WO2007085189A1

WO2007085189A1 - A laser-scanning electric atom-resonating hydrocarbon-catalyzing method and a device thereof

Info

Publication number: WO2007085189A1
Application number: PCT/CN2007/000262
Authority: WO
Inventors: Zhiqiang Xu
Original assignee: Zhiqiang Xu
Priority date: 2006-01-27
Filing date: 2007-01-24
Publication date: 2007-08-02
Also published as: CN101008367A; CN100507255C

Abstract

A laser-scanning electric atom-resonating hydrocarbon-catalyzing method and a device thereof are disclosed. The device comprises a housing (1), a laser radiation array, a wire mesh having big mesh count, and a nuclear magnetic resonance passage. An insulation layer (8) is lined in the housing, an inlet (9) and an outlet (10) are provided at the both ends of the housing. A first laser radiation array (2), a laser radiation refraction-reflection sheet (3) , a wire mesh (4) having big mesh count, a second laser radiation array (6) and the nuclear magnetic resonance passage (7) are provided in the housing. The wire mesh having big mesh count is connected with the electricity of high frequency and is provided with ferrite particle.

Description

Laser scanning electric atom resonance type hydrocarbon hydrogen catalytic method and device

TECHNICAL FIELD The present invention relates to the field of electronics, and more particularly to a laser scanning electrical atom resonance hydrocarbon catalytic method and apparatus. BACKGROUND OF THE INVENTION In the energy market where oil prices are rising, the development of new energy sources and the potential of ordinary energy sources have become the subject of joint research and development by scientific and technological personnel in various countries around the world. China is a big energy consumer. The current consumption of petroleum products accounts for a very large proportion in the fields of transportation, electricity and heat in China.

For example, in the field of transportation, there are many technical solutions for the technical transformation of internal combustion vehicles. It includes: means for using chemical additives, and means for laying magnetic posts outside the oil pipes to improve the fuel consumption of motor vehicles. Combustion efficiency; achieve the purpose of saving fuel. However, from the actual test results analysis, it is not satisfactory, for example: When the additive is chemically reacted, it sometimes produces new products, which have an impact on the engine and other parts of the motor vehicle; .

Therefore, how to adopt new technologies and new materials to improve the efficiency of petroleum products in various fields is a major problem facing people. SUMMARY OF THE INVENTION An object of the present invention is to provide a laser scanning power by overcoming the deficiencies in the prior art. An atomic resonant hydrocarbon catalytic device that enhances the catalytic process of hydrocarbons, such as the chemical reaction rate of fuel, by releasing more energy to achieve energy conservation and environmental protection.

Another object of the present invention is to provide a laser scanning electric atom resonance type hydrocarbon hydrogen catalysis method which can improve the catalytic process of hydrocarbons, such as the chemical reaction speed of fuel oil, and achieve energy saving and environmental protection by releasing more energy. .

In addition to the charge and mass, more than half of the nuclei have spins. Since the nucleus is a charged particle, a small magnetic field is generated when spinning. The energy of these nuclei will split into more than two quantized energy levels in a strong magnetic field. When electromagnetic radiation of the appropriate wavelength illuminates the nucleus in the magnetic field, the nucleus transitions between these magnetically induced energy levels. The energy difference between the magnetically induced energy levels can be expressed as

△ Ε = μ H. / I = h v. Formula (1) When the nucleus absorbs energy, it is exactly equal to h v . After the quantum, it can be excited to the higher energy level. h is the Planck constant, V is the radiation frequency, I is the spin quantum number, the hydrogen proton is 1/2, Ho is the magnetic field strength, ^ is the magnetic moment, and the hydrogen proton magnetic moment is (2. 793) (5. 049 X 10 erg / Gauss). Therefore, the required nuclear magnetic resonance parameters can be calculated by the formula (1).

It can be known from the above various physical chemistry theories that the speed and the slowness of the chemical reaction process are related to the electron transfer speed in the reaction process, and the electron transfer speed is fast, and the reaction is vigorously released. The speed of electron transfer is related to the energy of the electron itself. The electrons whose energy is at the highest energy level participate in the chemical reaction, and the electrons of the bottom level absorb the energy level transition under certain conditions. Transition from low energy level to high energy level.

