CN205855992U - Aqueous medium gasified combustion apparatus - Google Patents
Aqueous medium gasified combustion apparatus Download PDFInfo
- Publication number
- CN205855992U CN205855992U CN201620874926.8U CN201620874926U CN205855992U CN 205855992 U CN205855992 U CN 205855992U CN 201620874926 U CN201620874926 U CN 201620874926U CN 205855992 U CN205855992 U CN 205855992U
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- China
- Prior art keywords
- microporous membrane
- membrane electrode
- dish
- electrode
- duct
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- 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.)
- Withdrawn - After Issue
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E60/00—Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
- Y02E60/30—Hydrogen technology
- Y02E60/36—Hydrogen production from non-carbon containing sources, e.g. by water electrolysis
Abstract
A kind of aqueous medium gasified combustion apparatus, relate to burner apparatus, burner assembly is taken up dish, duct cover dish and insulated chassis by microporous membrane electrode, electrode and forms, electrode takes up the installing hole having microporous membrane electrode on dish, have and the duct of microporous membrane electrode equal number on the cover dish of duct, fluted in insulated chassis;Microporous membrane electrode and duct cover dish are arranged on electrode and take up on dish, the cone of microporous membrane electrode upper semisection is placed among the duct of duct cover dish, electrode takes up dish and is arranged on insulated chassis and is enclosed in groove port, and in the groove of insulated chassis, space constitutes pressure-bearing hydroecium;The anode interface of electrostatic generator and negative pole interface are electrically connected with microporous membrane electrode, duct cover dish respectively, and the water supply connector of pressure-bearing hydroecium is connected on the pipeline between check-valves and pressurized tank.This utility model is suitable on Industrial Boiler application, water by pressure permeation, then ionizes through the catalysis of nickel-sulfur alloy material and electrostatic field, is decomposed into hydrogen, oxygen activity chemicals burn.
Description
Technical field
This utility model relates to burner apparatus, especially relates to a kind of aqueous medium combustion apparatus.
Background technology
Water is a kind of material the abundantest containing protium, and each hydrone is by two hydrogen atoms and an oxygen atom knot
Conjunction forms, and containing the hydrogen more than 111 kilograms in every cubic meter of water, its quality capacity is more than 11.1%, and the calorific capacity of hydrogen is high, combustion
Burn 1 kg hydrogen and can release the heat of 142120kj, be three times of gasoline.Water is developed into a kind of energy apply, during burning
Not producing carbon dioxide, product only has water, can be repeatedly circulated, and to improving air acid rain environment, reduces dioxy in air
Change carbon content, thus alleviate greenhouse effect and have great benefit.Therefore, exploitation aqueous medium fuel not only can solve energy shortage
Situation, and environment protecting highlight.But, hydrogen atom and oxygen atom in hydrone combine the most firm, high-temperature heating
Method need to be heated to 3000 DEG C of decomposition carried out above hydrone, and general mode of heating is difficult to reach the highest temperature;Industry
Upper current method decomposition water molecule hydrogen manufacturing, decomposition rate is slow, efficiency is low, and it is the biggest to consume energy.
Utility model content
The purpose of this utility model is intended to overcome existing pyrolysis water hydrogen manufacturing and the shortcoming of current method decomposition water molecule hydrogen manufacturing, carries
For a kind of aqueous medium gasified combustion apparatus, water is applied as a kind of energy, it is achieved cleaning burning, preserve the ecological environment.
