CN105066419A - Plasma heater and plasma heating device - Google Patents
Plasma heater and plasma heating device Download PDFInfo
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- CN105066419A CN105066419A CN201510420784.8A CN201510420784A CN105066419A CN 105066419 A CN105066419 A CN 105066419A CN 201510420784 A CN201510420784 A CN 201510420784A CN 105066419 A CN105066419 A CN 105066419A
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Abstract
The invention discloses a plasma heater. The plasma heater comprises a cathode and a nozzle. A plasma generation space is formed by the head of the cathode and the nozzle. The cathode is sleeved with a tubular structure. The tubular structure is sleeved with a channel. The channel is communicated with a water supply system. One end of the channel extends to the plasma generation space. The nozzle comprises a nozzle wall and a nozzle opening located in the nozzle wall. The invention further discloses a plasma heating device. Compared with old-fashioned electric heating, the electricity consumption of the plasma heating device is reduced by at least 50 times, the water consumption can be ignored nearly, most water is recycled, and the service life of the plasma heating device can reach above 30 years. Compared with traditional consumption, gas combustion and electricity consumption, cost is low, the electricity consumption is low, the heat value is high, outside and inside restrictions are avoided, the application space is broad, the plasma heating device is a new energy support project, a national energy crisis is solved, and the plasma heating device is one of sustainable development projects.
Description
Technical field
The present invention relates to a kind of heater, specifically a kind of plasma heater and heating plasma heating installation.
Background technology
At present, the fuel of household heating equipment use is all non-renewable energy resources, comprises coal, fuel oil etc., and along with the increase of population, the consumption of people to non-renewable energy resources increases gradually, brings Heavy environmental pollution problem and lack of energy problem day by day.For a long time, people are finding some new forms of energy replacement non-renewable energy resources always.Hydrone is by hydrogen and oxygen (H
2o) form, after decomposition, hydrogen can burn, oxygen can be combustion-supporting, and the calorific value of combustion of hydrogen is three times more than of gasoline, and combustion product is water, free from environmental pollution, is the very clean reusable fuel of one.But the energy resource consumption of current hydrogen producing technology is too large and efficiency is very low.
In recent years, plasma technique application development is industrially very fast, such as: plasma igniting, plasma heating etc.Plasma is a kind of state (being commonly called as the 4th state) formed under ionosphere or electric discharge phenomena, along with electric discharge phenomena will generate excited atom, excited ion, dissociation atom, free atomic group, the activity chemistry thing of atom or molecular ion group and they and other chemicals collide and the reaction that causes.In plasma generator, discharge process makes work gas molecule lose outer-shell electron and form ionic condition, produce high temperature through mutually colliding and decompose, temperature can up to more than several ten thousand degree, and the temperature of ion is only a little more than normal temperature, therefore the temperature in electric discharge field, close to normal temperature, is commonly called as low temperature plasma or non-equilibrium low temperature plasma.
Summary of the invention
According to the problem that the consumption of existing household heating equipment to non-renewable energy resources of above-mentioned proposition brings, and provide a kind of and turn hydrogen as the plasma heater of the energy and heating plasma heating installation using water.
The technological means that the present invention adopts is as follows:
A kind of plasma heater, comprise negative electrode and nozzle, head and the described nozzle of described negative electrode form plasma generation space, described cathode target materials has tubular structure, described tubular structure overcoat has passage, and described passage is communicated with water system, and described passage end extends to described plasma generation space, described nozzle comprises nozzle wall and is positioned at the nozzle opening on described nozzle wall, and described negative electrode afterbody is provided with the direct voltage source providing voltage between described negative electrode and described nozzle.The thermal insulation layer of described plasma heater is formed between described tubular structure and described passage, water (being provided by described water system) in described thermal insulation layer is as cooling agent, during installation, described tubular structure inserts described passage, described negative electrode inserts described tubular structure, the head of described negative electrode is positioned at outside described tubular structure, namely described passage extends to and stops near the place of described negative electrode, when making duty, water in described passage can flow back and forth at the two ends of described tubular structure outer wall, constantly be heated and produce a large amount of steam, ensure that the normal use of described plasma heater, and described passage extends to the setting of described plasma generation space, steam and hot-air are together arrived in described plasma generation space and decomposite hydrogen and oxygen under the effect of plasma arc (temperature can reach 1300 DEG C-1500 DEG C), described tubular structure is also the electricity isolated layer of described negative electrode simultaneously, effectively can guarantee that between described negative electrode and described nozzle, constant potential is poor, this is also favourable to the described cooled cathode of guarantee.
