of the invention
Fig. 1 is a kind of structural schematic diagram of the utility model.
Fig. 2 is the connection schematic diagram of gas distribution pipe and circular passage.
Fig. 3 is partial enlargement diagram at A in Fig. 2.
Fig. 4 is the structural schematic diagram of gas nozzle.
Fig. 5 is the cross-sectional view of impeller inducer.
Fig. 6 is the overall structure diagram of Stirling thermal engine operating heat dump.
In figure: heat dump shell 1, circulating line 2, annular heat-conducting plate 3, annular internal channel 30, annular outer passageway 31, thermally conductive
Fin 32, air inlet pipe 4, diversion pipe 5, annular gas distribution pipe 6, internal partition 7, gas nozzle 8, blast tube 80, pedestal 81, pod
82, connector sleeve 83, impeller inducer 84, lower connection sheet 840, upper connection sheet 841, blade 842, flow-guiding channel 85, deflector hole 86, point
It is firearm 9, offgas duct 10, exhaust pipe 11, external partition 12, mixed gas tank 13, the first air intake branch 14, the second air intake branch 15, automatically controlled
Valve 16, flow control valve 17, heat exchanger 18, Stirling thermal engine operating 19.
Specific embodiment
The utility model is further described with reference to the accompanying drawings and detailed description:
A kind of gas heating system based on Stirling thermal engine operating heat dump as shown in Figure 1, Figure 2 and Figure 3, including setting exist
Circulating line 2 inside the lower end of heat dump shell 1, is equipped with annular heat-conducting plate 3 in circulating line, and annular heat-conducting plate is by ring pipe
Space in road, which separates, circularizes internal channel 30, annular outer passageway 31, and the cross section of circulating line 2 is in rectangular configuration, and annular is led
The cross section of hot plate is equipped on the medial surface of annular heat-conducting plate 3, lateral surface and leads along the diagonal distribution of the cross section of circulating line
Hot fin 32;The outside of heat dump shell is equipped with air inlet pipe 4, and the inner end of air inlet pipe is connected to annular internal channel, heat dump shell
Inside be equipped with diversion pipe 5, one end of diversion pipe is connected to annular internal channel, and the other end of diversion pipe is connected with annular gas distribution pipe
6, the interior position being located between total inlet pipe and diversion pipe of annular internal channel is equipped with internal partition 7, the upside of annular gas distribution pipe
Several gas nozzles 8 are evenly equipped with, each gas nozzle side is equipped with igniter 9;The inside of heat dump shell is equipped with offgas duct
10, one end of offgas duct is connected to the intracorporal space of heat dump shell, and the other end of offgas duct is connected to annular outer passageway, heat dump
The outside of shell 1 is equipped with exhaust pipe 11, and the inner end of exhaust pipe be connected to annular outer passageway, in annular outer passageway positioned at offgas duct and
Position between exhaust pipe is equipped with external partition 12;The outer end of air inlet pipe is equipped with mixed gas tank 13, is connected with the first air inlet on mixed gas tank
Branch pipe 14, the second air intake branch 15 are equipped with electrically-controlled valve 16 on first air intake branch, the second air intake branch, and air inlet pipe is equipped with
Flow control valve 17.
As shown in Figure 4 and Figure 5, gas nozzle 8 includes blast tube 80, pedestal 81, pod 82, the lower end of blast tube and cloth
Tracheae connection, the center of pedestal are equipped with connection through-hole, and the lower end of pedestal is equipped with connector sleeve 83, and it is logical that connection is protruded into the upper end of blast tube
Be threadedly coupled between connector sleeve in hole, the upper end of pedestal is equipped with impeller inducer 84, impeller inducer include lower connection sheet 840, on
Connection sheet 841, several blades 842, form flow-guiding channel 85 between adjacent blades, and the upper end of lower connection sheet and blast tube, which rotates, to be connected
It connects, several deflector holes 86 is evenly distributed on pod 82.
