CN110133045A - Igniter for flowable state metal fuel discrete particle - Google Patents

Abstract

The invention discloses a kind of igniters for flowable state metal fuel discrete particle, including jet combustion device module, xenon lamp ignition module, combustion diagnosis module and control module.The present invention is using pressurized firing device as metal fuel particle burning environment, it can be achieved that igniting of the metal fuel particle in 0-5Mpa pressure limit, will not generate interference to the combustion flame of metal fuel particle, will not generate flame overlapping.

Description

Igniter for flowable state metal fuel discrete particle

Technical field

The present invention relates to a kind of igniter of metal fuel, in particular to a kind of flowable state metal fuel discrete particle point The device of fire.

Background technique

Metal fuel has high theoretical combustion heat, it has also become important containing, which can be organized, in chemical rocket propellant formulation divides it One.Common metal fuel both includes the metals such as magnesium, aluminium, titanium, boron or metalloid simple substance, also includes two kinds and two or more gold Category, compound, alloy and the compound of metalloid composition etc..To improve its ignition characteristic, most of metal fuel It can be processed to micron or nanoscale particle uses, referred to as metal fuel particle or powder.To realize that metal fuel particle exists Full combustion in rocket engine and release can, need to study its ignition characteristic, scientifically to design propulsion Agent prescription and engine structure, reasonably tissue burning.

Ignition of the metal fuel particle in rocket engine is along with flow at high speed.Therefore, convection current is dynamically golden Belong to fuel particle and carries out fire trial, it is practical but also more difficult closer to engineering than the fire trial under stationary state.Mesh Before, the researcher of related fields is usually tested using devices such as flat-flame burners, and the carrier gas with metal fuel is led to Enter and realizes igniting in premixed flame.However, there are tripartite's planar defects for this device: first is that carrier gas is passed through premixed flame, it can be right Original flame structure generates interference, influences its stability and uniformity；Second is that premixed flame and metal fuel particle burning Flame overlaps, and can make troubles for combustion diagnosis；Third is that this device can only be tested in open environment, fail Realize igniting of the flowable state metal fuel particle in pressure environment.Therefore, it is necessary to the flowable state metal fuel for developing new is discrete Particle fire trial device and method, to overcome these defects.

Summary of the invention

Goal of the invention: the present invention provides a kind of igniter for flowable state metal fuel discrete particle, the devices It solves the problems, such as metal fuel combustion flame structural stability and uniformity is poor, combustion diagnosis is inconvenient；Meanwhile solve can only The problem of being tested in open environment.

Technical solution: the igniter for flowable state metal fuel discrete particle of the invention, including jet combustion device Module, xenon lamp ignition module and combustion diagnosis module.

The fluidics module includes pressurized firing device and the sample for injecting metal fuel particle into pressurized firing device Product syringe.

The pressurized firing device main body is horizontal T-type tee tube, and three ports of the tee tube seal and it The port of top and side is respectively equipped with transparent form, and the side that the tee tube does not set port offers several gaging holes and divides Not Yong Yu inlet channel and exhaust passage to pressurized firing device internal pressurization and pressure release, and the pressurized firing device is equipped with and is used for The first cooling body that it is cooled down.The pressurized firing device is stainless steel material, and three ports pass through flangeseal, and With good sealing property, the internal pressure of 0-5Mpa can be born, oxygen, air, nitrogen, helium, carbon dioxide etc. can be used no Fuel gas pressurizes to pressurized firing device, and the form is pressure resistant quartz glass vision panel.Wherein, the gaging hole is equipped with three It is a, and level is penetrated through to different location inside tee tube respectively.It can open when use, then seal when not in use.

The sample injector includes airflow channel, and wherein one end is connected for holding metal fuel the airflow channel The front-end platform of grain, other end connection can be passed through the solenoid valve of carrier gas, wherein the front-end platform is inserted into pressurized firing A wherein gaging hole for device, the airflow channel are stainless pipe.