Described nozzle opening has the big opening end be positioned at outside described nozzle and the osculum end be positioned at inside described nozzle, namely described nozzle opening is infundibulate, the ratio of the maximum diameter of hole of described big opening end and the degree of depth of described nozzle opening is greater than 2, and the thickness of described nozzle wall equals the degree of depth of described nozzle opening.
Described big opening end ovalize, the one in square or triangle; Described osculum end ovalize, the one in square or triangle, mention except shape except above-mentioned, the shape of described big opening end and described osculum end also comprises other regular figures or irregular figure.
Described big opening end ovalize, described osculum end ovalize, the ratio of the major axis of described osculum end and the minor axis of described osculum end is more than 1.3.
The thickness of described nozzle wall is below 3mm, and the length of the major axis of described osculum end is 3-5mm, and the minor axis of described osculum end is 1-2.5mm.
Described tubular structure is made up of glass or quartz glass, and the internal diameter of described tubular structure is more than or equal to the maximum outside diameter of described negative electrode.
Described passage is communicated with liquid storage device away from one end of described plasma generation space, and described liquid storage device is used for water unnecessary in passage described in splendid attire,
Described water system comprises water supercharging device, and described passage is communicated with described water supercharging device, and described water supercharging device ensure that the water in described passage can flow to described plasma generation space along passage and control flow.
The invention also discloses a kind of heating plasma heating installation using above-mentioned plasma heater, comprise described plasma heater and heating space, described heating space has a hole at least, the minimum dimension specific surface of the cross section in described hole large more than 2 times to the full-size of the maximum cross section of the end of the described plasma heater in described hole, described nozzle opening presses close to described hole;
Be provided with runner outside described heating space, described runner one end has water inlet, and the described runner other end has delivery port, and described water inlet is communicated with water-circulating pump respectively with described delivery port, and described water-circulating pump is communicated with heating system by recirculated water storage device,
Under duty, water in described water system to be delivered in described passage and to produce the pressure of 800mbar-1200mbar by described water supercharging device, described direct voltage source produces 160V-190V voltage and produces plasma arc between described negative electrode and described nozzle, water in described passage is constantly heated and produces a large amount of steam, described plasma generation space is together arrived afterwards with hot-air, hydrogen is resolved under the effect of plasma arc, after described hydrogen output directly with plasma arc combining combustion for the gas-heated in described heating space, and then the water in described runner is heated up.When after the hydrogen and plasma arc combining combustion of output, reduce the length of plasma arc by control voltage, reach energy-conservation effect.
By control system, described heating plasma heating installation guarantees that the length that Control of Voltage can maintain plasma arc between 160V-190V guarantees that potential difference can not be too high, also can ensure that the electric energy consumed drops to minimum.
Described heating space is cylindrical, and described hole is positioned at described one of them bottom surface cylindrical, and the diameter of described bottom surface is below 150cm.
As preferably, the diameter of described bottom surface is below 75cm.
The present invention has the following advantages:
The present invention adopts the thermal insulation layer formed between tubular structure and passage, makes the water article on plasma heater in passage play cooling effect, and a large amount of steam of generation that is constantly heated, and control the water yield by water supercharging device;
Passage is adopted to extend to plasma generation space, steam and hot-air together can be arrived in plasma generation space and decomposite hydrogen and oxygen under the effect of plasma arc (temperature can reach 1300 DEG C-1500 DEG C), after hydrogen output directly with plasma arc combining combustion for the gas-heated in described heating space, add the calorific value of burning, accelerate the speed of heat exchange, save electric energy, and few for generation of the water yield of hydrogen;
Adopt water-circulating pump by the water circulation in heating system in runner, and then the water in described runner is heated up, the water temperature reaching whole heating system raises, and makes the equal width of thermal energy conduction, is conducive to the control of temperature;
Adopt control system, guarantee that the length that Control of Voltage can maintain plasma arc between 160V-190V guarantees that potential difference can not be too high, also can ensure that the electric energy consumed drops to minimum;
The power consumption of heating plasma heating installation of the present invention is compared with old-fashioned electricity consumption heating, power consumption at least reduces 50 times, and the water yield is almost negligible, so-called pollutant is exactly water, major part water recycles, service life service life of heating plasma heating installation of the present invention can reach more than 30 years, reasonable in internal structure.Compared with traditional burning, combustion gas, combustion electricity, cost is low, and power consumption is low, and calorific value is high, does not limit by extraneous and inherent condition, and application space is extensively that new forms of energy help project, and solving national energy crisis, is one of sustainable development project.
