CN1824603A - Hydrogen energy generator - Google Patents
Hydrogen energy generator Download PDFInfo
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- CN1824603A CN1824603A CNA2006100181515A CN200610018151A CN1824603A CN 1824603 A CN1824603 A CN 1824603A CN A2006100181515 A CNA2006100181515 A CN A2006100181515A CN 200610018151 A CN200610018151 A CN 200610018151A CN 1824603 A CN1824603 A CN 1824603A
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E60/00—Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
- Y02E60/30—Hydrogen technology
- Y02E60/36—Hydrogen production from non-carbon containing sources, e.g. by water electrolysis
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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
- Y02P20/10—Process efficiency
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Abstract
The present invention relates to a FHP-QNQ07 hydrogen energy generator which does not use external any cost energy source and can absorb general visible light, sun light, infrared ray, UV lamp light and heat quantity to automatically and quickly decompose water into hydrogen gas and oxygen gas. It is composed of 14 portions of FHP-QNQ07 series composite material water decomposition source, hydrogen-making catalyst, hydrogen gas container, oxygen gas container and decomposition speed controller, etc. Said invention also provides their connection mode and application fields of said hydrogen-energy generator.
Description
Belongs to the technical field of:
the invention relates to a hydrogen energy generator which can automatically decompose water into hydrogen and oxygen without being externally connected with any cost energy source, in particular to an FHP-QNQ07 hydrogen energy generator.
Background art:
the current methods for producing hydrogen mainly involve metathesis reactions, e.g. , Water gas process and general electrolytic water process. However, the displacement reaction consumes a large amount of rare and expensive substances, such as metal materials of sodium, zinc and the like, and the water gas method consumes a large amount of heat energy and causes serious pollution. The hydrogen production efficiency by the common water electrolysis method is very low, and the electric energy consumption is very large.
The invention content is as follows:
the technical problems to be solved by the FHP-QNQ07 hydrogen energy generator are the defects of large energy consumption, serious pollution, low hydrogen production efficiency, large raw material loss and the like of the existing hydrogen production method. The hydrogen generator does not consume any cost energy, can efficiently and quickly decompose water, can quickly produce hydrogen in large quantity, does not consume any cost energy, and is a novel energy of high and new technology. The main application is as follows: industrial and agricultural production, manufacturing, commercial service, train fire, bath and household cooking.
The technical scheme adopted by the FHP-QNQ07 hydrogen energy generator for saving the technical problem is as follows: the invention relates to an FHP-QNQ07 hydrogen energy generator (figure 1) designed according to a chemical principle, which comprises fourteen parts of an FHP-QNQ07 series combined material water decomposition source, a hydrogen container, an oxygen container, a water inlet switch, a water inlet pipe, a hydrogen pipe, an oxygen pipe, a decomposition speed controller, a hydrogen switch, an ignition device, a machine body, a hydrogen production catalyst, a hydrogen combustion stove and the like. The method is characterized in that: the FHP-QNQ07 series composite material water decomposition source is arranged outside the oxygen container, and the water container, the oxygen tube, the decomposition speed controller and the water inlet tube are arranged in the oxygen container. The hydrogen producing catalyst, the water container, the water inlet pipe and the hydrogen pipe are arranged in the hydrogen container, and the decomposition speed controller of the hydrogen container in the oxygen container is arranged outside the water decomposition source of the FHP-QNQ07 series composite material. The water inlet pipe is led out of the body of the FHP-QNQ07 hydrogen energy generator from the water container and is connected with the tap water pipe through the water inlet switch. The hydrogen pipe is led out of the machine body of the FHP-QNQ07 hydrogen energy generator from the hydrogen container, and the hydrogen pipe is connected with the hydrogen combustion stove through a hydrogen switch. The oxygen pipe is led out of the FHP-QNQ07 hydrogen energy generator body from the oxygen container and is connected with the hydrogen combustion stove through an oxygen switch. The ignition device is fixedly arranged on the hydrogen combustion stove, the hydrogen container and the oxygen container are arranged on the water container, and the hydrogen container, the oxygen container and the water container are arranged on the machine body together. The FHP-QNQ07 hydrogen energy generator FHP-QNQ07 series combined material water decomposing source consists of less than or equal to 9% He, less than or equal to 6% Ne, less than or equal to 26% N, less than or equal to 14% NO2, less than or equal to 39% CO2, less than or equal to 49% Fe, less than or equal to 4% Na2CO3, less than or equal to 19% SiO2, less than or equal to 29% fluorescent powder, less than or equal to 3% Mg, less than or equal to 24% C, less than or equal to 21% Al, less than or equal to 11% CaO, less than or equal to 19% P, less than or equal to 5% Li, less than or equal to 8% I, less than or equal to 4% S, less than or equal to 56% FHP-QNQ07 series water decomposing source, etc. 18 kinds of metals, semiconductors, nonmetals.