A kind of aqueous medium gasified combustion apparatus of the present utility model, sends out including pressure pump, pressurized tank, burner and electrostatic
Raw device, the outlet of pressure pump is attached by the bottom of check-valves with pressurized tank, it is characterized in that burner assembly 1 is by micro-
Pore membrane electrode 1-4, electrode take up dish 1-1, duct cover dish 1-2 and insulated chassis 1-9 composition, and wherein, microporous membrane electrode 1-4 is constituted
Hydrone filters and catalysis element, and the upper semisection of microporous membrane electrode 1-4 is conical structure, the lower semisection of microporous membrane electrode 1-4
Having water guide duct 1-401, microporous membrane electrode 1-4 in body is more than one;Electrode takes up microporous membrane electrode 1-4's on dish 1-1
Installing hole;Have and the duct 1-3 of microporous membrane electrode 1-4 equal number on the cover dish 1-2 of duct;In insulated chassis 1-9 fluted;Micro-
Pore membrane electrode 1-4 and duct cover dish 1-2 is arranged on electrode and takes up on dish 1-1, and the cone of microporous membrane electrode 1-4 upper semisection is placed in
Among the duct 1-3 of duct cover dish 1-2, the space between microporous membrane electrode 1-4 and the wall body of duct 1-3 constitutes electrostatic field;Electricity
Pole takes up dish 1-1 and is arranged on insulated chassis 1-9 and is enclosed in groove port, and in the groove of insulated chassis 1-9, space composition is held
Pumping chamber 18, the water guide duct 1-401 of microporous membrane electrode 1-4 is communicated to pressure-bearing hydroecium 18, and pressure-bearing hydroecium 18 has water supply connector 1-8
Access;The anode interface of electrostatic generator and negative pole interface electrically connect with microporous membrane electrode 1-4, duct cover dish 1-2 respectively
Connecing, the water supply connector 1-8 of pressure-bearing hydroecium 18 is connected on the pipeline between check-valves 10 and pressurized tank 14.When specifically applying,
Pressure controller 16 and maintenance exhaust-valve 17 are arranged at the top of pressurized tank 14 or top.
In this utility model, microporous membrane electrode 1-4 is metal powder sintered microporous filter membrane structure, micro-between metal dust
Hole constitutes the filtration channel of hydrone, and when being embodied as, microporous membrane electrode 1-4 selects tungsten powder and nickel-sulfur alloy powder to mix
Material, sinters tungsten nickel pseudo-alloy part into, when firing, and tungsten, nickel-sulfur alloy neither mutual phased soln, also it is formed without intermetallic
Thing, the pseudo-alloy formed is organized as two phase structures of tungsten particle, nickel-sulfur alloy granule, there is micro hole in pseudo-alloy tissue
Gap, has the effect filtering hydrone, and nickel-sulfur alloy therein has catalytic action to the decomposition of hydrone, makes hydrone more hold
Easily decompose;The inner side taking up dish 1-1 at electrode has metal backing 1-5, metal backing 1-5 to be connected to microporous membrane electrode 1-4, at gold
Belong to and have conductive plug 1-6 on liner plate 1-5, insulated chassis 1-9 has electrically conductive socket 1-7, during assembling, on metal backing 1-5
Conductive plug 1-6 is inserted in the electrically conductive socket 1-7 on insulated chassis 1-9, and electrically conductive socket 1-7 is wired to electrostatic and sends out
In anode interface 4-2 of raw device 4;Taking up at electrode and have normally closed air bleeding valve 20 on dish 1-1, normally closed air bleeding valve 20 is communicated to artesian water
Room 18;Duct 1-3 on the cover dish 1-2 of duct is up-small and down-big inverted tubaeform structure;Breathing interface 14-is arranged at the bottom of pressurized tank
1, the outlet of pressure pump is attached by the breathing interface 14-1 bottom check-valves 10 and pressurized tank;At pressure pump 6
Filter 8 is had on the pipeline accessed.