The xenon lamp ignition module is used for being heated to high temperature inside pressurized firing device and light a fire, including cold mirror, is set to The xenon lamp of first focal position of cold mirror, the xenon lamp are equipped with the second cooling body cooled down to it.

The combustion diagnosis module is used for being monitored inside pressurized firing device, including fiber spectrometer, infrared measurement of temperature Instrument, high-speed camera and thermal infrared imager, wherein the probe of fiber spectrometer can be inserted into a wherein gaging hole for pressurized firing device, Infrared radiation thermometer, high-speed camera and thermal infrared imager can be through forms to being monitored inside pressurized firing device.

The igniter further includes the control module for controlling combustion diagnosis module and storage data, including is controlled respectively The power supply of xenon lamp processed and the second cooling body start and stop, power output and revolving speed further includes for controlling fiber spectrometer, infrared survey Wen Yi, the start and stop of high-speed camera and thermal infrared imager and computer that the measurement data of acquisition is acquired and is stored and Data collecting card, and control the type of pressurized firing device pressurization gas and sample carrier gas and the gas cylinders group and pressure reducing valve of pressure.

In pressurized firing device inner focusing and high-temperature ignition is generated for convenience of xenon lamp ignition module, inside the pressurized firing device Equipped with boss, the boss upper end is located among pressurized firing device, and the center of the bottom port of tee tube, and institute are fixed in lower end The light for stating xenon lamp ignition module can be focused through the form of pressurized firing device side, and boss upper end is made to be located at cold mirror Second focus.

To realize the cooling to pressurized firing device, first cooling body includes being set around pressurized firing device periphery And it is capable of the water cooling tube of external cooling water source.

It is carved with stria in the front-end platform, for holding metal fuel sample particle.

For convenience of adjust fluidics module position and height, the fluidics module further include can placement force burner simultaneously The lifting platform of its height and position is adjusted, while being focused convenient for optically focused.

To realize that pressurized firing device internal pressure ring border down-firing, the cold mirror are faceted pebble ellipsoid cold mirror, and it is described cold Light microscopic inner surface is coated with to visible light high reflection, to the cold reflective inteferometer coating of infrared light high transmission；The xenon lamp is spherical short arc Xenon lamp.The rated output power of short arc spherical xenon lamp is 7kW, can add maximum temperature (the second focal point) inside pressurized firing device Heat is to 2000 DEG C or more.Wherein, the high power xenon lamp power supply for controlling xenon lamp can realize the output power of short arc spherical xenon lamp in 0- It is adjusted within the scope of 7kW.

To realize the cooling to xenon lamp, second cooling body includes being respectively arranged on xenon lamp fluorescent tube positive terminal two sides and bearing The cooling blower of extreme rear side.The cooling blower is axial flow blower, rated speed 3000R/min.The cooling wind is electromechanical Source can realize that the revolving speed of cooling blower is adjusted within the scope of 0-3000R/min.

To consolidate xenon lamp ignition module, guarantee the fixation of focus position, the xenon lamp ignition module further includes that can consolidate Determine the bracket of cold mirror, xenon lamp and cooling blower, the bracket is made of stainless steel material.