The FHP-QNQ07 hydrogen energy generator has the beneficial effects that: the catalyst does not use any cost energy, absorbs invisible light, heat and the like such as common visible light, sunlight, infrared rays, ultraviolet rays and the like, and continuously and directly decomposes water into hydrogen and oxygen for a long time under the catalytic action of a hydrogen production catalyst.
Description of the drawings:
the invention is further described below with reference to the accompanying drawings.
Fig. 1-a front view of the FHP-QNQ07 hydrogen energy generator.
In the figure, 1-hydrogen producing catalyst, 2-hydrogen container water inlet pipe, 3-water, 4-hydrogen cylinder, 5-main and auxiliary hydrogen producing catalyst connecting pipe, 6-oxygen container water inlet pipe, 7-water inlet transverse water pipe, 8-auxiliary hydrogen producing catalyst, 9-oxygen cylinder, 10FHP-QNQ07 series composite material water decomposition source, 11-water decomposition source and auxiliary hydrogen producing catalyst connecting pipe, 12-decomposition speed controller, 13-decomposition speed controller rod, 14-decomposition speed controller pin hole, 15-decomposition speed controller pin, 16-water inlet vertical water pipe, 17-water inlet switch, 18-water inlet pipe head, 19-hydrogen chamber, 20-hydrogen, 21-oxygen chamber, 22-oxygen, 23-hydrogen exhaust pipe head, 24-oxygen exhaust pipe head, 25-body, 26-fixed connection point, 27-flame, 28-sealing gasket fixed connection point, 29-oxygen switch, 30-oxygen nozzle, 31-hydrogen nozzle, 32-ignition device, 33-hydrogen switch, 34-oxygen vertical pipe, 35-hydrogen vertical pipe, 36-oxygen horizontal pipe, 37-hydrogen horizontal pipe, 38-machine base, 39-hydrogen production catalyst support.
The specific implementation mode is as follows:
the FHP-QNQ07 series composite material water decomposing source is made up by compounding and refining 18 metals, semiconductors, non-metals and their compounds, and can absorb ordinary visible light, sunlight, ultraviolet ray, infrared ray and other invisible light and heat, and can automatically, continuously and long-term decompose water into hydrogen and oxygen. The FHP-QNQ07 composite material water decomposer is composed of 18 kinds of metal, semiconductor and nonmetal compounds and compound refinements, such as<9% He,<6% Ne,<26% N,<14% NO2,<39% CO2,<49% Fe,<4% Na2CO3,<19% SiO2,<29% phosphor powder,<3% Mg,<24% C,<21% Al,<11% CaO,<19% P,<5% Li,<8% I,<4% S and<56% FHP-QNQ07 series water decomposer. FHP-QNQ07 series water decomposition source is sleeved outside the oxygen container and inside the decomposition speed controller.
The hydrogen container is formed by combining an upper end semi-cylinder and a lower end cube. The inner cavity is a cavity, the inner cavity is a hydrogen chamber, the hydrogen container is fixedly arranged on the water container, and the hydrogen container is sleeved in the oxygen container. The hydrogen pipe extends out of the machine body from the hydrogen container and is connected with the combustion stove through a hydrogen switch.
The oxygen container is formed by combining an upper end semi-cylinder body and a lower end cube. The inner cavity is a cavity, the inner cavity is an oxygen chamber, the oxygen container is fixedly arranged on the water container, and the oxygen container is sleeved outside the hydrogen container and is sleeved in the decomposition speed controller. The oxygen pipe extends out of the machine body from the oxygen container and is connected with the combustion stove through an oxygen switch.