The invention uses laser technology and nuclear magnetic resonance technology to obtain energy for low-energy electrons; high-energy electron energy is increased to higher, chemical reaction speed is increased, and more energy is released. Taking fuel as an example: Under the irradiation of laser light, the carbon in the fuel, the electrons in the hydrogen atom are subjected to the energy of the laser radiation, and become the excited state. Under the strong magnetic field and a certain frequency of electromagnetic radiation, the carbon proton nucleus occurs. The resonance nucleus transitions from a low energy level to a high energy level, and the electron energy level is correspondingly further increased, so that the chemical reaction is more intense and the energy is released.

The technical solution of the present invention is: A laser scanning electric atom resonance type hydrocarbon hydrogen catalytic device comprises: a casing, a laser radiation array, a high mesh metal mesh and a nuclear magnetic resonance tunnel, wherein: the casing is lined with an insulating layer; and is in the casing There are fuel inlets and outlets at both ends; a first laser radiation array is arranged in the casing near the fuel inlet, and a laser radiation reflection sheet, a high mesh metal mesh, a second laser radiation array, and nuclear magnetic resonance are sequentially disposed behind Tunnels, fuel outlets; among them, high-mesh metal meshes are attached with ferrite particles; high-mesh metal meshes are connected to high-frequency electricity.

Wherein, the laser radiation intensity of the first laser radiation array is: 5mW-lW.

The intensity of the laser radiation of the second laser radiation array is: 5 mW - 1 W.

The mesh number of the high mesh metal mesh is 200-800 mesh.

The ferrite particles attached to the high mesh metal mesh are 2 X 2 X 2 mm, 20-40 grains per square centimeter, and are sandwiched between the metal meshes to form an adhesion.

The high mesh metal mesh and the NMR tunnel coil are connected to high frequency power, and the frequency range is MHZ-KMHZ.

The magnetic poles and coils of the nuclear magnetic resonance tunnel are one or more.

A laser scanning electric atom resonance hydrocarbon catalytic method comprises:

A) placing the hydrocarbon medium to be catalyzed into a closed vessel having an inlet and an outlet;

B), letting the medium first pass through the first laser radiation array in the closed container, and receiving the laser radiation of the first laser radiation array; the individual non-radiated medium is re-radiated by the deflected light of the deflecting sheet disposed in the closed container; Wherein, the intensity of the laser radiation is 5nW-lW _;

C), the medium that has received the laser radiation passes through a high mesh metal mesh that is attached with ferrite particles behind the first laser radiation array; and under the action of a high mesh metal mesh with high frequency electricity, the medium The oil molecules undergo molecular polarization, and the H and C atoms form a certain excited state; and a certain amount of hydrogen ions and copper ions are generated; the ferrite particles are extremely small ferrite magnets after being vibrated by the high frequency electromagnetic field and the copper mesh. The particles are dissolved in the medium to form a magnetic oil, which becomes a polar magnetic liquefaction medium in a high energy excited state;

D) a polar magnetic liquefaction medium in a high energy excited state, the second laser radiation array is subjected to secondary radiation through a second laser radiation array disposed behind the high mesh metal mesh, wherein the intensity of the laser radiation is 5mW-1W, a polar magnetic liquefaction medium in a high energy excited state Re-energize to make it more energetic;

E) The medium in the high-energy excited state irradiated by the secondary laser radiation array, the H and C nuclei in the medium are in a strong magnetic field and can induce nuclear resonance when passing through the nuclear magnetic resonance tunnel provided after the second laser radiation array Under the high-frequency electromagnetic radiation perpendicular to the magnetic field, the H, C nucleus produces resonance to a higher energy level transition, and the magnetic field strength of the nuclear magnetic resonance tunnel can be calculated according to the following formula:

△ Ε = μ H. / I ⁼ hv. Equation (1) where: h is the Planck constant; V is the radiation frequency; I is the spin quantum number hydrogen proton is 1/2; Ho is the magnetic field strength; ^ is the magnetic moment; the hydrogen proton magnetic moment is (2. 793 (5. 049 X 10 Erge/Gauss);

F), the magnetized medium after two laser irradiation and electron nuclear magnetic resonance tunneling, which is in a state of high magnetic energy excited polar magnetic liquefaction, the medium in this state, and the untreated medium phase Compared with the combustion chemical reaction, it can make the reaction more intense and release more energy. At the same time, the copper ion in the medium is also a very good anti-wear agent, which can enhance the sealing effect of the piston and improve the thermal efficiency of combustion. , to save energy and reduce emissions of environmental protection. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic view showing the internal structure of a laser scanning electric atom resonance type hydrocarbon catalytic device of the present invention. BEST MODE FOR CARRYING OUT THE INVENTION The present invention will be further described with reference to the accompanying drawings and embodiments.