This utility model is suitable on Industrial Boiler application, with aqueous medium as gasified raw material, it is achieved cleaning burning, obtains heat
Can, during application, pressure pump, pressurized tank, electrostatic generator and burner assembly 1 are arranged in respective frame.During work, right
Microporous membrane electrode 1-4 and duct cover dish 1-2 applies the electrostatic of more than 10,000 volts, makes at the upper semisection cone of microporous membrane electrode 1-4
In electrostatic field among the 1-3 of duct, to increase the catalysis activity of microporous membrane electrode 1-4, and hydrone is formed ionization work
With;Using pure water as raw water, the pressurized water pump of raw water 6 enters in the pressure-bearing hydroecium 18 of burner assembly 1, simultaneously
Raw water is entered in pressurized tank by the bottom of pressurized tank 14, makes the upper air in pressurized tank 14 be compressed, and forms compression sky
Gas, the water of pressurized tank 14 bottom has pressure under compressed-air actuated effect, the hydraulic pressure in pressure-bearing hydroecium 18 and pressurized tank 14 times
The hydraulic pressure in portion is equal.The pure water in pressure-bearing hydroecium 18 with pressure penetrates into microporous membrane electrode 1-4 by water guide duct 1-401
Micro-pore in, hydrone is filtered by the micro-pore of microporous membrane electrode 1-4, makes macromolecular mass become little molecule, water
The activity of molecule is improved, and makes hydrone be easier to be decomposed, meanwhile, and the nickel-sulfur alloy material pair of microporous membrane electrode 1-4
Hydrone carries out catalytic decomposition.Hydrone, through pressure permeation, is changed into small molecular cluster structure by macromolecular mass, then through nickel sulfur
Alloy material catalysis and electrostatic field ionize, be decomposed into hydrogen, oxygen and active hydrogen atom, active oxygen atom, activity hydrogen-oxygen former
The activity chemistry thing of son group, escapes from the upper semisection cone of microporous membrane electrode 1-4, becomes vaporising fuel, enter into duct
In 1-3, the vaporising fuel that hydrone converts is carried out a little by the high-voltage spark between microporous membrane electrode 1-4 and duct 1-3 wall body
Combustion, carries out back reaction burning, releases heat energy.In said process, the water in pressure-bearing hydroecium 18 and the water of infiltration into microporous membrane electrode 1-4
Microporous membrane electrode 1-4 produces cooling effect, and protection microporous membrane electrode 1-4 is not burned.This utility model uses electrostatic to carry
The catalysis of high microporous membrane electrode 1-4 is active and utilizes electrostatic field to ionize hydrone, reduces the temperature requirement of pyrolysis hydrone,
Institute's consuming electric power is few, and the decomposition efficiency of hydrone is high.
The beneficial effects of the utility model are: a kind of aqueous medium gasified combustion apparatus of offer, are suitable on Industrial Boiler
Application, with aqueous medium as gasified raw material, hydrone by pressure permeation, is changed into small molecular cluster structure by macromolecular mass, then
Ionizing through the catalysis of nickel-sulfur alloy material and electrostatic field, the vaporising fuel being decomposed into hydrogen-oxygen burns, using water as a kind of energy
Apply, it is achieved cleaning burning, preserve the ecological environment.
Accompanying drawing explanation
Fig. 1 is the structure chart of a kind of aqueous medium gasified combustion apparatus of the present utility model.
Fig. 2 is the attached view of burner assembly of the present utility model.
Fig. 3 is the enlarged drawing of microporous membrane electrode of the present utility model.
In figure: 1. burner assembly, 1-1. electrode takes up dish, 1-2. duct cover dish, 1-3. duct, 1-4. microporous membrane electricity
Pole, 1-401. water guide duct, 1-402. outer-hexagonal body, 1-403. external screw thread, 1-404. micropore cone, 1-5. metal backing,
1-6. conductive plug, 1-7. electrically conductive socket, 1-8. water supply connector, 1-9. insulated chassis, 2. fastening bolt, 3. wire, 4. electrostatic
Generator, 4-1. negative pole interface, 4-2. anode interface, 5. penstocks, 6. pressure pump, 7. communicating pipe, 8. filter, 9. supply
Water pipe, 10. check-valves, 11. threeways, 12. frames, 13. pressure pure water, 14. pressurized tanks, 14-1. breathes interface, and 14-2. is auxiliary
Adjuvant grafting mouth, 14-3. overhauls evacuated tube, 15. compressed airs, 16. pressure controllers, 17. maintenance exhaust-valves, 18. pressure-bearing hydroeciums,
19. sealing gaskets, 20. normally closed air bleeding valves.