The water decomposition speed controller is formed by combining a semi-cylinder at the upper end and a cube at the lower end. The water decomposition speed controller is internally provided with a cavity. The left side of the water decomposition speed controller is fixedly provided with a cylindrical pin and an adjusting plate, and the adjusting plate is provided with a porous groove. The water decomposition speed controller is sleeved outside the FHP-QNQ07 series combined material water decomposer.
The hydrogen production catalyst is formed by combining a main hydrogen production catalyst and a secondary hydrogen production catalyst, and the hydrogen production catalyst is in a square shape. The main hydrogen production catalyst is connected with the auxiliary hydrogen production catalyst through a main hydrogen production connecting pipe and an auxiliary hydrogen production connecting pipe, and the auxiliary hydrogen production catalyst is connected with the FHP-QNQ07 series combined material water decomposition source through a water decomposition source and auxiliary hydrogen production catalyst connecting pipe. The hydrogen production catalyst support for the hydrogen production catalyst is fixedly connected to the upper plane of the frame.
The water container is in a square shape and consists of a hydrogen container water container and an oxygen container water container. The upper end of the hydrogen container water container is fixedly connected with the hydrogen container, and the lower end of the hydrogen container water container is fixedly connected with the machine body. The upper end of the oxygen container water container is fixedly connected with the oxygen container, and the lower end of the oxygen container water container is fixedly connected with the machine body. The water inlet pipeof the hydrogen container water container is connected with the water inlet pipe of the oxygen container water container through the water inlet transverse water pipe, the water inlet vertical water pipe and the water switch, and is connected with the water inlet pipe head.
The machine body is made of a square thick steel plate. The upper plane of the machine body is fixedly connected with the water container, and a sealing gasket is arranged between the machine body and the oxygen container water container. The lower end of the machine body is fixedly connected with the machine frame.
The hydrogen production catalyst support consists of a main hydrogen production catalyst support and an auxiliary hydrogen production catalyst support. Each hydrogen production catalyst support consists of four pillars and a square frame, and four corners of the square frame are respectively and fixedly connected with one pillar downwards. The upper end of the main hydrogen production catalyst support is fixedly connected with a main hydrogen production catalyst, and the lower end of the main hydrogen production catalyst support is fixedly connected to a machine body in a hydrogen container. The upper end of the secondary hydrogen production catalyst support is fixedly connected with a secondary hydrogen production catalyst, and the lower end of the secondary hydrogen production catalyst support is fixedly connected to the machine body in the oxygen container.
The FHP-QNQ07 hydrogen energy generator is a great new energy source of high and new technology, really solves the biggest crisis-energy crisis of all mankind, simultaneously solves the environmental pollution problem of all the world, and draws a peaceful co-located sequence curtain of all the countries of the world from now on. The method has great promotion effect on promoting the development of science and technology and the social progress of the whole mankind, in particular to the great revolution of the new energy of the whole mankind.
Claims (3)
1. A FHP-QNQ07 hydrogen energy generator comprises fourteen parts of a FHP-QNQ07 series composite material water decomposition source, a hydrogen container, an oxygen container, a water inlet switch, a water inlet pipe, a hydrogen pipe, an oxygen pipe, a decomposition speed controller, a hydrogen switch, an ignition device, a machine body, a hydrogen making catalyst, a hydrogen combustion stove and the like; the method is characterized in that: the FHP-QNQ07 series composite material water decomposition source is arranged outside the oxygen container, the water container, the oxygen tube, the decomposition speed controller and the water inlet tube are arranged in the oxygen container; the hydrogen production catalyst, the water container, the water inlet pipe and the hydrogen pipe are arranged in the hydrogen container, the decomposition speed controller of the hydrogen container is sheathed in the oxygen container and is arranged outside the water decomposition source of the FHP-QNQ07 series composite material; the water inlet pipe is led out of the body of the FHP-QNQ07 hydrogen energy generator from the water container and is connected with a tap water pipe through a water inlet switch; the hydrogen pipe is led out of the machine body of the FHP-QNQ07 hydrogen energy generator from the hydrogen container and is connected with the hydrogen combustion stove through a hydrogen switch; the oxygen pipe is led out of the FHP-QNQ07 hydrogen energy generator body from the oxygen container and is connected with the hydrogen combustion stove through an oxygen switch; the ignition device is fixedly arranged on the hydrogen combustion stove, the hydrogen container and the oxygen container are arranged on the water container, and the hydrogen container, the oxygen container and the water container are arranged on the machine body together; the FHP-QNQ07 hydrogen energy generator FHP-QNQ07 series combined material water decomposing source consists of less than or equal to 9% He, less than or equal to 6% Ne, less than or equal to 26% N, less than or equal to 14% NO2, less than or equal to 39% CO2, less than or equal to 49% Fe, less than or equal to 4% Na2CO3, less than or equal to 19% SiO2, less than or equal to 29% fluorescent powder, less than or equal to 3% Mg, less than or equal to 24% C, less than or equal to 21% Al, less than or equal to 11% CaO, less than or equal to 19% P, less than or equal to 5% Li, less than or equal to 8% I, less than or equal to 4% S, less than or equal to 56% FHP-QNQ07 series water decomposing source, etc. 18 kinds of metals, semiconductors, nonmetals.