The present invention extensively can promote in fields such as plasma devices for the foregoing reasons.
Accompanying drawing explanation
Below in conjunction with the drawings and specific embodiments, the present invention is further detailed explanation.
Fig. 1 is the structural representation of heating plasma heating installation in the specific embodiment of the present invention.
Fig. 2 is the structural representation of plasma heater in the specific embodiment of the present invention.
Fig. 3 is the structural representation of plasma heater and heating space in the specific embodiment of the present invention.
Fig. 4 is the structural representation of nozzle in the specific embodiment of the present invention.
Detailed description of the invention
As Figure 1-Figure 4, a kind of heating plasma heating installation, comprise plasma heater 1 and heating space 2 and the control system device 3 for controlling described heating plasma heating installation, described plasma heater 1 comprises negative electrode 11 and nozzle 12, head 111 and the described nozzle 12 of described negative electrode 11 form plasma generation space 13, described negative electrode 11 overcoat has tubular structure 14, described tubular structure 14 is made up of glass or quartz glass, the internal diameter of described tubular structure 14 equals the maximum outside diameter of described negative electrode 11, described tubular structure 14 overcoat has passage 15, described passage 15 is communicated with water system, described passage 15 one end extends to described plasma generation space 13, described passage 15 is communicated with liquid storage device 16 away from one end of described plasma generation space 13, the nozzle opening 122 that described nozzle 12 comprises nozzle wall 121 and is positioned on described nozzle wall 121, described negative electrode 11 afterbody is through described liquid storage device 16 and the direct voltage source 17 providing voltage described negative electrode 11 and described nozzle 12.
Described nozzle opening 122 has the big opening end 1221 be positioned at outside described nozzle 12 and the osculum end 1222 be positioned at inside described nozzle 12, the maximum diameter of hole 1223 of described big opening end 1221 is greater than 2 with the ratio of the degree of depth of described nozzle opening 122, and the thickness of described nozzle wall 121 equals the degree of depth of described nozzle opening 122.
Described big opening end 1221 ovalize, described osculum end 1222 ovalize,
The thickness of described nozzle wall 121 is 3mm, and the length of the major axis 1224 of described osculum end 1222 is 5mm, and the minor axis 1225 of described osculum end 1222 is 2.5mm.
Described water system comprises water supercharging device 4, and described passage 15 is communicated with described water supercharging device 4.
Described heating space 2 has a hole 21 at least, the minimum dimension specific surface of the cross section in described hole 21 large more than 2 times to the full-size of the maximum cross section of the end of the described plasma heater 1 in described hole 21, and described nozzle opening 122 presses close to described hole 21; Described heating space 2 is in cylindrical, and described hole 21 is positioned at described one of them bottom surface cylindrical, and the diameter of described bottom surface is below 75cm.
Runner 22 is provided with outside described heating space 2, described runner 22 is looped around on the outer wall of described heating space 2, described runner 22 one end has water inlet, described runner 22 other end has delivery port, described water inlet is communicated with water-circulating pump 5 respectively with described delivery port, described water-circulating pump 5 is communicated with heating system by recirculated water storage device 6, and described heating plasma heating installation also comprises the Pressure gauge 7 detecting described channel pressure
Under duty, water in described water system to be delivered in described passage 15 and to produce the pressure of 800mbar-1200mbar by described water supercharging device 4, described direct voltage source 17 produces 190V voltage and produces plasma arc between described negative electrode 11 and described nozzle 12, water in described passage 15 is constantly heated and produces a large amount of steam, described plasma generation space 13 is together arrived afterwards with hot-air, hydrogen is resolved under the effect of plasma arc, after described hydrogen output directly with plasma arc combining combustion for the gas-heated in described heating space 2, and then the water in described runner 22 is heated up.
Heating plasma heating installation of the present invention is started working when zero degree, after 25 minutes, namely the 1st group of radiator temperature rises to 70 DEG C, need the time relatively will grow if increase radiator, but the temperature difference of getting, the change of temperature is little, just the time can extend 10-20 minute, power consumption (about 1 degree of electricity per hour) is compared with old-fashioned electricity consumption heating, power consumption at least reduces 50 times, and the water yield is almost negligible, so-called pollutant is exactly water, major part water recycles, service life service life of heating plasma heating installation of the present invention can reach more than 30 years, reasonable in internal structure.Compared with traditional burning, combustion gas, combustion electricity, cost is low, and power consumption is low, and calorific value is high, does not limit by extraneous and inherent condition, and application space is extensively that new forms of energy help project, and solving national energy crisis, is one of sustainable development project.
