CN104110668B - Nanometer physics and chemistry steam generator - Google Patents
Nanometer physics and chemistry steam generator Download PDFInfo
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- CN104110668B CN104110668B CN201410347604.3A CN201410347604A CN104110668B CN 104110668 B CN104110668 B CN 104110668B CN 201410347604 A CN201410347604 A CN 201410347604A CN 104110668 B CN104110668 B CN 104110668B
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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
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P20/00—Technologies relating to chemical industry
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Abstract
The invention discloses nanometer physics and chemistry steam generator, the housing of thermal source chamber and water storage cavity it is provided with in including, at least one nanometer physics and chemistry heating power device penetrates in water storage cavity from thermal source chamber, nanometer physics and chemistry heating power device bottom is positioned at thermal source chamber, upper position is in water storage cavity, water storage cavity top is provided with steam outlet, water storage cavity is provided with and connects the water inlet having water inlet pipe, fuel burner is completely or partially arranged in thermal source chamber, nanometer physics and chemistry heating power device includes the metal tube of bottom end closure, metal tube top is provided with the vacuum valve closing metal tube top, metal tube lower end accommodates heat transfer nanometer synthetic medium, it is vacuum heat transfer chamber between vacuum valve and heat transfer nanometer synthetic medium in metal tube.The nanometer physics and chemistry steam generator simple in construction of the present invention, heat transfer are rapid, and the transmission heat constantly moved in circles produces steam, and the efficiency of heating surface is high, it it is 13 times of ordinary hot conduction pattern efficiency, heat utilization efficiency reaches 99%, and smokeless, dustless and pollution-free, reduction of discharging rate reaches more than 90%.
Description
Technical field
The present invention relates to a kind of heater, particularly relate to a kind of nanometer physics and chemistry steam generator.
Background technology
The development history of steam generator originated from for 18th century, through 19th century and 20th century so far, steam generator obtains
Development.Steam generator kind the most on the market is a lot, has mining steam generator, industrial vapour generator, doctor
With steam generator, house steam boiler generator, Nuclear steam generators etc..Hearth construction form from fire cylinder boiler,
Multitubular boiler is to water-tube boiler.Heat transfer form from Natural Circulation to auxiliary forced circulation progress.Use thermal source also from coal-fired, combustion
Oil, combustion gas, cleaning fuel to power supply universal polynary.But the outstanding behaviours that these generators use primary energy is tight for polluting
Weight, firmly to eliminate.The steam generator power consumption using power supply is high, and grid electricity fee cost is expensive.Also having is not on the thermal efficiency all the time
There is breakthrough progress.Just as Edison's invention incandescent lamp in 1891 is over more than 100 year, later despite fluorescent lamp in economize on electricity
There is no much differences yet.When the appearance of the LED semiconductor lamp to 21 century is only breakthrough progress, turn at electric energy until now
Turn on luminous energy, achieve a revolutionary leap.
Why Conventional steam generators does not has revolutionary leap?Literary composition is done it is crucial that utilize at a thermal source all the time
Chapter, only from fire cylinder, the change of fire tube to water pipe.The steam generator using power supply heating namely uses resistance wire, electric heating
The change of rod, does not find as the similar carrier of LED semiconductors transitions luminous energy, thus steam generator cannot realize energy-conservation and
Double this breakthrough high of efficiency.
Summary of the invention
The present invention is contemplated to the deficiency that solves in existing Conventional steam generators technology and completes, the purpose of the present invention
Being to provide simple in construction, heat transfer rapidly, and the transmission heat constantly moved in circles produces steam, the efficiency of heating surface is high, is common
1-3 times of heat exchange pattern efficiency, heat utilization efficiency reaches 99%, reduces discharging more than 90%, and smokeless, dustless and free of contamination nanometer is managed
Change steam generator.
