BR102022009739A2 - FOUR-STAGE THERMOPLASM SYSTEM FOR HYDROGEN GAS SYNTHESES - Google Patents

Abstract

The self-sufficient 4 (four) stage quantum processor system for generating hydrogen gas (H2), based on the synthesis of hydrogen gas from water (H2O) for supplying fuel cells with application in electric propulsion platforms (vehicles, aircraft , ships, trains, etc.) and/or fuel cells used to generate electrical energy, characterized by being the only one in the world that does not use chemical components to be added to water, and can be adapted to work in any type of engine or machine that requires the use of fuels for its operation without the need for major changes to its components

Description

[001] PRESENTATION OF THE ABOVE INTERNSHIPS:

[002] 1° - The magnetizing channel is the magnetizing cavity where the water circulates, allowing distortion between the 104.5° angle of the hydrogens that represent the molecule and is the ruptured immunity of the water molecule;

[003] 2nd - The radiofrequency resonator channel is the inductive cavity where water circulates, allowing the pre-collapse of covalent water connections

[004] 3° - The photon-laser channel is the optical cavity where water circulates, allowing the breaking of the covalent connections between hydrogen and oxygen that make up the water molecule.

[005] 4° - The plasma channel is the plasma resonant terminal cavity that allows the total rupture of the covalent water connections, and, after pre-molecular instability, the plasma resonant channel allows the rupture and gas involvement hydrogen released in the mentioned cavities, but the process is always completed in the resonator plasma cavity;

[006] The entire system is controlled by a central control unit dedicated to hydrogen processes and all stages necessary for its operation

[007] The temperature control section consists of the centrifugal pump and injection unit, connected to the intake manifold

[008] The temperature control system has the function of dissipating all the heat generated by the combustion of hydrogen gas, allowing the monitored spraying of water via the temperature control injector in the intake manifold;

[009] The hydrogen gas receiver engine will suck in the water mist that dissipates heat from its interior, where the water injected and controlled by the control unit, removes thermal energy from the piston and internal part of the engine

[010] Briefly, through this system we can obtain self-sufficiency in the synthesis of hydrogen gas removed from the water molecule without the need to use the electrolysis process for its design;

[011] The resonant laser magnetic capacitor used for the synthesis of hydrogen gas from water (CMLR), and composed of an external armature, that is, internally there is a reflective layer for the cavity laser, and externally a metallic layer for the application of electrical potential to the resonance frequency;

[012] The architecture is classified as a hybrid capacitor because it constitutes magnetism, resonance and optical layer;

[013] The water is subjected to the magnetic field developed in the magnetic cavity and travels through the interior of a resonant coil and subsequently enters the electrical optical section, that is, the laser cavity and is subjected to the resonant electrical potential;

[014] The water is subjected to the capacitor circuit, capacitor inductor, that is, the dielectric of the hybrid capacitor is water;

[015] consequently the dielectric undergoes rupture due to the magnetic, resonant and optical action of the hybrid capacitor;

[016] The entire assembly is controlled by the control unit that allows the resonance of the hybrid capacitor circuit;

Claims (3)

1) FOUR-STAGE THERMOPLASM SYSTEM FOR HYDROGEN GAS SYNTHESES characterized by being a self-sufficient system for generating hydrogen gas (H2) from water (H2O) that does not use the electrolysis process or the use of alkaline acid solutions and any other liquid for its summary 2) FOUR-STAGE THERMOPLASM SYSTEM FOR HYDROGEN GAS SYNTHESES characterized by generating hydrogen gas (H2) in the amount necessary for the proper functioning of industrial equipment such as furnaces, industrial dryers, boilers, hydroelectric plants, as well as large engines and machines that run on fossil fuel or liquid and high power energy generators 3) FOUR-STAGE THERMOPLASM SYSTEM FOR HYDROGEN GAS SYNTHESIS characterized by operating in four (04) stages to obtain hydrogen gas (H2), with total self-sufficiency and independence in the synthesis of hydrogen gas from water (H2O).