CN106090910B - A kind of aqueous medium gasification combustion system - Google Patents

Abstract

A kind of aqueous medium gasification combustion system, it is related to burner apparatus, including pressure pump, air pump, pressurized tank, electrostatic generator, pressure controller and system controller, pressure controller is arranged on pressurized tank, system controller respectively with pressure pump, air pump, pressure controller is electrically connected, burner assembly is by catalysis electrode, electrode takes up disk, duct cover disk and insulated chassis composition, catalysis electrode and duct cover disk are taken up on disk installed in electrode, electrode takes up disk on insulated chassis, space forms pressure-bearing hydroecium in the groove of insulated chassis, the water guide duct of catalysis electrode is communicated to pressure-bearing hydroecium, pressure-bearing hydroecium has water supply connector access；The exhaust port of air pump is connected to the tonifying Qi interface of pressurized tank, and the delivery port of pressure pump is connected to the breathing interface of pressure pot bottom by check-valves, and the water supply connector of pressure-bearing hydroecium is connected on the pipeline between check-valves and the breathing interface of pressurized tank.The present invention realizes cleaning burning, preserved the ecological environment using aqueous medium as gasified raw material.

Description

A kind of aqueous medium gasification combustion system

Technical field

The present invention relates to burner apparatus, especially relates to a kind of aqueous medium combustion apparatus.

Background technology

Water is a kind of material most abundant 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 142120kj heat can be released by burning 1 kg hydrogen, be three times of gasoline.Water is developed into a kind of energy and applied, during burning Carbon dioxide is not produced, product only has water, can be repeatedly circulated, and to improving air acid rain environment, reduces dioxy in air Change carbon content, have great benefit so as to mitigate greenhouse effects.Therefore, exploitation aqueous medium fuel can not only solve energy shortage Situation, and environment protecting protrude.However, the hydrogen atom and oxygen atom in hydrone combine very firm, high-temperature heating Method need to be heated to hydrone to be decomposed for more than 3000 DEG C, and in general mode of heating is difficult to reach so high temperature；Industry On with current method decompose hydrone hydrogen manufacturing, decomposition rate is slow, efficiency is low, and consume energy it is very big.

The content of the invention

The shortcomings that the invention aims to overcome existing pyrolysis water hydrogen manufacturing and current method to decompose hydrone hydrogen manufacturing, there is provided one Kind aqueous medium gasification combustion system, is applied using water as a kind of energy, is realized cleaning burning, is preserved the ecological environment.

A kind of aqueous medium gasification combustion system of the present invention, including pressure pump, air pump, pressurized tank, electrostatic generator, pressure Force controller and system controller, pressure controller be arranged on pressurized tank on, system controller respectively with pressure pump, air pump, Pressure controller is electrically connected, it is characterized in that there is burner assembly 1 in system, burner assembly 1 by catalysis electrode 1-4, Electrode takes up disk 1-1, duct cover disk 1-2 and insulated chassis 1-9 composition, wherein, catalysis electrode 1-4 upper semisection is in cone knot Structure, there is water guide duct 1-401 in catalysis electrode 1-4 lower half segment body；There is number identical with catalysis electrode 1-4 on the cover disk 1-2 of duct The duct 1-3 of amount；It is fluted in insulated chassis 1-9；Catalysis electrode 1-4 and duct cover disk 1-2 take up disk 1-1 installed in electrode On, the cone of catalysis electrode 1-4 upper semisections is placed among duct cover disk 1-2 duct 1-3；Electrode takes up disk 1-1 and is arranged on On insulated chassis 1-9 and it is enclosed in groove port, space forms pressure-bearing hydroecium 21, catalysis electrode in insulated chassis 1-9 groove 1-4 water guide duct 1-401 is communicated to pressure-bearing hydroecium 21, and pressure-bearing hydroecium 21 has water supply connector 1-8 accesses；Disk 1- is taken up in electrode 1 inner side has metal backing 1-5, metal backing 1-5 to be connected to catalysis electrode 1-4, there is conductive plug 1- on metal backing 1-5 6, there is electrically conductive socket 1-7 on insulated chassis 1-9, the conductive plug 1-6 on metal backing 1-5 is inserted on insulated chassis 1-9 Electrically conductive socket 1-7 in, electrically conductive socket 1-7 is wired on the anode interface 4-2 of electrostatic generator；Pressurized tank 15 The 15-1 accesses of breathing interface are arranged at bottom, and the lower side of pressurized tank 15 has survey water electrode 15-2 to pick out, the upper side of pressurized tank 15 There are tonifying Qi interface 15-3 accesses in face, surveys water electrode 15-2 and is connected on the signal input part of system controller, the exhaust of air pump 17 Interface is connected to the tonifying Qi interface 15-3 of pressurized tank 15, and the delivery port of pressure pump 7 is connected to pressurized tank 15 by check-valves 11 The breathing interface 15-1 of bottom, the water supply connector 1-8 of pressure-bearing hydroecium 21 are connected to the breathing interface of check-valves 11 and pressurized tank 15 On pipeline between 15-1.