As shown in FIG. 1, a laser scanning electric atom resonance type hydrocarbon hydrogen catalytic device comprises a casing 1, a first laser radiation array 2, a second laser radiation array 6, an optical radiation reflection sheet 3, and a high mesh number. Metal copper mesh 4, ferrite particles 5 and nuclear magnetic resonance tunnel 7, characterized The housing 1 is lined with an insulating layer 8; a fuel inlet 9 and an outlet 10 are provided at both ends of the housing 1; a first laser radiation array 2 and laser radiation are disposed in the housing 1 near the fuel inlet 9. a deflecting sheet 3, a high mesh metal copper mesh 4, a second laser radiation array 6, a nuclear magnetic resonance tunnel 7; wherein ferrite particles 5 are attached to the high mesh metal copper mesh 4; and high mesh metal copper The mesh 4 is connected to a high frequency power; the nuclear magnetic resonance tunnel 7, which includes a high frequency power source 11, a magnetic pole 12, and a coil 13.

Wherein, the intensity of the laser radiation of the first laser radiation array is: 5 mW - 1 W; and the intensity of the laser radiation of the second laser radiation array is: 5 mW - lW.

The mesh number of high mesh metal copper mesh is 200-800 mesh.

The ferrite particles attached to the high mesh metal copper mesh are 2 X 2 X 2 drawn, 20-40 grains per square centimeter, and are sandwiched between the metal copper meshes to form an adhesion.

The high-mesh metal copper mesh and the NMR tunnel have high-frequency power connected to the coil, and the frequency range is MHZ-KMHZ.

The specific working process of the present invention is - '

1), sending untreated hydrocarbons, such as fuel oil, into the casing 1 through the fuel inlet 9; the fuel first passes through the laser radiation of the first laser radiation array 2;

2), part of the unradiated fuel, the laser reflects the laser reflecting radiation of the reflection sheet 3, and the fuel is in an excited state;

3) At this time, the fuel passes through the ferrite particles 5, and is connected with a high-frequency electric high-magnetic metal copper mesh 4;

4) At this time, the fuel is affected by the formation of a high-frequency electromagnetic field around the high-mesh metal copper mesh 4, and the fuel passes through a copper mesh with a high-frequency electromagnetic field, so that the mass center of gravity of the oil molecules and the center of gravity of the electric field are separated, that is, molecular polarization, The H and C atoms are in a certain excited state and produce a certain amount of hydrogen ions and copper ions;

5), under the action of high-frequency electromagnetic vibration, the ferrite particles 5 attached to the high-mesh metal copper mesh 4 are subjected to high-frequency electromagnetic field vibration and high-mesh metal copper mesh, and there is extremely small ferrite. The magnetic particle 5 is dissolved in the fuel to form a magnetic oil, that is, the fuel becomes a high-energy excited state of the polar magnetic liquefied fuel;

6), under the radiation of the second laser array 6, each atom in the fuel is excited again Higher energy state;

7), after two laser radiation of polar magnetic liquefied fuel, through the nuclear magnetic resonance tunnel 7, the H and C nuclei in the fuel are in a strong magnetic field and high-frequency electromagnetic radiation that can induce nuclear resonance and perpendicular to the magnetic field. The H and C nuclei generate resonances to higher energy levels, causing the chemical reaction to release more energy more intensely. Finally, the polar magnetic liquefied fuel treated by the laser and nuclear magnetic resonance tunnel 7 flows out of the fuel outlet 10 of the casing 1.

The fuel treated by the present invention has a polar magnetic liquefaction state in a high-energy excited state, and the fuel in this state is involved in the subsequent combustion chemical reaction as compared with the untreated fuel. It can make the reaction more intense and release more energy. At the same time, the copper ion in the fuel is also a very good anti-wear agent. It can enhance the sealing effect of the piston, improve the combustion heat efficiency, and save the fuel and reduce emissions. efficacy.