The utility model has the advantages that the 1, present invention uses sample injector sample introduction, mention using carrier gas dispersed metal fuel particle and for it For initial velocity, particle discretization can be effectively realized, while can strict control metal fuel grain flux and flow velocity；2, the present invention adopts Use pressurized firing device as metal fuel particle burning environment, it can be achieved that point of the metal fuel particle in 0-5Mpa pressure limit Fire；3, the present invention uses pressurized firing device as metal fuel particle burning environment, it can be achieved that metal fuel particle is in oxygen, sky It lights a fire under the non-combustible gas ambiance such as gas, nitrogen, helium, carbon dioxide；4, the present invention uses globular short-arc xenon Pressurized firing device internal environment is heated, maximum temperature (the second focal point) 2000 DEG C can be heated to inside pressurized firing device More than, and interference will not be generated to the combustion flame of metal fuel particle, flame overlapping will not be generated；5, the present invention uses faceted pebble Ellipsoid cold mirror carries out optically focused to xenon lamp light, since faceted pebble ellipsoid cold mirror is to visible light high reflection, to infrared light high transmission, Heating light is mainly visible light, will not carry out burning using infrared band light to infrared radiation thermometer, thermal infrared imager etc. and examine Disconnected instrument and equipment generates interference；6, the present invention is provided with boss inside pressurized firing device, focuses convenient for optically focused, is arranged simultaneously Multiple gaging holes and pressure resistant quartz glass vision panel, convenient for combustion diagnosis equipment to being monitored inside pressurized firing device；7, this hair It is bright to use Mobile hydraulic elevating platform placement force burner, its height and position can be continuously adjusted, be convenient for optically focused tune It is burnt；8, the present invention carries out centralized control to combustion diagnosis equipment and test data using personal computer and data collecting card and deposits Storage, provides great convenience for experimental implementation.

Detailed description of the invention

Fig. 1 is the structural diagram of the present invention；

Fig. 2 is the structural schematic diagram of pressurized firing device in the present invention；

Fig. 3 is the structural schematic diagram of sample injector in the present invention.

Specific embodiment

Referring to Fig. 1 to Fig. 3, the igniting described in one embodiment of the invention for flowable state metal fuel discrete particle is filled It sets, which can realize the igniting of flowable state metal fuel discrete particle in pressure environment, by jet combustion device module, xenon lamp Ignition module, combustion diagnosis module and control module composition.

Jet combustion device module includes pressurized firing device 32, sample injector 15 and lifting platform 31, and pressurized firing device 32 is main Body is horizontal T-type Stainless steel tee pipe, and three ports of tee tube are respectively by ring flange I 7, ring flange II 10 and ring flange III 12 sealings, are wherein equipped with I 8 form of pressure resistant quartz glass between top port and ring flange I 7, lean to one side port and ring flange II 10 Between be equipped with II 11 form of pressure resistant quartz glass；The lean to one side side of portless of pressurized firing device arranged vertically there are three gaging hole 14, To different location inside tee tube, when use, can open the horizontal perforation of gaging hole 14, then seal when not in use；Gaging hole is arranged right below Inlet channel 13 is equipped with exhaust passage 5 right above gaging hole 14, is respectively used to the pressurization and pressure release inside pressurized firing device 32； 32 whole body of pressurized firing device is disposed with water cooling tube 9, and when use needs external cooling water source；Boss 6 is equipped with inside pressurized firing device 32, 6 upper end of boss is located among pressurized firing device 32, and III 12 center of tee tube bottom flange dish is fixed in lower end；Sample injector 15 It is made of airflow channel 3, front-end platform 4 and solenoid valve 2, airflow channel 3 is stainless pipe, and a termination front-end platform 4 is another Terminate solenoid valve 2；Front-end platform 4 can be inserted into one of 32 gaging hole 14 of pressurized firing device when use, and use nut seal；When use Sample carrier gas 1 is passed through from 2 one end of solenoid valve；Lifting platform 31 is Mobile hydraulic elevating platform, simultaneously for placement force burner 32 Adjust its height and position.

Xenon lamp ignition module includes cold mirror 25, globular short-arc xenon 24, cooling blower I 23, cooling blower II 28, cooling Blower III 30, bracket I 22 and bracket II 27；Cold mirror 25 is faceted pebble ellipsoid cold mirror, and inner surface is coated with cold reflective inteferometer coating, right Visible light high reflection, to infrared light high transmission；By adjusting installation site, that globular short-arc xenon 24 is fixed on cold mirror 25 is ellipse First focus of ball, light through pressurized firing device 32 lean to one side pressure resistant quartz glass II 11 focusing, make inside pressurized firing device 32 6 upper end of boss is located at the second focus of 25 ellipsoid of cold mirror；24 fluorescent tube positive terminal two sides of globular short-arc xenon are respectively arranged cooling The cooling blower of blower I 23 and 30 III 30, negative pole end rear side arrange cooling blower II 28；Bracket I 22 and bracket II 27 be not using Rust steel is built, for fixing cold mirror 25, globular short-arc xenon 24, cooling blower I 23, cooling blower II 28 and cooling blower III 30。