2. The FHP-QNQ07 hydrogen energy generator of claim 1, wherein: the FHP-QNQ07 hydrogen energy generator FHP-QNQ07 series combined material water decomposition source is formed by 18 metals, semiconductors and nonmetals and compounds thereof through composite refining, the FHP-QNQ07 combined material water decomposition source is formed by less than or equal to 9% He, less than or equal to 6% Ne, less than or equal to 26% N, less than or equal to 14% NO2, less than or equal to 39% CO2, less than or equal to 49% Fe, less than or equal to 4% Na2CO3, less than or equal to 19% SiO2, less than or equal to 29% fluorescent powder, less than or equal to 3% Mg, less than or equal to 24% C, less than or equal to 21% Al, less than or equal to 11% CaO, less than or equal to 19% P, less than or equal to 5% Li, less than or equal to 8% I, less than or equal to 4% S and less than or equal to 56% FHP-QNQ07 series water decomposition source bodies and other 18 metals, semiconductors; FHP-QNQ07 series water decomposition source is sleeved outside the oxygen container and inside the decomposition speed controller.
3. The FHP-QNQ07 hydrogen energy generator of claim 1, wherein: the hydrogen production catalyst of the FHP-QNQ07 hydrogen energy generator is formed by combining a main hydrogen production catalyst and a secondary hydrogen production catalyst, and the hydrogen production catalyst is square; the main hydrogen production catalyst is connected with the auxiliary hydrogen production catalyst through a main-auxiliary hydrogen production connecting pipe, and the auxiliary hydrogen production catalyst is connected with the FHP-QNQ07 series combined material water decomposition source through an auxiliary water decomposition source hydrogen production catalyst connecting pipe; the hydrogen production catalyst support for the hydrogen production catalyst is fixedly connected to the upper plane of the frame.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CNA2006100181515A CN1824603A (en) | 2006-01-13 | 2006-01-13 | Hydrogen energy generator |
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| Application Number | Priority Date | Filing Date | Title |
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| CNA2006100181515A CN1824603A (en) | 2006-01-13 | 2006-01-13 | Hydrogen energy generator |
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| CN1824603A true CN1824603A (en) | 2006-08-30 |
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| CNA2006100181515A Pending CN1824603A (en) | 2006-01-13 | 2006-01-13 | Hydrogen energy generator |
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Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN106082124A (en) * | 2016-08-15 | 2016-11-09 | 衢州昀睿工业设计有限公司 | A kind of aqueous medium converts the burner of fuel |
| CN106145032A (en) * | 2016-08-15 | 2016-11-23 | 衢州昀睿工业设计有限公司 | Aqueous medium gasified combustion apparatus |
-
2006
- 2006-01-13 CN CNA2006100181515A patent/CN1824603A/en active Pending
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN106082124A (en) * | 2016-08-15 | 2016-11-09 | 衢州昀睿工业设计有限公司 | A kind of aqueous medium converts the burner of fuel |
| CN106145032A (en) * | 2016-08-15 | 2016-11-23 | 衢州昀睿工业设计有限公司 | Aqueous medium gasified combustion apparatus |
| CN106145032B (en) * | 2016-08-15 | 2018-02-02 | 衢州昀睿工业设计有限公司 | Aqueous medium gasified combustion apparatus |
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