The nanometer physics and chemistry steam generator of the present invention, including housing, arranges thermal source chamber and water storage cavity, at least in described housing
One nanometer physics and chemistry heating power device penetrates in described water storage cavity from described thermal source chamber, and the bottom of described nanometer physics and chemistry heating power device is positioned at heat
In source chamber, middle part and the top of described nanometer physics and chemistry heating power device are positioned at described water storage cavity, and described water storage cavity top is provided with steaming
Vapour delivery outlet, described steam outlet connects steam output pipe, and described water storage cavity is provided with water inlet, described water inlet
Connect have water inlet pipe, fuel burner part or all be arranged in described thermal source chamber, described nanometer physics and chemistry heating power device includes
The metal tube of bottom end closure, the top of described metal tube is provided with vacuum valve, and the top of described metal tube closed by described vacuum valve,
Described metal tube lower end accommodates heat transfer nanometer synthetic medium, described vacuum valve and described heat transfer nanometer in described metal tube
It it is vacuum heat transfer chamber between synthetic medium.
The nanometer physics and chemistry steam generator of the present invention it may also is that
Described heat transfer nanometer synthetic medium is made up according to the raw material of parts by weight of following: borax 10~30 parts, four
Nitrogen oxide 30~70 parts, metallic sodium or metallic potassium 20~55 parts, sodium potassium tartrate tetrahydrate 5~25 parts, methyl hydrazine 20~55 parts, Graphene
1~5 part, alkene 18~45 parts, pure water 901.9~724.5 parts.
Described nanometer synthetic medium is by borax 10~30 parts, nitrogen tetraoxide 30~70 parts, metallic sodium or metallic potassium 20~55
Part, sodium potassium tartrate tetrahydrate 5~25 parts, methyl hydrazine 20~55 parts, Graphene 1~5 parts, alkene 18~45 parts, pure water 901.9~
724.5 parts in a kettle. mix and blend within 5-10 minute, make.
Being provided with separate space plate in described housing, described separate space plate forms closing with the inwall at described housing upper and middle part
Water storage cavity, described separate space plate forms, with described lower housing portion inwall, the thermal source chamber closed.
Being provided with open-topped generation storehouse in described housing, described generation storehouse inwall is fixed with described case top inwall
Form described water storage cavity, between described generation storehouse side outer wall and the side inwall of described housing, leave exhaust gases passes, described generation storehouse
Bottom surface and described housing bottom inwall between formed thermal source chamber, described water inlet is arranged at bottom, described generation storehouse, described in enter
Water pipe connects with described water storage cavity with described water inlet, between described generation storehouse and described inner walls top through described housing
Being provided with fume emission mouth, described fume emission mouth connects with described exhaust gases passes, described generation storehouse and described inner walls it
Between form hot chamber, described inner walls top arranges superpressure safety exhaust.
Described vacuum valve is welded and fixed with described metal tube upper end.
Described hull outside is provided with water level air pressure display controller, described water level air pressure display controller and described water storage
Chamber connects, and described water level air pressure display controller and described water inlet are connected with control system respectively.
Described metal tube by 16M carbon steel, A249,304,310,316 stainless steel tube material any one make, described outside
Shell, inner casing are made up of 304 stainless steels or hot-galvanized steel plate material.
Described fuel burner is alcohol-based fuel burner or gas burner.
The nanometer physics and chemistry steam generator of the present invention, including housing, arranges thermal source chamber and water storage cavity, at least in described housing
One nanometer physics and chemistry heating power device penetrates in described water storage cavity from described thermal source chamber, and the bottom of described nanometer physics and chemistry heating power device is positioned at heat
In source chamber, middle part and the top of described nanometer physics and chemistry heating power device are positioned at described water storage cavity, and described water storage cavity top is provided with steaming
Vapour delivery outlet, described steam outlet connects steam output pipe, and described water storage cavity is provided with water inlet, described water inlet
Connect have water inlet pipe, fuel burner all or part of be arranged in described thermal source chamber, described nanometer physics and chemistry heating power device includes
The metal tube of bottom end closure, the top of described metal tube is provided with vacuum valve, and the top of described metal tube closed by described vacuum valve,
Described metal tube lower end accommodates heat transfer nanometer synthetic medium, described vacuum valve and described heat transfer nanometer in described metal tube
It it is vacuum heat transfer chamber between synthetic medium.So, the thermal source chamber in housing produces thermal source for heater and is pointed to described heat
Nanometer physics and chemistry heating power device bottom or the lower end i.e. fire end of nanometer physics and chemistry heating power device in source chamber heat, and water storage cavity is used for storing up
Water, and make water evaporate generation steam under the heat effect of nanometer physics and chemistry heating power device and then to needing thermal region to heat.