In the present invention, catalysis electrode 1-4 is metal powder sintered miillpore filter structure, and catalysis electrode 1-4 forms moisture Son filtering and catalysis element, sintered into when it is implemented, catalysis electrode 1-4 is the material that tungsten powder and nickel-sulfur alloy powder mix Tungsten nickel pseudo-alloy part, during firing, the neither mutual phased soln of tungsten, nickel-sulfur alloy, intermetallic compound is not also formed, the vacation formed Alloy structure is tungsten particle, two phase structures of nickel-sulfur alloy particle, micro-pore in pseudo-alloy tissue be present, and micro-pore is formed The filtration channel of hydrone, have the function that to filter hydrone, there is catalysis to make for decomposition of the nickel-sulfur alloy therein to hydrone With, make hydrone be easier decompose；Catalysis electrode 1-4 is more than one, and more catalysis electrodes are evenly distributed on electrode and take up disk On 1-1；Duct 1-3 on the cover disk 1-2 of duct is up-small and down-big inverted tubaeform structure, catalysis electrode 1-4 and duct cover disk 1-2 On duct 1-3 wall bodies between have space, space between catalysis electrode 1-4 and duct 1-3 wall body forms electrostatic field；Duct The negative pole interface of cover disk 1-2 and electrostatic generator is electrically connected；Being taken up in electrode on disk 1-1 has normally closed air bleeding valve 23, often Close air bleeding valve 23 and be communicated to pressure-bearing hydroecium 21；There is water purifier 9 on the pipeline that pressure pump 7 accesses.