Detailed description of the invention
In embodiment shown in embodiment 1 Fig. 1, a kind of aqueous medium gasified combustion apparatus is mainly by pressure pump 6, pressure
Power tank 14, burner assembly 1 and electrostatic generator 4 form, and wherein, burner assembly 1 includes that microporous membrane electrode 1-4, electrode hold
Sabot 1-1, duct cover dish 1-2 and insulated chassis 1-9, microporous membrane electrode 1-4 is tungsten powder and the material of nickel-sulfur alloy powder mixing
Material sinters tungsten nickel pseudo-alloy part into, when firing, and tungsten, nickel-sulfur alloy neither mutual phased soln, also it is formed without intermetallic compound, institute
The pseudo-alloy formed is organized as two phase structures of tungsten particle, nickel-sulfur alloy granule, there is micro-pore in pseudo-alloy tissue, small
Hole constitutes the filtration channel of hydrone, has the effect filtering hydrone, and the decomposition of hydrone is had by nickel-sulfur alloy therein
Having catalytic action, make hydrone be easier to decompose, the upper semisection of microporous membrane electrode 1-4 is conical structure, microporous membrane electrode 1-4
Lower half segment body in have water guide duct 1-401, microporous membrane electrode 1-4 be more than one;Electrode takes up microporous membrane electricity on dish 1-1
The installing hole of pole 1-4;Have and the duct 1-3 of microporous membrane electrode 1-4 equal number on the cover dish 1-2 of duct, duct 1-3 be upper little under
Big inverted tubaeform structure;In insulated chassis 1-9 fluted;Microporous membrane electrode 1-4 and duct cover dish 1-2 is arranged on electrode and takes up
On dish 1-1, the cone of microporous membrane electrode 1-4 upper semisection is placed among the duct 1-3 of duct cover dish 1-2, microporous membrane electrode 1-4
And the space between the wall body of duct 1-3 constitutes electrostatic field;Electrode takes up dish 1-1 and is arranged on insulated chassis 1-9 and is enclosed in
In groove port, the inner side taking up dish 1-1 at electrode has metal backing 1-5, metal backing 1-5 to be connected to microporous membrane electrode 1-4,
Having conductive plug 1-6 on metal backing 1-5, have electrically conductive socket 1-7 on insulated chassis 1-9, the conduction on metal backing 1-5 is inserted
Head 1-6 is inserted in the electrically conductive socket 1-7 on insulated chassis 1-9, and in the groove of insulated chassis 1-9, space constitutes pressure-bearing hydroecium
The water guide duct 1-401 of 18, microporous membrane electrode 1-4 is communicated to pressure-bearing hydroecium 18, and pressure-bearing hydroecium 18 has water supply connector 1-8 to access;
Electrically conductive socket 1-7 is wired in anode interface 4-2 of electrostatic generator 4, and duct cover dish 1-2 is wired to
On the negative pole interface 4-1 of electrostatic generator 4;The water supply connector 1-8 of pressure-bearing hydroecium 18 be connected to check-valves 10 and pressurized tank 14 it
Between pipeline on.In the present embodiment, taking up at electrode and have normally closed air bleeding valve 20 on dish 1-1, normally closed air bleeding valve 20 is communicated to pressure-bearing
Hydroecium 18, when using for the first time, opens normally closed air bleeding valve 20, and the air in pressure-bearing hydroecium 18 is discharged with water inlet, and it is easy to make into water;
Breathing interface 14-1 is arranged at the bottom of pressurized tank 14, and pressure controller 16 and maintenance exhaust-valve are arranged at the top of pressurized tank 14 or top
17, the outlet of pressure pump 6 is attached by the breathing interface 14-1 bottom check-valves 10 and pressurized tank 14;At pressure (hydraulic) water
Filter 8 is had on the pipeline that pump 6 accesses.In the present embodiment, electrode takes up dish 1-1 and insulated chassis 1-9 and selects aluminium oxide ceramics
Material or zirconia ceramics material make, and duct cover dish 1-2 selects stainless steel material to make.
