Separating hydrogen ions and electrons from water and water vapor, comprises separating electrons from external orbits of water molecules, and converting gaseous components of water, hydrogen and oxygen to a liquid molecule

摘要

The method for the separation of hydrogen ions and electrons from water and water vapor, comprises separating electrons from external orbits of water molecules, converting the gaseous components of water, hydrogen and oxygen to a liquid molecule, removing two electrons from the external orbits of the electron pair bonds of the water molecule, such that water and oxygen components are changed into positive ions, converting the liquid molecule to gas and fuel by coulomb force, and combusting the atomic hydrogen at 4000[deg] C and molecular hydrogen at 2500[deg] C. The method for the separation of hydrogen ions and electrons from water and water vapor, comprises separating electrons from external orbits of water molecules, converting the gaseous components of water, hydrogen and oxygen to a liquid molecule, removing two electrons from the external orbits of the electron pair bonds of the water molecule, such that water and oxygen components are changed into positive ions, converting the liquid molecule to gas and fuel by coulomb force, combusting the atomic hydrogen at 4000[deg] C and molecular hydrogen at 2500[deg] C and reinforcing oxygen in combustion process, dissolving the electrons from the orbits of water molecules in a unit to obtain special geometry with three determined factors, which are velocity of the fluid flow, a transverse magnetic field and a high-voltage electric field (anode in electric high-voltage field), where the unit is placed between two ring-shaped DC voltage electromagnet with a spiral-form capillary fiber, over which the liquid stream moves centrifugally and the liquid hits on a disk over a vertical hole in a shaft, and moving the liquid in the transverse magnetic field, where all the charged particles are directed to the right side of the electrical high voltage anode, according to the Lorentz force, where: the anode is a spiral capillary of the self-rotatable disk; the electrons are pressed through the fields on the anode, sucked by the high voltage rectifier and transferred to the cathode; the cathode is earth and/or consumer; the cathode, based on the insulation of the unit, is not recycled into a circuit and no recombination takes place in the case of an electrolysis; the excess electron potential, which collects in the unit, is gradually delivered to the earth and/or consumer during separation; an avalanching formation of oxygen and hydrogen ions takes place in the stream; and the gas component of the stream are permanently washed, which it reaches maximum at the end of the spiral groove of the disk. The liquid runs over two vertically associated standing fields such as high voltage field and magnetic field. When the distance between the cathode and anode is 3-4 mm (radius of the water molecule of 5.3x 10 -14), a locomotive astronomical length of water molecules and required ionization energy to solve the hydrogen bonds are obtained. In the process, a liquid stream is present on the anode. The magnetic field does not consume energy and does not change the module of the particle because it displaces the electrons to the anode. The electrons are pressed on its way over the anode through the field, and at the anode uniform change of the free orbit of the atoms takes place. The energy is only useful for the production of the field, through pumping the liquid. The electrons pass through the orbit of the anode over the internal resistance of the current source to the insulated cathode and not recycled because the cathode is insulated. The permanently increasing potential of the electrons is present over a current collector.