The present invention is adapted to apply on Industrial Boiler, using aqueous medium as gasified raw material, realizes cleaning burning, obtains heat energy, Using when, pressure pump, air pump 17, pressurized tank, electrostatic generator, system controller 6 and burner assembly 1 install respective machine On frame.During work, apply more than 10,000 volts of electrostatic to catalysis electrode 1-4 and duct cover disk 1-2, make catalysis electrode 1-4 upper half Section cone is in the electrostatic field among the 1-3 of duct, to increase catalysis electrode 1-4 catalytic activity, and to hydrone shape Into ionization；The pressure-bearing hydroecium of burner assembly 1 is entered as raw water, the pressurized water pump 7 of raw water using pure water In 21, while raw water is entered in pressurized tank by the breathing interface 15-1 of the bottom of pressurized tank 15, makes the top in pressurized tank 15 empty Gas is compressed, and forms compressed air, and the water of the bottom of pressurized tank 15 has pressure, pressure-bearing hydroecium 21 in the presence of compressed air Interior hydraulic pressure is equal with the hydraulic pressure of the bottom of pressurized tank 15.The pure water with pressure passes through water guide duct 1- in pressure-bearing hydroecium 21 401 penetrate into catalysis electrode 1-4 micro-pore, and catalysis electrode 1-4 micro-pore filters to hydrone, make big point Son group turns into small molecule, and the activity of hydrone is improved, and makes hydrone be easier to be decomposed, meanwhile, catalysis electrode 1-4's Hydrone is catalytically decomposed nickel-sulfur alloy material.Hydrone is changed into small molecule by pressure permeation by macromolecular mass Unity structure, then through the catalysis of nickel-sulfur alloy material and electrostatic field ionization, it is decomposed into hydrogen, oxygen and active hydrogen atom, active oxygen The activity chemistry thing of atom, reactive hydrogen oxygen atomic group, escaped from catalysis electrode 1-4 upper semisection cone, turn into gasification combustion Material, is entered in the 1-3 of duct, and the vaporising fuel of hydrone conversion is by the high-tension electricity between catalysis electrode 1-4 and duct 1-3 wall bodies Spark is lighted, and carries out back reaction burning, releases heat energy.In said process, the operating pressure in pressurized tank 15 is by pressure controller 18 signal is input to system controller 6 and survey water electrode 15-2 signal is input to system controller 6, by system controller 6 are controlled, and when the water in pressurized tank 15 is consumed, the pressure in pressurized tank 15 can decrease, the pressure in pressurized tank 15 When the water level in threshold pression and pressurized tank 15 that power is set less than pressure controller 18 is less than water electrode 15-2 is surveyed, system control Device 6 connects the power supply of pressure pump 7, runs pressure pump 7, carries out moisturizing to pressurized tank 15, makes the air in pressurized tank 15 Compress and raise pressure inside the tank；When threshold pression and pressurized tank of the pressure in pressurized tank 15 less than the setting of pressure controller 18 When water level in 15 is higher than survey water electrode 15-2, system controller 6 connects the power supply of air pump 17, runs air pump 17, to pressure Input compressed air, makes the pressure rise in pressurized tank 15 in tank 15；When the pressure in pressurized tank 15 reaches the upper pressure limiting of setting During power, system controller 6 disconnects the power supply of pressure pump 7 or air pump 17, stops pressure pump 7 or air pump 17, passes through system The control of controller 6, make to keep pressure and water level constant in the range of setting in pressurized tank 15.The pressure-bearing hydroecium 21 of the present invention In water and penetrate into catalysis electrode 1-4 water cooling effect produced to catalysis electrode 1-4, protect catalysis electrode 1-4 not to be burned. The present invention is improved catalysis electrode 1-4 catalytic activity and is ionized hydrone using electrostatic field using electrostatic, reduces pyrolysis The temperature requirement of hydrone, institute's consuming electric power is few, and the decomposition efficiency of hydrone is high.

The present invention is taken up on disk 1-1 in electrode normally closed air bleeding valve 23, for the first time in use, opening normally closed air bleeding valve 23, holds Air in pumping chamber 21 is discharged with water inlet, and it is easy into water to make.

The beneficial effects of the invention are as follows：A kind of aqueous medium gasification combustion system provided, is adapted to apply on Industrial Boiler, Using aqueous medium as gasified raw material, hydrone by pressure permeation, small molecular cluster structure is changed into by macromolecular mass, then through nickel sulphur Alloy material is catalyzed and electrostatic field ionization, the vaporising fuel for being decomposed into hydrogen-oxygen are burnt, applied using water as a kind of energy, Cleaning burning is realized, is preserved the ecological environment.

Brief description of the drawings

Fig. 1 is a kind of structure chart of aqueous medium gasification combustion system of the present invention.

Fig. 2 is the attached view of burner assembly of the present invention.

Fig. 3 is the enlarged drawing of the catalysis electrode of the present invention.

In figure：1. burner assembly, 1-1. electrodes take up disk, 1-2. ducts cover disk, 1-3. ducts, 1-4. catalysis electrodes, 1-401. water guides duct, 1-402. outer-hexagonal bodies, 1-403. external screw threads, 1-404. micropore cones, 1-5. metal backings, 1-6. Conductive plug, 1-7. electrically conductive sockets, 1-8. water supply connectors, 1-9. insulated chassis, 2. fastening bolts, 3. wires, 4. electrostatic occur Device, 4-1. negative pole interfaces, 4-2. anode interfaces, 5. penstocks, 6. system controllers, 7. pressure pumps, 8. communicating pipes, 9. is net Hydrophone, 10. feed pipes, 11. check-valves, 12. threeways, 13. frames, 14. pressure pure water, 15. pressurized tanks, 15-1. breathings connect Mouthful, 15-2. surveys water electrode, 15-3. tonifying Qi interfaces, 15-4. satellite interfaces, 16. compressed airs, 17. air pumps, 18. Stress controls Device, 19. threeways, 20. maintenance exhaust-valves, 21. pressure-bearing hydroeciums, 22. sealing gaskets, 23. normally closed air bleeding valves.