A), the fuel to be catalyzed is placed in a casing 1 having a closed inlet of the fuel inlet 9, the outlet 10;

B), letting the fuel first pass through the first laser radiation array 2 in the casing 1 of the closed container, and receiving the laser radiation of the first laser radiation array 2; the individual fuel that is not irradiated is disposed in the closed container in the closed reflector 3 The reflected light is again radiated; wherein the intensity of the laser radiation is 5 mW-lW;

C), the fuel that has received the laser radiation passes through the high-mesh metal copper mesh 4 which is attached with the ferrite particles behind the first laser radiation array 2, and is connected to the high-mesh metal mesh 4 with high-frequency electricity. Under the action of the product, the oil molecules of the fuel are molecularly polarized, and the H and C atoms are in a certain excited state; and a certain amount of hydrogen ions and copper ions are generated; the ferrite particles 5 are vibrated by the high frequency electromagnetic field and the copper mesh is rubbed. An extremely small ferrite magnetic particle is dissolved in the fuel to form a magnetic oil, that is, the fuel becomes a high-energy excited state of the polar magnetic liquefied fuel;

D), a polar magnetic liquefied fuel in a high energy excited state, which is secondarily irradiated by a second laser radiation array 6 disposed behind the high mesh metal copper mesh 4, wherein the laser radiation The intensity is 5mW-lW, and the polar magnetic liquefied fuel in the high energy excited state is re-excited to make its energy higher;

E) The fuel in the high energy state emitted by the secondary laser radiation array, the H and C atoms in the fuel are passed through the nuclear magnetic resonance tunnel provided after the second laser radiation array Under the high magnetic field and the high frequency electromagnetic radiation which can induce the resonance of the atomic nucleus and perpendicular to the magnetic field, the H and C nucleus will resonate to a higher energy level transition, and the magnetic field strength and high frequency radiation frequency of the NMR tunnel can be based on the following formula. And set:

△ E two μ H. / I ⁼ hv. Equation (1) where: h is the Planck constant; V is the radiation frequency; I is the spin quantum number hydrogen proton is 1/2; Ho is the magnetic field strength; ^ is the magnetic moment; the hydrogen proton magnetic moment is (2. 793 (5. 049 X 10 Erge / Gauss).

The principle is: When the nucleus absorbs energy, it is exactly equal to . After the quantum, it can be excited to the higher energy level. Therefore, the required nuclear magnetic resonance parameters can be calculated by the formula (1).

F), the magnetized fuel after two laser irradiation and electron nuclear magnetic resonance tunnels, which is in a state of high-energy excited state of polar magnetic liquefaction, the fuel in this state, and the fuel that has not been treated Compared with the subsequent combustion chemical reaction, the reaction can be made more intense and more energy is released. At the same time, the copper ions in the fuel are also very good anti-wear agents to enhance the sealing effect of the piston and improve the combustion heat efficiency. It has the environmental protection effect of saving fuel and reducing emissions. INDUSTRIAL APPLICABILITY The present invention uses laser technology and nuclear magnetic resonance technology for the treatment of a hydrocarbon medium, and a high-energy excited state magnetic oil medium generated by vibrational friction of a copper mesh with a high-frequency electromagnetic field and a ferrite magnet can be burned. More energy is released, and the sealing effect of copper ions can bring about comprehensive energy saving and environmental protection effects. The invention can be widely applied to fuel oil, gas appliances, such as internal combustion engines, gas turbines, and environmental protection of boilers.

Claims

Claim

A laser scanning electric atom resonance type hydrocarbon hydrogen catalytic device comprising a casing, a laser radiation array, a high mesh metal mesh, and a nuclear magnetic resonance tunnel, wherein: the casing is lined with an insulating layer; The two ends are provided with an inlet and an outlet; a first laser radiation array, a laser radiation deflecting sheet, a high mesh metal mesh, a second laser radiation array and a nuclear magnetic resonance tunnel are arranged in the casing; wherein, in the high mesh metal mesh High frequency electricity is connected; ferrite particles are attached to the high mesh metal mesh.

