JPS6384633A - Device for emitting electron into liquid - Google Patents

Abstract

PURPOSE:To remarkably increase the combustion efficiency, etc., by rotating metallic disk obtained by laminating <=2 kinds of metals in a liq. at high speed, and generating triboelectricity at the interface between the metals surface and the liq. surface to emit electrons into the liq. CONSTITUTION:A spiral groove 10 surrounded with the upper and lower disks is formed between the respective metal sheets 8 having a high electric potential, and a fluid 5 passes through the groove. The high-speed rotating shaft 6, the upper disk 7 of the metal having a low electric potential, the lower disk 9 of the metal having a low electric potential, and the high-potential metal sheets 8 including the spiral groove 10 are integrally rotated by the rotation of the high-speed rotating shaft 6. As a result, cavitation 12 is generated in the area of the tip 11 of the high-potential metal sheet 8. Besides, triboelectricity is simultaneously generated at the interface between the surface of the high- potential metal and the liq., and consequently electrons are emitted from the tip 11 of the high-potential metal sheet 8.

Description

[Detailed description of the invention]

(Industrial application field) The present invention relates to a device for emitting electrons into a liquid.

[Conventional technology]

In the past, combustion of liquids such as kerosene was carried out directly by the combination of carbon in the kerosene and oxygen in the air. In this case, the generation of thermal energy is carried out according to the laws of chemical reactions, and the generation of thermal energy by chemical reactions is well known. However, combustion of a mixture of water and kerosene has not been carried out previously. (Problem of the Invention) The present invention aims to dramatically increase the combustion efficiency of liquids, such as mixed liquids consisting of kerosene, water, etc., beyond the conventional rules of chemical reactions. The basis of the task is to create a device that emits light. (Means for Solving the Problems) The problem of the present invention is to rotate two or more types of metal disks (contact cells) in a liquid at high speed, in which a metal with a high potential and a metal with a low potential are laminated together, and a metal surface and a liquid surface are connected to each other. A configuration in which frictional electricity is generated at the interface between the metal surface and the liquid to emit electrons from the metal surface, and cavitation is generated by rotating a high-potential metal disk in the liquid at high speed. A configuration in which an electric field is created between the metal surface and the liquid surface by creating a vacuum between the surfaces, and the metal surface acts as a cold cathode and emits an electric field, or nickel sandwiched between semiconductors. This problem is solved by a configuration in which a disc of catalytic metal such as silver or platinum is rotated in a liquid at high speed, and electrons are emitted from the catalytic metal at the tip of the rotating part into the liquid. (Effects of the Invention) The present invention is characterized in that by emitting electrons into the liquid, one spin of the valence electrons of covalently bonded atoms and the opposite spin of the electrons entering the liquid attract each other, weakening the binding force of the covalent bond. This makes it possible to perform new chemical reactions that were previously thought to be impossible; in other words, it uses liquid as activation energy to easily overcome mountains of complexes, leading to the creation of unimaginable substances. This makes it possible to burn water as an alternative energy to oil. At this time, it has the effect of creating irreplaceable energy for humankind by causing a new chemical reaction that transcends the standard stages of chemical reactions. (Example) The present invention will be explained based on the illustrated example. (Structure) Reference numeral 1 denotes a tank, and 2 designates rotation prevention plates for preventing undesired flow of liquid in the tank 1, which are fixed to the inner wall of the tank 2 at equal angular intervals. 3 is a liquid intake port attached to the upper lid of the tank 1, 4 is a liquid outlet attached to the lower side wall of the tank, 5 is the liquid contained in the tank, and 6 is a high-speed rotating shaft, which is located at the center of the tank 1. It runs vertically and can be continuously rotated by a drive device (not shown). An upper rotary disk 7 made of a metal with a low potential is directly connected to the high-speed rotating shaft 6 or formed integrally therewith. 8 is a metal plate with a high potential, and as shown in Figure 3, it has a tomoe shape when viewed from the top, and in Figure 3, there are three plates arranged at equal intervals, and a lower disk of metal with a low potential. 9 and an upper disk 7 made of metal with a low potential, and is fixed to the upper and lower disks in a sandwich-like (bimetallic) manner. This forms a contact cell. A spiral groove 10 surrounded by upper and lower disks is left between the high potential metal temporary 8, through which the liquid 5 can flow. Due to the rotation of the high-speed rotation shaft 6, the high-speed rotation shaft 6, the upper disk 7 made of a metal with a low potential, the lower disk 9 made of a metal with a low potential, and the plate 8 made of a metal with a high potential including the spiral groove 10 rotate together. do. As a result, cavitation 12 is generated in the range of the tip 11 of the metal plate 8 having a high potential. At the same time, triboelectricity is generated at the interface between the high-potential metal surface and the liquid. As a result, electrons are emitted from the tip 11 of the metal plate 8, which has a high potential. In the case of a configuration in which a semiconductor is placed in place of a low-potential metal disk 7.9 and a catalyst metal such as nickel, gold, platinum, etc. is sandwiched between the semiconductors, electrons are ejected from the catalyst metal. A penetrating duct 1 is installed in the side area of the high-speed rotating shaft 6 to which a metal 7 with a low potential is fixed and immersed in the liquid.
5 can also be left open. The through hole 15 opened in the groove 10 at the bottom causes a liquid flow during the rotation of the high speed rotating shaft 6 and contributes to electron emission. At the location where cavitation 12 occurs, an electric field is generated between the tip 11 of the high potential metal due to the vacuum, and electrons e13 are emitted into the liquid from the tip 11 of the high potential metal. The emitted electrons 013 are in the liquid 5 and are charged. In order to prevent charged electrons from escaping, the device is provided with an insulating stand 14 at the bottom of the tank 1. 16 is a high voltage electrode for supplementing electron emission. The cord of the high voltage electrode 16 is connected from the top cover of the tank 1 to a high voltage power source outside the tank. If necessary, this high voltage electrode 16 can also be used for electron emission. (Function) Example: When the present invention was carried out using kerosene 19% (weight) water 80% (iii amount) and nonionic surfactant 1% (weight), saccharol X% and alcohol y% were produced. The liquid 5 placed in the receiver disrupts the spin balance of the coexisting bonds and generates a new substance.In other words, a contact cell formed from a metal with a high potential and a metal with a low potential is rotated in the above mixed liquid. Then, the electron e13 moves from the metal with lower potential to the metal with higher potential, and the metal with higher potential becomes "more noble than r", and the metal with lower potential becomes "more base".The noble metal moves into the liquid. By being rotated at high speed, the surface becomes a cold cathode and emits an electric field.Electrons are emitted not only from high-potential metals but also from catalytic metals sandwiched between semiconductors when semiconductors are used. In this way, electrons are injected into the liquid.The electrons e13 that have entered the liquid act on the covalent bonds of the liquid, climb over the mountain of complexes, and cause a new chemical reaction. creates a new substance by disrupting the spin balance of covalent bonds.For example, in the case of the liquid mentioned above, it affects the spin of the valence electrons of the hydrogen bonds in water, weakening the binding strength of the hydrogen bonds. At this time, by adding a small amount of hydrocarbon (kerosene), alcohol is produced and the water burns out.Also, by blowing carbon monoxide into the water, 12CO" 11
Hz O" C + zHz□O,, +60□, a chemical reaction occurs to produce saccharol, and water burns out. (Effects of the invention) The present invention uses covalent bonding by emitting electrons into the liquid. The spin of one of the valence electrons of the atom J and the opposite spin of the electron in the liquid attract each other, weakening the bonding force of the covalent bond and making possible new chemical reactions that were previously thought to be impossible, i.e. It uses liquid as activation energy to easily overcome mountains of complexes and lead to the production of unimaginable substances.This makes it possible to burn water as an alternative energy to petroleum.In this case, it is possible to burn water as an alternative energy to petroleum. It has the effect of transcending the standard stage and causing a new chemical reaction to create irreplaceable energy for humanity.