The present embodiment uses in Industrial Boiler, and burner assembly 1 is arranged in the burner hearth of Industrial Boiler, to duct cover dish
1-2 carries out ground protection process, and pressure pump 6, pressurized tank 14 and electrostatic generator 4 are arranged on the periphery of Industrial Boiler.Work
Time, microporous membrane electrode 1-4 and duct cover dish 1-2 is applied the electrostatic of more than 10,000 volts, makes the upper semisection circle of microporous membrane electrode 1-4
Cone is in the electrostatic field among the 1-3 of duct, to increase the catalysis activity of microporous membrane electrode 1-4, and forms hydrone
Ionization;Using pure water as raw water, the pressurized water pump of raw water 6 enters into the pressure-bearing hydroecium 18 of burner assembly 1
In, raw water is entered in pressurized tank by the bottom of pressurized tank 14 simultaneously, makes the upper air in pressurized tank 14 be compressed, and is formed
Compressed air, the water of pressurized tank 14 bottom has pressure, the hydraulic pressure in pressure-bearing hydroecium 18 and pressure under compressed-air actuated effect
The hydraulic pressure of tank 14 bottom is equal.The pure water in pressure-bearing hydroecium 18 with pressure penetrates into microporous membrane by water guide duct 1-401
In the micro-pore of electrode 1-4, hydrone is filtered by the micro-pore of microporous membrane electrode 1-4, makes macromolecular mass become little
Molecule, the activity of hydrone is improved, and makes hydrone be easier to be decomposed, meanwhile, the nickel-sulfur alloy of microporous membrane electrode 1-4
Material carries out catalytic decomposition to hydrone.Hydrone, through pressure permeation, is changed into small molecular cluster structure by macromolecular mass, then
Ionize through the catalysis of nickel-sulfur alloy material and electrostatic field, be decomposed into hydrogen, oxygen and active hydrogen atom, active oxygen atom, activity
The activity chemistry thing of hydrogen-oxygen atomic group, escapes from the upper semisection cone of microporous membrane electrode 1-4, becomes vaporising fuel, enters
In the 1-3 of duct, the vaporising fuel that hydrone converts is by the high-voltage spark between microporous membrane electrode 1-4 and duct 1-3 wall body
Light, carry out back reaction burning, release heat energy.In said process, the water in pressure-bearing hydroecium 18 and infiltration into microporous membrane electrode
The water of 1-4 produces cooling effect to microporous membrane electrode 1-4, and protection microporous membrane electrode 1-4 is not burned.Operation in pressurized tank 14
Pressure is controlled by pressure controller 16, when the pressure in pressurized tank 14 is less than the threshold pression set, pressure controller 16
Connect the power supply of pressure pump 6, make pressure pump 6 run, carry out moisturizing to pressurized tank 14, make the air in pressurized tank 14 compress
And make pressure inside the tank raise;When the pressure in pressurized tank 14 reaches the pressure upper limit set, pressure controller 16 disconnects pressurization
The power supply of water pump 6, makes pressure pump 6 stop, and by the control of pressure controller 16, makes the pressure in pressurized tank 14 set model
Enclose interior constant.