Combustion diagnosis module includes fiber spectrometer 17, infrared radiation thermometer 19, high-speed camera 20 and thermal infrared imager 21； Fiber spectrometer 17, which is popped one's head in, when use can be inserted into one of 32 gaging hole 14 of pressurized firing device, and use nut seal；Infrared radiation thermometer 19, high-speed camera 20 and thermal infrared imager 21 supervise its inside by 32 top pressure resistant quartz glass I 8 of pressurized firing device It surveys.

Control module includes high power xenon lamp power supply 29, cooling blower power supply 30, personal computer 16, data collecting card 18, gas cylinders group 33 and pressure reducing valve 34；High power xenon lamp power supply 29 and cooling blower power supply 30 are respectively used to control spherical short arc xenon Lamp 24, cooling blower I 23, cooling blower II 28 and cooling blower III 30 start and stop, output power or revolving speed；Personal computer 16 With data collecting card 18 for controlling fiber spectrometer 17, infrared radiation thermometer 19, high-speed camera 20 and thermal infrared imager 21 Start and stop, and the measurement data of acquisition is acquired and is stored；Gas cylinders group 33 and pressure reducing valve 34 are for controlling pressurized firing device 32 The type and pressure of pressurization gas and sample carrier gas 1.

The operation principle of the present invention is that:

Cooling blower I 23, cooling blower II 28 and cooling blower III 30 are opened when test in advance, and makes pressurized firing device 32 9 water flowing of water cooling tube, later on globular short-arc xenon 24, by adjust 31 position of lifting platform make xenon lamp light focusing in pressure 32 internal boss of burner, 6 upper end monitors 32 internal temperature of pressurized firing device by thermal infrared imager 21, until internal temperature field Stablize.

To ensure metal fuel particle sample dispersion, metal fuel particle and inert particle (silica) are mixed It is mixed, sample injector 15 is then taken out to horizontal positioned, the appropriate gold for being doped with inert particle of placement in 4 stria of front-end platform Belong to fuel particle sample, close solenoid valve 2,15 front-end platform 4 of sample injector is inserted into 32 gaging hole 14 of pressurized firing device, and twist Tight nut seal, by 2 one end of solenoid valve of sample gas-carrier pipeline access 15 airflow channel 3 of sample injector.

Fiber spectrometer 17 is popped one's head in and is inserted into 32 gaging hole 14 of pressurized firing device, and tightens nut seal, closes pressurized firing Pressurization air pipe is accessed inlet channel 13, successively opens inlet channel 13 and exhaust by 32 inlet channel 13 of device and exhaust passage 5 Channel 5 closes exhaust passage 5 after the completion of gas washing, inlet channel 13 is kept to open to gas washing is carried out inside pressurized firing device 32, To pressurizeing inside pressurized firing device 32, until burner internal pressure reaches operating condition of test setting value.

Open fiber spectrometer 17, infrared radiation thermometer 19, high-speed camera 20 and thermal infrared imager 21, later on sample 15 solenoid valve 2 of syringe makes 1 inflow stream channel 3 of sample carrier gas, the metal fuel particulate samples for being doped with inert particle is taken Inside band to pressurized firing device 32, the igniting of flowable state metal fuel discrete particle is realized in pressure environment, utilizes fiber spectrum The ignition combustion event of instrument 17, infrared radiation thermometer 19, high-speed camera 20 and thermal infrared imager 21 to metal fuel discrete particle It is monitored on-line.

It is acquired and stores using personal computer 16 and 18 pairs of the data collecting card measurement data obtained.

Globular short-arc xenon 24, cooling blower I 23, cooling blower II 28 and cooling blower III are successively closed after completing test 30, and 32 water cooling tube of opening pressure burner, 9 water source, later on exhaust passage 5 is to carrying out pressure release inside pressurized firing device 32.