[Brief explanation of the drawing]

The first drawing is a perspective view showing an embodiment of the electron emission device into a liquid according to the present invention with a part of the tank cut away, and the second drawing is a vertical sectional view taken along the line ■-■ in FIG. 3. And Figure 3 is m of Figure 2.
- It is a cross-sectional view along the m line. Symbols in the figure: 1...tank 2...liquid rotation prevention plate 3...liquid intake 4...liquid outlet 5...liquid 6...high-speed rotation shaft 7...from metals with low potential Upper disk 8 consisting of...
Plate 9 of metal with high potential ... Lower disk 10 made of metal with low potential...
Groove 11... Tip 12 of high potential metal plate 8... Gear biting 13... Electron e 14... Insulator base 15... Through hole 16... Electrode

Claims (3)

[Claims] (1) Two or more types of metal disks made by laminating a metal with a high potential and a metal with a low potential are rotated at high speed in a liquid, and frictional electricity is generated at the interface between the metal surface and the liquid surface, causing the metal surface to immerse into the liquid. A device that emits electrons to (2) By rotating a high-potential metal disk in a liquid at high speed, cavitation is generated and a vacuum is created between the metal surface and the liquid surface, thereby creating an electric field between the metal surface and the liquid surface. A device in which the metal surface acts as a cold cathode and emits electrons into a liquid that emits an electric field. (3) A device that emits electrons from the catalytic metal at the tip of the rotating part into the liquid by rotating a disk of catalytic metal such as nickel, silver, or platinum sandwiched between semiconductors in a liquid at high speed.