The steam produced is in place of steam outlet is heated to needs by steam output pipe output.The water inlet arranged on water storage cavity leads to
Cross in water is delivered to water storage cavity by water inlet pipe and ensure have enough water loggings do not have nanometer physics and chemistry heating power device and produce steam.Fuel combustion
Device completely or partially ensures in thermal source chamber that the lower end i.e. fire end of the nanometer physics and chemistry heating power device being positioned at thermal source chamber can be added
Heat.And nanometer physics and chemistry heating power device be the heat transfer nanometer synthetic medium of liquid form is injected in metal tube after, use vavuum pump
By vacuum valve, metal inner air tube is extracted out so that the pressure in metal tube is evacuated to 10-1Atmospheric pressure, true when being evacuated in metal tube
During dummy status, heat transfer nanometer synthetic medium becomes solid state, its heat transfer nanometer synthetic medium sinking under gravity
To bottom, metal tube bottom forms warm end, heats metal tube lower end, and when temperature is more than 45 DEG C, heat transfer nanometer synthesizes
Medium dissolves rapidly and is atomized as after gas, and it carries out heat biography at vacuum heat transfer cavity circulation the metal pipe-wall with metal tube
Lead, transfer heat to the metal pipe-wall of metal tube, owing to heat transfer nanometer synthetic medium will not outwards discharge waste gas, flue gas,
And recycling rate of waterused is high, it is smokeless, dustless, pollution-free relative to the advantage of prior art, and circulating-heating uses, energy-conservation
More than 50%, reduction of discharging rate is more than 95%.
Accompanying drawing explanation
Fig. 1 nanometer of the present invention physics and chemistry steam generator one embodiment schematic diagram.
Nanometer physics and chemistry heating power device schematic diagram in Fig. 2 nanometer of the present invention physics and chemistry steam generator.
Fig. 3 another embodiment schematic diagram of nanometer of the present invention physics and chemistry steam generator.
Fig. 4 nanometer of the present invention another embodiment of physics and chemistry steam generator overlooks cut-away view.
Figure number explanation
1 ... nanometer physics and chemistry heating power device 2 ... metal tube 3 ... heat transfer nanometer synthetic medium
4 ... vacuum valve 5 ... vacuum heat transfer chamber 6 ... heat-insulation layer
7 ... inner casing 8 ... shell 9 ... separate space plate
10 ... water storage cavity 11 ... thermal source chamber 12 ... water inlet pipe
13 ... steam output pipe 14 ... fuel burner 15 ... storehouse occurs
16 ... exhaust gases passes 17 ... fume emission mouth 18 ... hot chamber
19 ... water level air pressure display controller 20 ... superpressure safety exhaust
Detailed description of the invention
The nanometer physics and chemistry steam generator of the present invention is described in further detail by Fig. 1 to Fig. 4 below in conjunction with the accompanying drawings.