Claims (10)

1. a kind of igniter for flowable state metal fuel discrete particle, it is characterised in that: including jet combustion device module, Xenon lamp ignition module and combustion diagnosis module,

The jet combustion device module includes pressurized firing device and is used to inject metal fuel particle into pressurized firing device Sample injector,

The pressurized firing device main body is horizontal T-type tee tube, and three ports of the tee tube seal and its top And the port of side is respectively equipped with transparent form, the side that the tee tube does not set port offers several gaging holes and uses respectively In inlet channel and exhaust passage to pressurized firing device internal pressurization and pressure release, and the pressurized firing device is equipped with for it The first cooling cooling body,

The sample injector includes airflow channel, and wherein one end is connected for holding metal fuel particle the airflow channel Front-end platform, other end connection can be passed through the solenoid valve of carrier gas, wherein the front-end platform is inserted into pressurized firing device A wherein gaging hole；

The xenon lamp ignition module can to being heated to high temperature inside pressurized firing device and light a fire, including cold mirror, be set to it is described The xenon lamp of the first focal position of cold mirror, the xenon lamp are equipped with the second cooling body cooled down to it；

The combustion diagnosis module is used for being monitored inside pressurized firing device, including fiber spectrometer, infrared radiation thermometer, High-speed camera and thermal infrared imager, wherein the probe of fiber spectrometer can be inserted into a wherein gaging hole for pressurized firing device, infrared Temperature measurer, high-speed camera and thermal infrared imager can be through forms to being monitored inside pressurized firing device.

2. the igniter according to claim 1 for flowable state metal fuel discrete particle, it is characterised in that: described Igniter further includes the control module for controlling combustion diagnosis module and storage data, including controls xenon lamp and second respectively Cooling body start and stop, power output and revolving speed power supply, further include for controlling fiber spectrometer, infrared radiation thermometer, at a high speed taking the photograph The start and stop of shadow instrument and thermal infrared imager and the computer and data collecting card that the measurement data of acquisition is acquired and is stored, And the gas cylinders group and pressure reducing valve of the type and pressure of control pressurized firing device pressurization gas and sample carrier gas.

3. the igniter according to claim 1 or 2 for flowable state metal fuel discrete particle, it is characterised in that: Boss is equipped with inside the pressurized firing device, the boss upper end is located among pressurized firing device, and tee tube is fixed in lower end The center of bottom port, and the light of the xenon lamp ignition module can be focused through the form of pressurized firing device side, and be made Boss upper end is located at the second focus of cold mirror.

4. the igniter according to claim 1 for flowable state metal fuel discrete particle, it is characterised in that: described First cooling body includes the water cooling tube for being set around pressurized firing device periphery and capableing of external cooling water source.

5. the igniter according to claim 1 for flowable state metal fuel discrete particle, it is characterised in that: described Stria is carved in front-end platform.

6. the igniter according to claim 1 for flowable state metal fuel discrete particle, it is characterised in that: described Fluidics module further includes that placement force burner and can adjust the lifting platform of its height and position.

7. the igniter according to claim 1 for flowable state metal fuel discrete particle, it is characterised in that: described Cold mirror is faceted pebble ellipsoid cold mirror, and the cold mirror inner surface is coated with to visible light high reflection, to infrared light high transmission Cold reflective inteferometer coating.

8. the igniter according to claim 1 for flowable state metal fuel discrete particle, it is characterised in that: described Xenon lamp is globular short-arc xenon.

9. the igniter according to claim 1 for flowable state metal fuel discrete particle, it is characterised in that: described Second cooling body includes the cooling blower being respectively arranged on rear side of xenon lamp fluorescent tube positive terminal two sides and negative pole end.

10. the igniter according to claim 1 for flowable state metal fuel discrete particle, it is characterised in that: institute Stating xenon lamp ignition module further includes the bracket for being capable of fixing cold mirror, xenon lamp and cooling blower.