The above; be only the present invention's preferably detailed description of the invention; but protection scope of the present invention is not limited thereto; anyly be familiar with those skilled in the art in the technical scope that the present invention discloses; be equal to according to technical scheme of the present invention and inventive concept thereof and replace or change, all should be encompassed within protection scope of the present invention.
Claims (10)
1. a plasma heater, it is characterized in that: comprise negative electrode and nozzle, head and the described nozzle of described negative electrode form plasma generation space, described cathode target materials has tubular structure, described tubular structure overcoat has passage, described passage is communicated with water system, described passage end extends to described plasma generation space, described nozzle comprises nozzle wall and is positioned at the nozzle opening on described nozzle wall, and described negative electrode afterbody is provided with the direct voltage source providing voltage between described negative electrode and described nozzle.
2. plasma heater according to claim 1, it is characterized in that: described nozzle opening has the big opening end be positioned at outside described nozzle and the osculum end be positioned at inside described nozzle, the ratio of the maximum diameter of hole of described big opening end and the degree of depth of described nozzle opening is greater than 2, and the thickness of described nozzle wall equals the degree of depth of described nozzle opening.
3. plasma heater according to claim 2, is characterized in that: described big opening end ovalize, the one in square or triangle; Described osculum end ovalize, the one in square or triangle.
4. plasma heater according to claim 3, is characterized in that: described big opening end ovalize, described osculum end ovalize, and the ratio of the major axis of described osculum end and the minor axis of described osculum end is more than 1.3.
5. plasma heater according to claim 4, is characterized in that: the thickness of described nozzle wall is below 3mm, and the length of the major axis of described osculum end is 3-5mm, and the minor axis of described osculum end is 1-2.5mm.
6. plasma heater according to claim 1, is characterized in that: described tubular structure is made up of glass or quartz glass, and the internal diameter of described tubular structure is more than or equal to the maximum outside diameter of described negative electrode.
7. plasma heater according to claim 1, is characterized in that: described passage is communicated with liquid storage device away from one end of described plasma generation space, and described water system comprises water supercharging device, and described passage is communicated with described water supercharging device.
8. one kind uses the heating plasma heating installation of the plasma heater described in the arbitrary claim of claim 1-7, it is characterized in that: comprise described plasma heater and heating space, described heating space has a hole at least, the minimum dimension specific surface of the cross section in described hole large more than 2 times to the full-size of the maximum cross section of the end of the described plasma heater in described hole, described nozzle opening presses close to described hole;
Be provided with runner outside described heating space, described runner one end has water inlet, and the described runner other end has delivery port, and described water inlet is communicated with water-circulating pump respectively with described delivery port, and described water-circulating pump is communicated with heating system by recirculated water storage device,
Under duty, water in described water system to be delivered in described passage and to produce the pressure of 800mbar-1200mbar by described water supercharging device, described direct voltage source produces 160-190V voltage and produces plasma arc between described negative electrode and described nozzle, water in described passage is constantly heated and produces a large amount of steam, described plasma generation space is together arrived afterwards with hot-air, hydrogen is resolved under the effect of plasma arc, after described hydrogen output directly with plasma arc combining combustion for the gas-heated in described heating space, and then the water in described runner is heated up.
9. heating plasma heating installation according to claim 8, is characterized in that: described heating space is cylindrical, and described hole is positioned at described one of them bottom surface cylindrical, and the diameter of described bottom surface is below 150cm.
10. heating plasma heating installation according to claim 9, is characterized in that: the diameter of described bottom surface is below 75cm.
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CN105444164A (en) * | 2015-12-24 | 2016-03-30 | 韩汶冀 | Combustion device |
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ES2695251A1 (en) * | 2017-06-27 | 2019-01-02 | Esteban Francisco Javier Gredilla | Generator for domestic hot water and heating boilers. (Machine-translation by Google Translate, not legally binding) |
CN111642050A (en) * | 2020-06-08 | 2020-09-08 | 江苏帕斯玛环境科技有限公司 | Steam plasma generating system and monitoring system thereof |
CN112082154A (en) * | 2020-09-11 | 2020-12-15 | 李宝伟 | Plasma state hydrogen-oxygen atom burner and control method thereof |
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CN112082154B (en) * | 2020-09-11 | 2022-10-14 | 李宝伟 | Plasma state hydrogen-oxygen atom burner and control method thereof |
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