The nanometer physics and chemistry steam generator of the present invention, refer to Fig. 1 to Fig. 4, including housing, arranges thermal source in described housing
Chamber 11 and water storage cavity 10, at least one nanometer physics and chemistry heating power device 1 penetrates in described water storage cavity 10 from described thermal source chamber 11, described in receive
The bottom of meter Li Hua heating power device 1 is positioned at thermal source chamber 11, and middle part and the top of described nanometer physics and chemistry heating power device 1 are positioned at described water storage
In chamber 10, described water storage cavity 10 top is provided with steam outlet, and described steam outlet connects steam output pipe 13, described
Being provided with water inlet on water storage cavity 10, described water inlet connects water inlet pipe 12, fuel burner 14 all or part of set
Being placed in described thermal source chamber 11, described nanometer physics and chemistry heating power device 1 includes the metal tube 2 of bottom end closure, the top of described metal tube 2
Being provided with vacuum valve 4, the top of described metal tube 2 closed by described vacuum valve 4, and described metal tube 2 lower end accommodates heat transfer and receives
Rice synthetic medium 3, is vacuum heat transfer chamber between described vacuum valve 4 and described heat transfer nanometer synthetic medium 3 in described metal tube 2
5.So, the thermal source chamber 11 in housing produces, for heater, the nanometer physics and chemistry heating power that thermal source is pointed in described thermal source chamber 11
Device 1 bottom or the lower end i.e. fire end of nanometer physics and chemistry heating power device 1 heats, and water storage cavity 10 is used for storing water, and water is existed
Under the heat effect of nanometer physics and chemistry heating power device 1, evaporation produces steam and then to needing thermal region to heat.The steam produced is from steaming
In place of vapour delivery outlet is by steam output pipe 13 output to needs heating.The water inlet arranged on water storage cavity 10 is by water inlet pipe 12
Ensure have enough water loggings do not have nanometer physics and chemistry heating power device 1 and produce steam in water is delivered to water storage cavity 10.Fuel burner 14
All or part of thermal source chamber 11 in guarantee be positioned at the lower end i.e. fire end of the nanometer physics and chemistry heating power device 1 in thermal source chamber 11 can be by
Heating.And nanometer physics and chemistry heating power device 1 be the heat transfer nanometer synthetic medium 3 of liquid form is injected in metal tube 2 after, use true
Air in metal tube 2 is extracted out by empty pump by vacuum valve 4 so that the pressure in metal tube 2 is evacuated to 10-1Atmospheric pressure, when metal tube 2
When being inside evacuated to vacuum state, heat transfer nanometer synthetic medium 3 becomes solid state, its heat transfer nanometer synthesis under gravity
Medium 3 sinks down into bottom, and metal tube 2 bottom forms warm end, heats metal tube 2 lower end, and when temperature is more than 45 DEG C, heat passes
Admittance rice synthetic medium 3 dissolves rapidly and is atomized as after gas, its circulate in vacuum heat transfer chamber 5 and with the gold of metal tube 2
Belong to tube wall and carry out heat transfer, transfer heat to the metal pipe-wall of metal tube 2, owing to heat transfer nanometer synthetic medium 3 will not be to
Outer discharge waste gas, flue gas, and recycling rate of waterused is high, is smokeless, dustless, pollution-free relative to the advantage of prior art, and
Circulating-heating uses, and energy-conservation more than 50%, reduction of discharging rate is more than 95%.