Embodiment

In embodiment shown in the Fig. 1 of embodiment 1, a kind of aqueous medium gasification combustion system mainly by burner assembly 1, Pressure pump 7, air pump 17, pressurized tank 15, electrostatic generator 4, pressure controller 18 and system controller 6 form, Stress control Device 18 is arranged on pressurized tank 15, and system controller 6 is electrically connected with pressure pump 7, air pump 17, pressure controller 18 respectively Connecing, burner assembly 1 takes up disk 1-1 by catalysis electrode 1-4, electrode, duct cover disk 1-2 and insulated chassis 1-9 are formed, wherein, Catalysis electrode 1-4 upper semisection is in conical structure, there is water guide duct 1-401 in catalysis electrode 1-4 lower half segment body；Cover in duct It is up-small and down-big inverted tubaeform structure to have the duct 1-3 of quantity identical with catalysis electrode 1-4, duct 1-3 on disk 1-2；Insulation It is fluted in the 1-9 of chassis；Catalysis electrode 1-4 and duct cover disk 1-2 are taken up on disk 1-1 installed in electrode, and catalysis electrode 1-4 is one More than only, more catalysis electrodes are evenly distributed on electrode and taken up on disk 1-1, and the cone of catalysis electrode 1-4 upper semisections is placed in hole Among road cover disk 1-2 duct 1-3, there is space between the duct 1-3 wall bodies on catalysis electrode 1-4 and duct cover disk 1-2, be catalyzed Space between electrode 1-4 and duct 1-3 wall body forms electrostatic field；Electrode takes up disk 1-1 and is arranged on insulated chassis 1-9 simultaneously It is enclosed in groove port, space forms pressure-bearing hydroecium 21, catalysis electrode 1-4 water guide duct 1- in insulated chassis 1-9 groove 401 are communicated to pressure-bearing hydroecium 21, and pressure-bearing hydroecium 21 has water supply connector 1-8 accesses；Being taken up in electrode on the inside of disk 1-1 has metal liner Plate 1-5, metal backing 1-5 are connected to catalysis electrode 1-4, there is conductive plug 1-6 on metal backing 1-5, in insulated chassis 1-9 On have an electrically conductive socket 1-7, the conductive plug 1-6 on metal backing 1-5 is inserted into the electrically conductive socket 1-7 on insulated chassis 1-9, Electrically conductive socket 1-7 is wired on the anode interface 4-2 of electrostatic generator, duct cover disk 1-2 and electrostatic generator Negative pole interface is electrically connected；The 15-1 accesses of breathing interface are arranged at the bottom of pressurized tank 15, and the lower side of pressurized tank 15 has survey Water electrode 15-2 is picked out, and the upper side of pressurized tank 15 has tonifying Qi interface 15-3 accesses, surveys water electrode 15-2 and is connected to system control On the signal input part of device processed, the exhaust port of air pump 17 is connected to the tonifying Qi interface 15-3 of pressurized tank 15, and pressure pump 7 goes out The mouth of a river is connected to the breathing interface 15-1 of the bottom of pressurized tank 15, the water supply connector 1-8 connections of pressure-bearing hydroecium 21 by check-valves 11 Onto the pipeline between check-valves 11 and the breathing interface 15-1 of pressurized tank 15.In the present embodiment, being taken up in electrode on disk 1-1 has Normally closed air bleeding valve 23, normally closed air bleeding valve 23 are communicated to pressure-bearing hydroecium 21；There is water purifier 9 on the pipeline that pressure pump 7 accesses；Urge Polarizing electrode 1-4 is metal powder sintered miillpore filter structure, and catalysis electrode 1-4 forms hydrone filtering and catalysis element, urged Polarizing electrode 1-4 is that the material that tungsten powder and nickel-sulfur alloy powder mix sinters tungsten nickel pseudo-alloy part into, during firing, tungsten, nickel sulphur The neither mutual phased soln of alloy, does not also form intermetallic compound, and the pseudo-alloy formed is organized as tungsten particle, nickel-sulfur alloy particle Two phase structures, micro-pore in pseudo-alloy tissue be present, micro-pore forms the filtration channel of hydrone, has filtering moisture The effect of son, decomposition of the nickel-sulfur alloy therein to hydrone have catalytic action, make hydrone be easier to decompose；Electrode takes up Disk 1-1 and insulated chassis 1-9 is made from alumina ceramic material or zirconia ceramics material, and duct cover disk 1-2 is from stainless Steel material makes.