Claims (7)
1. an aqueous medium gasified combustion apparatus, including pressure pump, pressurized tank, burner and electrostatic generator, pressure pump
Outlet be attached by the bottom of check-valves with pressurized tank, it is characterized in that burner assembly (1) is by microporous membrane electrode (1-
4), electrode takes up dish (1-1), duct cover dish (1-2) and insulated chassis (1-9) composition, wherein, microporous membrane electrode (1-4) composition
Hydrone filters and catalysis element, and the upper semisection of microporous membrane electrode (1-4) is conical structure, under microporous membrane electrode (1-4)
Having water guide duct (1-401), microporous membrane electrode (1-4) in half segment body is more than one;Electrode takes up has microporous membrane on dish (1-1)
The installing hole of electrode (1-4);The duct (1-3) with microporous membrane electrode (1-4) equal number is had on duct cover dish (1-2);Insulation
In chassis (1-9) fluted;Microporous membrane electrode (1-4) and duct cover dish (1-2) are arranged on electrode and take up on dish (1-1), micropore
The cone of membrane electrode (1-4) upper semisection is placed among the duct (1-3) in duct cover dish (1-2), microporous membrane electrode (1-4) and hole
Space between the wall body in road (1-3) constitutes electrostatic field;Electrode takes up dish (1-1) and is arranged on insulated chassis (1-9) and closes
In groove port, in the groove of insulated chassis (1-9), space constitutes pressure-bearing hydroecium (18), the water-guiding hole of microporous membrane electrode (1-4)
Road (1-401) is communicated to pressure-bearing hydroecium (18), and pressure-bearing hydroecium (18) has water supply connector (1-8) to access;The positive pole of electrostatic generator
Interface and negative pole interface are electrically connected with microporous membrane electrode (1-4), duct cover dish (1-2) respectively, pressure-bearing hydroecium (18)
Water supply connector (1-8) is connected on the pipeline between check-valves (10) and pressurized tank (14).
A kind of aqueous medium gasified combustion apparatus the most according to claim 1, is characterized in that microporous membrane electrode (1-4) is metal
Powder sintered microporous filter membrane structure, the micropore between metal dust constitutes the filtration channel of hydrone.
A kind of aqueous medium gasified combustion apparatus the most according to claim 1, is characterized in that taking up the interior of dish (1-1) at electrode
Side has metal backing (1-5), metal backing (1-5) to be connected to microporous membrane electrode (1-4), has conduction on metal backing (1-5)
Plug (1-6), has electrically conductive socket (1-7) on insulated chassis (1-9), conductive plug during assembling, on metal backing (1-5)
(1-6) being inserted in the electrically conductive socket (1-7) on insulated chassis (1-9), electrically conductive socket (1-7) is wired to electrostatic and sends out
In the anode interface (4-2) of raw device (4).
A kind of aqueous medium gasified combustion apparatus the most according to claim 1, is characterized in that taking up at electrode have on dish (1-1)
Normally closed air bleeding valve (20), normally closed air bleeding valve (20) is communicated to pressure-bearing hydroecium (18).
A kind of aqueous medium gasified combustion apparatus the most according to claim 1, is characterized in that the duct on duct cover dish (1-2)
(1-3) it is up-small and down-big inverted tubaeform structure.
A kind of aqueous medium gasified combustion apparatus the most according to claim 1, is characterized in that the bottom of pressurized tank has breathing to connect
Mouthful (14-1), the outlet of pressure pump is attached by the breathing interface (14-1) bottom check-valves (10) and pressurized tank.
A kind of aqueous medium gasified combustion apparatus the most according to claim 1, is characterized in that at the pipe that pressure pump (6) accesses
Filter (8) is had on road.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620874926.8U CN205855992U (en) | 2016-08-15 | 2016-08-15 | Aqueous medium gasified combustion apparatus |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620874926.8U CN205855992U (en) | 2016-08-15 | 2016-08-15 | Aqueous medium gasified combustion apparatus |
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CN205855992U true CN205855992U (en) | 2017-01-04 |
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ID=57593709
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201620874926.8U Withdrawn - After Issue CN205855992U (en) | 2016-08-15 | 2016-08-15 | Aqueous medium gasified combustion apparatus |
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CN (1) | CN205855992U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106145032A (en) * | 2016-08-15 | 2016-11-23 | 衢州昀睿工业设计有限公司 | Aqueous medium gasified combustion apparatus |
-
2016
- 2016-08-15 CN CN201620874926.8U patent/CN205855992U/en not_active Withdrawn - After Issue
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106145032A (en) * | 2016-08-15 | 2016-11-23 | 衢州昀睿工业设计有限公司 | Aqueous medium gasified combustion apparatus |
CN106145032B (en) * | 2016-08-15 | 2018-02-02 | 衢州昀睿工业设计有限公司 | Aqueous medium gasified combustion apparatus |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20170104 Effective date of abandoning: 20180202 |
|
AV01 | Patent right actively abandoned |