The nanometer physics and chemistry steam generator of the present invention, refer to Fig. 1 to Fig. 4, on the basis of previously described technical scheme
On specifically may is that described heat transfer nanometer synthetic medium 3 is made up according to the raw material of parts by weight of following: borax 10~30
Part, nitrogen tetraoxide 30~70 parts, metallic sodium or metallic potassium 20~55 parts, sodium potassium tartrate tetrahydrate 5~25 parts, methyl hydrazine 20~55 parts,
Graphene 1~5 parts, alkene 18~45 parts, pure water 901.9~724.5 parts.I.e. heat transfer nanometer synthetic medium 3 is prepared raw material and is
Listed by above-mentioned, owing to having Graphene in heat transfer nanometer synthetic medium 3, it has superconduction speciality and makes whole heat transfer nanometer
Synthetic medium 3 is elevated and promotes, can be fast by heat energy with the speed of each second 700~1500 meters after being heated in vacuum environment
Speed is transferred to the upper end of metal tube 2, and the transmission heat constantly moved in circles, and makes metal tube 2 be in overall febrile state simultaneously,
The thermal efficiency can reach 99%.Than using the mode of heatings such as common electrical bar, quartz ampoule, resistance wire and fire coal, diesel oil, combustion gas
The energy consumed in heat power equipment is compared, energy-conservation more than 50%, reduces discharging more than 95%, smokeless, dustless, pollution-free.Enter one
Walking preferred technical scheme is that described heat transfer nanometer synthetic medium 33 is by borax 10~30 parts, nitrogen tetraoxide 30~70 parts, gold
Belong to sodium or metallic potassium 20~55 parts, sodium potassium tartrate tetrahydrate 5~25 parts, methyl hydrazine 20~55 parts, Graphene 1~5 parts, alkene 18~45
Part, pure water 901.9~724.5 parts mix and blend in a kettle. is made for 5-10 minute.As such, it is possible to preparation heat conductivity compares
Good described heat transfer nanometer synthetic medium 3, concrete can be use borax 10 parts, nitrogen tetraoxide 30 parts, metallic sodium 20 parts,
Sodium potassium tartrate tetrahydrate 5 parts, methyl hydrazine 20 parts, Graphene 1 part, 18 parts of alkene, pure water 901.9 parts mix and blend 5 points in a kettle.
The heat transfer nanometer synthetic medium 3 of example 1 made by clock.Can also is that by borax 30 parts, nitrogen tetraoxide 70 parts, metallic potassium 55 parts,
Sodium potassium tartrate tetrahydrate 25 parts, methyl hydrazine 55 parts, Graphene 5 parts, 45 parts of alkene, pure water 724.5 parts mix and blend 10 in a kettle.
Minute make the heat transfer nanometer synthetic medium 33 of example 2.Can also be by borax 20 parts, nitrogen tetraoxide 50 parts, metallic sodium 35
Part, sodium potassium tartrate tetrahydrate 15 parts, methyl hydrazine 46 parts, Graphene 3 parts, 30 parts of alkene, pure water 806 parts mix and blend 8 in a kettle.
Minute make the heat transfer nanometer synthetic medium 3 of example 3.The heat transfer nanometer synthetic medium 3 of these three example injects metal tube 2
Inside making nanometer physics and chemistry heating power device 1 and all can realize the overall heating of metal tube 2, the thermal efficiency is up to more than 99%, to water storage cavity 10
The water heating of interior contact makes its evaporation produce steam and by the output of this steam to the region needing heating.
The nanometer physics and chemistry steam generator of the present invention, refer to Fig. 1 to Fig. 4, on the basis of previously described technical scheme
Upper it may also is that be provided with separate space plate 9 in described housing, described separate space plate 9 is formed with the inwall at described housing upper and middle part
The water storage cavity 10 closed, described separate space plate 9 forms, with described lower housing portion inwall, the thermal source chamber 11 closed.The effect of separate space plate 9
It is that thermal source chamber 11 is separated with water storage cavity 10, it is to avoid both influence each other.And formed in water storage cavity 10 headspace and steam
Vapour, in place of the steam steam outlet from water storage cavity 10 top is delivered to need heating by steam output pipe 13.Can also is that
Being provided with open-topped generation storehouse 15 in described housing, described generation storehouse 15 inwall is fixing with described case top inwall to be formed
Described water storage cavity 10, leaves exhaust gases passes 16 (or hot chamber between described generation storehouse 15 side outer wall and the side inwall of described housing
18), forming thermal source chamber 11 between bottom surface and the described housing bottom inwall in described generation storehouse 15, described water inlet is arranged at described
Bottom, storehouse 15, described water inlet pipe 12 is occurred to connect with described water storage cavity 10 through described housing with described water inlet, described generation
Fume emission mouth 17, described fume emission mouth 17 and described exhaust gases passes 16 it is provided with between storehouse 15 and described inner walls top
Connection, forms hot chamber 18 between described generation storehouse 15 and described inner walls, described inner walls top arranges superpressure and arranges safely
Air valve 20.In this preferred embodiment, individually set up the generation storehouse 15 for storing water, the nanometer physics and chemistry heat in storehouse 15 occurs
Water in generation storehouse 15 is heated and produces steam by power device 1.There is to be formed between bottom surface, storehouse 15 and housing thermal source chamber 11, this
Sample thermal source chamber 11 is with water storage cavity 10 it is unlikely that water leakage situation, each parts split, and easy for installation, independent operating, prolongation is overall
The service life of nanometer physics and chemistry steam generator.The effect of water inlet pipe 12 is the convenient water that injects in there is storehouse 15, and flue gas row
Put the discharge that mouth 17 is then the flue gas produced after convenient fuel burns.Simultaneously because flue gas self-temperature is higher, therefore flue gas
Passage 16 can also be hot chamber 18, and a large amount of flue gases and hot gas are full of in hot chamber 18 and exhaust gases passes 16, and therefore flue gas leads at flue gas
Contact with the bulkhead that storehouse 15 occurs during rising in road 16 and carry out heat transfer, improve steam production further and improve heat
Conduction efficiency.And the effect of superpressure safety exhaust 20 is when occurring that pressure is excessive in storehouse, discharge some vapor so that occur
In storehouse, pressure returns normal range value.