The present embodiment is used in Industrial Boiler, and burner assembly 1 is arranged in the burner hearth of Industrial Boiler, to duct cover disk 1-2 carries out ground protection processing, pressure pump 7, air pump 17, pressurized tank 15, electrostatic generator 4, pressure controller 18 and system Controller 6 is arranged on the periphery of Industrial Boiler.During work, more than 10,000 volts are applied to catalysis electrode 1-4 and duct cover disk 1-2 Electrostatic, catalysis electrode 1-4 upper semisection cone is set to be in the electrostatic field among the 1-3 of duct, to increase catalysis electrode 1-4's Catalytic activity, and ionization is formed to hydrone；Entered using pure water as raw water, the pressurized water pump 7 of raw water Into the pressure-bearing hydroecium 21 of burner assembly 1, while raw water enters pressurized tank by the breathing interface 15-1 of the bottom of pressurized tank 15 It is interior, the upper air in pressurized tank 15 is compressed, forms compressed air, the work of the water of the bottom of pressurized tank 15 in compressed air There is pressure with lower, the hydraulic pressure in pressure-bearing hydroecium 21 is equal with the hydraulic pressure of the bottom of pressurized tank 15.There is pressure in pressure-bearing hydroecium 21 Pure water penetrated into by water guide duct 1-401 in catalysis electrode 1-4 micro-pore, catalysis electrode 1-4 micro-pore Hydrone is filtered, macromolecular mass is turned into small molecule, the activity of hydrone is improved, and makes hydrone be easier to obtain Decompose, meanwhile, hydrone is catalytically decomposed catalysis electrode 1-4 nickel-sulfur alloy material.Hydrone by pressure permeation, Small molecular cluster structure is changed into by macromolecular mass, then through the catalysis of nickel-sulfur alloy material and electrostatic field ionization, is decomposed into hydrogen, oxygen And the activity chemistry thing of active hydrogen atom, active oxygen atom, reactive hydrogen oxygen atomic group, justify from catalysis electrode 1-4 upper semisection Escaped in cone, turn into vaporising fuel, entered in the 1-3 of duct, the vaporising fuel of hydrone conversion is by catalysis electrode 1-4 and hole High-voltage spark between road 1-3 wall bodies is lighted, and carries out back reaction burning, releases heat energy.In said process, in pressurized tank 15 Operating pressure is input to system by the signal that the signal of pressure controller 18 is input to system controller 6 and surveys water electrode 15-2 Controller 6, it is controlled by system controller 6, when the water in pressurized tank 15 is consumed, the pressure in pressurized tank 15 can drop therewith It is low, survey water when the water level in the threshold pression and pressurized tank 15 that the pressure in pressurized tank 15 is set less than pressure controller 18 is less than During electrode 15-2, system controller 6 connects the power supply of pressure pump 7, runs pressure pump 7, and moisturizing is carried out to pressurized tank 15, The air in pressurized tank 15 is set to compress and raise pressure inside the tank；When the pressure in pressurized tank 15 is set less than pressure controller 18 Threshold pression and pressurized tank 15 in water level higher than survey water electrode 15-2 when, system controller 6 connect air pump 17 power supply, make Air pump 17 is run, and to input compressed air in pressurized tank 15, makes the pressure rise in pressurized tank 15；Pressure in pressurized tank 15 When reaching the pressure upper limit of setting, system controller 6 disconnects the power supply of pressure pump 7 or air pump 17, makes pressure pump 7 or air pump 17 stop, and by the control of system controller 6, make to keep pressure and water level constant in the range of setting in pressurized tank 15.This Embodiment first in use, opening normally closed air bleeding valve 23, with water inlet discharge, and makes into the water capacity by the air in pressure-bearing hydroecium 21 Easily.