In conjunction with attached drawing, the principles of the present invention and application method are as follows: as shown in fig. 6, heat exchanger 18 is mounted on annular
The surface of gas distribution pipe, heat exchanger are in pot shape, and heat exchanger is connected by the hot end of the cylinder body in pipeline and Stirling thermal engine operating 19, cold end
It connects;Combustion gas (one of hydrogen, natural gas, biogas) enters in mixed gas tank from the first air intake branch, combustion-supporting property gas (oxygen or
Air) enter in mixed gas tank from the second air intake branch, flammable mixed gas, flammable gaseous mixture are mixed to form in mixed gas tank
Body is entered in annular internal channel by air inlet pipe, and flammable mixed gas flows at diversion pipe along annular internal channel, so
Entered in annular gas distribution pipe by diversion pipe afterwards, finally sprayed from each gas nozzle, sprayed from gas nozzle flammable
Mixed gas can drive impeller inducer 84 to rotate, so that combustion gas, the secondary mixing of combustion-supporting gas in flammable mixed gas,
What is mixed is more abundant, and also more sufficiently, combustion gas utilization rate is high for burning;Igniter lights combustion gas, so that heat exchanging device carries out
Heating, the high-temperature tail gas after burning are entered in annular outer passageway by offgas duct, are finally discharged from exhaust pipe extraneous;It is annular outer
The flammable mixed gas that high-temperature tail gas in channel passes through in annular heat-conducting plate and annular internal channel carries out heat exchange, thus will
Flammable mixed gas preheats, and the thermal energy in tail gas is greatly recycled, to improve heat utilization efficiency, reduces heat
It can waste.
The above are only specific embodiments of the present invention, but the technical characteristics of the utility model is not limited thereto.Appoint
How based on the utility model, to solve essentially identical technical problem, essentially identical technical effect is realized, it is made
Simple change, equivalent replacement or modification etc., are all covered by among the protection scope of the utility model.
Claims (5)
1. a kind of gas heating system based on Stirling thermal engine operating heat dump, characterized in that including heat dump shell is arranged in
Circulating line inside lower end, is equipped with annular heat-conducting plate in circulating line, and the annular heat-conducting plate is by the space in circulating line
Separation circularizes internal channel, annular outer passageway, and the outside of the heat dump shell is equipped with air inlet pipe, the inner end of the air inlet pipe with
Annular internal channel connection, the inside of heat dump shell are equipped with diversion pipe, and one end of the diversion pipe is connected to annular internal channel, leads
The other end of flow tube is connected with annular gas distribution pipe, and the position being located between total inlet pipe and diversion pipe in annular internal channel is set
There is internal partition, is evenly equipped with several gas nozzles on the upside of the annular gas distribution pipe, each gas nozzle side is equipped with igniter;
The inside of the heat dump shell is equipped with offgas duct, and one end of the offgas duct is connected to the intracorporal space of heat dump shell, tail gas
The other end of pipe is connected to annular outer passageway, and the outside of the heat dump shell is equipped with exhaust pipe, the inner end of the exhaust pipe with
Annular outer passageway connection, the interior position between offgas duct and exhaust pipe of annular outer passageway are equipped with external partition.
2. the gas heating system according to claim 1 based on Stirling thermal engine operating heat dump, characterized in that the annular
The cross section of pipeline is in rectangular configuration, the diagonal distribution of the cross section of annular heat-conducting plate along the cross section of circulating line;The ring
Heat transmission fin is equipped on the medial surface of shape heat-conducting plate, lateral surface.
3. the gas heating system according to claim 1 or 2 based on Stirling thermal engine operating heat dump, characterized in that described
The outer end of air inlet pipe is equipped with mixed gas tank, mixes and is connected with the first air intake branch, the second air intake branch on gas tank, the first air intake branch,
Electrically-controlled valve is equipped on second air intake branch.
4. the gas heating system according to claim 1 based on Stirling thermal engine operating heat dump, characterized in that the combustion
Gas jets include blast tube, pedestal, pod, and the lower end of the blast tube is connect with gas distribution pipe, and the center of the pedestal is equipped with
Through-hole is connected, the lower end of pedestal is equipped with connector sleeve, and the interior screw thread between connector sleeve of connection through-hole is protruded into the upper end of the blast tube
The upper end of connection, the pedestal is equipped with impeller inducer, and the impeller inducer includes lower connection sheet, upper connection sheet, several blades, phase
Form flow-guiding channel between adjacent blade, the upper end of lower connection sheet and blast tube is rotatablely connected, and is evenly distributed on the pod
Several deflector holes.