The nanometer physics and chemistry steam generator of the present invention, refer to Fig. 1 to Fig. 4, on the basis of previously described technical scheme
It is upper it may also is that described vacuum valve 4 is welded and fixed with described metal tube 2 upper end.The effect of vacuum valve 4 is for by metal tube 2
Interior vacuum state.So can vacuum valve 4 and metal tube 2 upper end be sealed fixing so that metal tube 2 forms closing
Vacuum heat transfer chamber 5.The advantage of the mode of welding is good airproof performance, and technique is simple, low cost.Can also is that described hull outside sets
Being equipped with water level air pressure display controller 19, described water level air pressure display controller 19 connects with described water storage cavity 10, described water level
Air pressure display controller 19 and described water inlet are connected with control system respectively.The water level air pressure display control connected with water storage cavity 10
The device processed 19 water level within showing water storage cavity 10 and air pressure, it is to avoid nanometer physics and chemistry heating power device 1 exposes outside horizontal plane.Control
System time water level is the highest in water storage cavity 10, controls water inlet and opens inside water filling.
The nanometer physics and chemistry steam generator of the present invention, refer to Fig. 1 to Fig. 4, on the basis of previously described technical scheme
It is upper it may also is that described housing includes shell 8, inner casing 7 and the heat-insulation layer 6 being located between described inner casing 7 and shell 8.Shell 8
With the heat-insulation layer 6 between inner casing 7 is for carrying out insulation effect to the water in water storage cavity 10.Can also is that described metal tube 2 is by 16M
Carbon steel, A249,304,310,316 stainless steel tube material any one make.16M is low-alloy high-tensile structural steel, rationally selects
Join carbon content and can have preferably cutting and welding performance;A249 belongs to austenite high-quality welding steel, it is adaptable to the system of pressure vessel
Make, and have preferable heat resistance;304 stainless steel tubes have preferable decay resistance and heatproof up to 400-600 degree, 310,
316 corrosion resistant plates are then suitable for 500-1300 degree high temperature by higher resistance to elevated temperatures.Described shell 8, inner casing 7 are stainless by 304
Steel or hot-galvanized steel plate material are made, and this kind of material has enough decay resistances and intensity.Can also is that described fuel combustion
Device 14 is gas burner.Certainly burner or the power supply heating of other type can also be used, as long as can burn
Expect the fire end of nanometer physics and chemistry heating power device 1 bottom or lower end is heated.
Above-mentioned only several specific embodiments in the present invention are illustrated, but the protection model of the present invention can not be limited to
Enclose, every zoom in or out according to the equivalence change done by the design spirit in the present invention or modification or equal proportion, all should
Think and fall into protection scope of the present invention.