Claims (7)

1. a kind of aqueous medium gasification combustion system, including pressure pump, air pump, pressurized tank, electrostatic generator, pressure controller and System controller, pressure controller be arranged on pressurized tank on, system controller respectively with pressure pump, air pump, pressure controller It is electrically connected, it is characterized in that there is burner assembly in system（1）, burner assembly（1）By catalysis electrode（1-4）, electrode Take up disk（1-1）, duct cover disk（1-2）And insulated chassis（1-9）Composition, wherein, catalysis electrode（1-4）Upper semisection be in circular cone Body structure, catalysis electrode（1-4）Lower half segment body in have water guide duct（1-401）；Duct cover disk（1-2）On have and catalysis electrode （1-4）The duct of identical quantity（1-3）；Insulated chassis（1-9）In it is fluted；Catalysis electrode（1-4）With duct cover disk（1-2）Peace Disk is taken up mounted in electrode（1-1）On, catalysis electrode（1-4）The cone of upper semisection is placed in duct cover disk（1-2）Duct（1-3） Among；Electrode takes up disk（1-1）Installed in insulated chassis（1-9）Go up and be enclosed in groove port, insulated chassis（1-9）Groove Interior space forms pressure-bearing hydroecium（21）, catalysis electrode（1-4）Water guide duct（1-401）It is communicated to pressure-bearing hydroecium（21）, pressure-bearing Hydroecium（21）There is water supply connector（1-8）Access；Disk is taken up in electrode（1-1）Inner side have metal backing（1-5）, metal backing （1-5）It is connected to catalysis electrode（1-4）, in metal backing（1-5）On have conductive plug（1-6）, in insulated chassis（1-9）On have Electrically conductive socket（1-7）, metal backing（1-5）On conductive plug（1-6）It is inserted into insulated chassis（1-9）On electrically conductive socket （1-7）In, electrically conductive socket（1-7）It is wired to the anode interface of electrostatic generator（4-2）On；Pressurized tank（15）Bottom There is breathing interface in portion（15-1）Access, pressurized tank（15）Lower side have survey water electrode（15-2）Pick out, pressurized tank（15）'s Upper side has tonifying Qi interface（15-3）Access, survey water electrode（15-2）It is connected on the signal input part of system controller, gas Pump（17）Exhaust port be connected to pressurized tank（15）Tonifying Qi interface（15-3）, pressure pump（7）Delivery port pass through non-return Valve（11）It is connected to pressurized tank（15）The breathing interface of bottom（15-1）, pressure-bearing hydroecium（21）Water supply connector（1-8）It is connected to Check-valves（11）With pressurized tank（15）Breathing interface（15-1）Between pipeline on.

A kind of 2. aqueous medium gasification combustion system according to claim 1, it is characterized in that catalysis electrode（1-4）For metal powder The miillpore filter structure of end sintering, catalysis electrode（1-4）Form hydrone filtering and catalysis element.

A kind of 3. aqueous medium gasification combustion system according to claim 1, it is characterized in that catalysis electrode（1-4）For one with On, more catalysis electrodes are evenly distributed on electrode and take up disk（1-1）On.

A kind of 4. aqueous medium gasification combustion system according to claim 1, it is characterized in that duct cover disk（1-2）On duct （1-3）For up-small and down-big inverted tubaeform structure, catalysis electrode（1-4）With duct cover disk（1-2）On duct（1-3）Wall body it Between have space, catalysis electrode（1-4）With duct（1-3）Wall body between space form electrostatic field.

A kind of 5. aqueous medium gasification combustion system according to claim 1, it is characterized in that duct cover disk（1-2）Sent out with electrostatic The negative pole interface of raw device is electrically connected.

A kind of 6. aqueous medium gasification combustion system according to claim 1, it is characterized in that taking up disk in electrode（1-1）On have Normally closed air bleeding valve（23）, normally closed air bleeding valve（23）It is communicated to pressure-bearing hydroecium（21）.

A kind of 7. aqueous medium gasification combustion system according to claim 1, it is characterized in that in pressure pump（7）The pipe of access There is water purifier on road（9）.