5. the gas heating system according to claim 4 based on Stirling thermal engine operating heat dump, characterized in that it is described into
Tracheae is equipped with flow control valve.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201822269260.5U CN209430308U (en) | 2018-12-29 | 2018-12-29 | Gas heating system based on Stirling thermal engine operating heat dump |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201822269260.5U CN209430308U (en) | 2018-12-29 | 2018-12-29 | Gas heating system based on Stirling thermal engine operating heat dump |
Publications (1)
Publication Number | Publication Date |
---|---|
CN209430308U true CN209430308U (en) | 2019-09-24 |
Family
ID=67975015
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201822269260.5U Active CN209430308U (en) | 2018-12-29 | 2018-12-29 | Gas heating system based on Stirling thermal engine operating heat dump |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN209430308U (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109458268A (en) * | 2018-12-29 | 2019-03-12 | 杭州温斯特新能源科技有限公司 | A kind of gas heating system based on Stirling thermal engine operating heat dump |
CN112344373A (en) * | 2020-10-22 | 2021-02-09 | 上海齐耀动力技术有限公司 | Stirling engine dual-mode combustion chamber and implementation method thereof |
-
2018
- 2018-12-29 CN CN201822269260.5U patent/CN209430308U/en active Active
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109458268A (en) * | 2018-12-29 | 2019-03-12 | 杭州温斯特新能源科技有限公司 | A kind of gas heating system based on Stirling thermal engine operating heat dump |
CN109458268B (en) * | 2018-12-29 | 2023-12-05 | 杭州英洛威能源技术有限公司 | Gas heating system based on Stirling heat engine heat absorber |
CN112344373A (en) * | 2020-10-22 | 2021-02-09 | 上海齐耀动力技术有限公司 | Stirling engine dual-mode combustion chamber and implementation method thereof |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN209430308U (en) | Gas heating system based on Stirling thermal engine operating heat dump | |
CN108843418A (en) | A kind of double pressure high efficiency burnt gas supercritical carbon dioxide association circulating power generation systems | |
CN205079447U (en) | Thermoelectric fuel electric fan heater | |
CN209430309U (en) | The complementary heat dump of phosgene based on Stirling thermal engine operating | |
CN109458268A (en) | A kind of gas heating system based on Stirling thermal engine operating heat dump | |
CN217482994U (en) | Energy-saving type burner of hot blast stove | |
CN214746750U (en) | Combined cooling heating and power supply equipment with waste heat recovery structure | |
CN205782931U (en) | Spiral-flow type combustion furnace | |
CN104848233A (en) | Coal-mine gas boiler with very low concentration and operation method thereof | |
CN200972111Y (en) | Fluid-bed and high temp air ignition system for circulation fluid-bed boiler | |
CN204830450U (en) | Burming biomass's heating bathing boiler | |
CN204402666U (en) | Compressed air energy storage power generating system | |
CN209459043U (en) | Automatic gas hot-blast heating device | |
CN204704825U (en) | A kind of extremely low concentration coal mine gas boiler | |
CN1641272A (en) | Apparatus for refrigeration or pyrogenicity or sanitary hot water using generator exhaust or residual heat | |
CN207674978U (en) | A kind of glass microballoon burning process system | |
CN202647700U (en) | Thermal evaporation device | |
CN112282918B (en) | Diesel engine with circulating cooling function for engineering machinery | |
CN206280936U (en) | A kind of combustion gas simple cycle distributing-supplying-energy system | |
CN102322626A (en) | Sensing type thermodynamic evaporator | |
CN109269094A (en) | A kind of power economized boiler combustion system | |
CN207299482U (en) | Gas heater | |
CN206637834U (en) | A kind of gas heater with smoke circulating system | |
CN205807843U (en) | A kind of high temperature pre-mixing gas combustion heat carrier furnace | |
CN205228085U (en) | Vertical separated type dry -off oven |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant | ||
TR01 | Transfer of patent right | ||
TR01 | Transfer of patent right |
Effective date of registration: 20200617 Address after: Room 912, building 3, No.16 Longtan Road, Cangqian street, Yuhang District, Hangzhou City, Zhejiang Province Patentee after: Hangzhou yingluowei Energy Technology Co.,Ltd. Address before: Room A1022, 1st floor, No. 368 Liuhe Road, Binjiang District, Hangzhou City, Zhejiang 310000 Patentee before: HANGZHOU WENSITE NEW ENERGY TECHNOLOGY Co.,Ltd. |