Claims (9)
1. nanometer physics and chemistry steam generator, it is characterised in that: include housing, thermal source chamber and water storage cavity are set in described housing, extremely
A few nanometer physics and chemistry heating power device penetrates in described water storage cavity from described thermal source chamber, and the bottom of described nanometer physics and chemistry heating power device is positioned at
In thermal source chamber, middle part and the top of described nanometer physics and chemistry heating power device are positioned at described water storage cavity, and described water storage cavity top is provided with
Steam outlet, described steam outlet connects steam output pipe, and described water storage cavity is provided with water inlet, described water inlet
Place connection have water inlet pipe, fuel burner part or all be arranged in described thermal source chamber, described nanometer physics and chemistry heating power device bag
Including the metal tube of bottom end closure, the top of described metal tube is provided with vacuum valve, and the top of described metal tube closed by described vacuum valve
End, described metal tube lower end accommodates heat transfer nanometer synthetic medium, described vacuum valve and described heat transfer in described metal tube
Being vacuum heat transfer chamber between nanometer synthetic medium, described heat transfer nanometer synthetic medium is by the following raw material according to parts by weight
Make: borax 10~30 parts, nitrogen tetraoxide 30~70 parts, metallic sodium or metallic potassium 20~55 parts, sodium potassium tartrate tetrahydrate 5~25 parts,
Methyl hydrazine 20~55 parts, Graphene 1~5 parts, alkene 18~45 parts, pure water 724.5~901.9 parts.
Nanometer physics and chemistry steam generator the most according to claim 1, it is characterised in that: described nanometer synthetic medium is by borax
10~30 parts, nitrogen tetraoxide 30~70 parts, metallic sodium or metallic potassium 20~55 parts, sodium potassium tartrate tetrahydrate 5~25 parts, methyl hydrazine 20~
55 parts, Graphene 1~5 parts, alkene 18~45 parts, pure water 724.5~901.9 parts 5-10 minute system of mix and blend in a kettle.
Become.
Nanometer physics and chemistry steam generator the most according to claim 1 and 2, it is characterised in that: be provided with in described housing every
Cavity plate, described separate space plate forms the water storage cavity closed, described separate space plate and described shell with the inwall at described housing upper and middle part
Body lower inner wall forms the thermal source chamber closed.
Nanometer physics and chemistry steam generator the most according to claim 1 and 2, it is characterised in that: it is provided with top in described housing
The generation storehouse of portion's opening, described generation storehouse inwall is fixing with described case top inwall forms described water storage cavity, described generation storehouse
Leave exhaust gases passes between the side inwall of side outer wall and described housing, the bottom surface in described generation storehouse and described housing bottom inwall it
Between formed thermal source chamber, described water inlet is arranged at bottom, described generation storehouse, described water inlet pipe pass described housing and described water inlet
Mouth connects with described water storage cavity, is provided with fume emission mouth, described flue gas between described generation storehouse and described inner walls top
Floss hole connects with described exhaust gases passes, forms hot chamber, described inner walls top between described generation storehouse and described inner walls
Portion arranges superpressure safety exhaust.
Nanometer physics and chemistry steam generator the most according to claim 1 and 2, it is characterised in that: described vacuum valve and described gold
Belong to pipe upper end to be welded and fixed.
Nanometer physics and chemistry steam generator the most according to claim 1 and 2, it is characterised in that: described hull outside is provided with
Water level air pressure display controller, described water level air pressure display controller connects with described water storage cavity, the display control of described water level air pressure
Device processed and described water inlet are connected with control system respectively.
Nanometer physics and chemistry steam generator the most according to claim 1 and 2, it is characterised in that: described housing includes shell, interior
Shell and the heat-insulation layer being located between described inner casing and shell.
Nanometer physics and chemistry steam generator the most according to claim 7, it is characterised in that: described metal tube by A249,304,
310,316 stainless steel tube materials any one make, described shell, inner casing are made up of 304 stainless steels or hot-galvanized steel plate material.
Nanometer physics and chemistry steam generator the most according to claim 1 and 2, it is characterised in that: described fuel burner is alcohol
Base fuel burner or gas burner.
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