2. The laser scanning electric atom resonance type hydrocarbon hydrogen catalytic device according to claim 1, wherein: the laser radiation intensity of said first laser radiation array is: 5mW-11

3. The laser scanning electrical atom resonance type hydrocarbon catalytic device according to claim 1, wherein: the laser radiation intensity of the second laser radiation array is: 5 mW - 1 W.

4. The laser scanning electric atom resonance type hydrocarbon hydrogen catalytic device according to claim 1, wherein: said high mesh metal mesh has a mesh number of 200 to 800 mesh.

5. The laser scanning electric atom resonance type hydrocarbon hydrogen catalytic device according to claim 1, wherein: the ferrite particles attached to the high mesh metal mesh are 2 X 2 X 2 mm, 20 per square centimeter. 40 capsules were sandwiched between metal meshes to form an attachment.

6. The laser scanning electric atom resonance type hydrocarbon hydrogen catalytic device according to claim 1, wherein: the high mesh metal mesh has a frequency level range of: MHZ-KMHZ.

7. The laser scanning electric atom resonance type hydrocarbon hydrogen catalytic device according to claim 1, wherein: the nuclear magnetic resonance tunnel comprises a high frequency power source, a magnetic pole and a coil coil which are generated by high frequency electricity. The magnetic ulcer is perpendicular to the magnetic field.

The laser scanning electric atom resonance type hydrocarbon hydrogen catalysis device according to claim 1 or 7, wherein: the frequency grading range of the nuclear magnetic resonance tunnel is: MHZ-KMHZ.

The laser scanning electrical atom resonance type hydrocarbon catalytic device according to claim 1 or 7, wherein the magnetic resonance tunnel has at least a pair of magnetic poles and coils.

10. A laser scanning electrical atom resonance hydrocarbon catalytic method comprising:

A) placing the hydrocarbon-containing medium to be catalyzed into a closed vessel provided with an inlet and an outlet; B), letting the medium first pass through the first laser radiation array in the closed container, and receiving the laser radiation of the first laser radiation array; the individual non-radiated medium is re-radiated by the deflected light of the deflecting sheet disposed in the closed container;

C), the medium that has received the laser radiation passes through the first laser radiation array, the high mesh metal mesh to which the ferrite particles are attached; and the high mesh metal mesh with the high frequency electricity, the medium The oil molecules in the molecule undergo molecular polarization, and the H and C atoms are in a certain excited state; and a certain amount of hydrogen ions and copper ions are generated; the ferrite particles are extremely small ferrite after being vibrated by the high frequency electromagnetic field and the copper mesh. The magnetic particles are dissolved in the medium oil to form a magnetic oil, and become a polar magnetic liquefaction medium of a high energy excited state;

D) a polar magnetic liquefaction medium in a high-energy excited state, which is secondarily irradiated by a second laser radiation array to re-excitation the polar magnetic liquefaction medium in a high-energy excited state to make the energy higher;

E) A medium in a high-energy excited state radiated by a secondary laser radiation array. When passing through a nuclear magnetic resonance tunnel, the H and C nuclei in the fuel are in a strong magnetic field and a high frequency that can induce the resonance of the atom and perpendicular to the magnetic field. Under electromagnetic radiation, the H, C nucleus produces resonance to a higher energy level transition; the magnetic field strength and radiation frequency of the NMR tunnel can be calculated according to the following formula:

Δ Ε = μ H o / I ⁼ hvo where: h is Planck constant; v. Is the radiation frequency; I is the spin quantum number hydrogen proton is 1/2; Ho is the magnetic field strength; is the magnetic moment; the hydrogen proton magnetic moment is (2. 793) (5. 049 X 10 ^ erg / Gauss);

F), the magnetized fuel after two laser irradiation and electron nuclear magnetic resonance tunnels, which is in a state of high-energy excited state of polar magnetic liquefaction, the fuel in this state, and the fuel that has not been treated Compared with the combustion chemical reaction, it can make the reaction more intense and release more energy. At the same time, the copper ions in the fuel can enhance the sealing effect of the piston, improve the combustion heat efficiency, and save fuel and reduce emissions. Environmental protection.

The laser scanning electric atom resonance type hydrocarbon hydrogen catalytic method according to claim 10, wherein: the high mesh metal mesh has a frequency level range of: leg Ζ-ΚΜΗΖ.