Fig. 2. Diagram of a levitating platform on wave disks
Through the slots made on the inner surfaces of the two rings of the upper disk, the air jets enter the inter disc zone, where they collide with the inner profiles of the lower disk, are compressed and, supported by the next portion of air, rotate in a vortex and slide out through a narrow slit from the compression zone to the expansion zone towards the periphery, where the gaps to the edge of the disks are critically narrowed. It should be noted that with such a sharp expansion of the volume of cooled air, a certain increase in temperature occurs and the effect of absorption (rarefaction) occurs, which accelerates the process of centrifugal movement of air from the previous zone. The higher the difference in the volume of air squeezed between the waves of the disks during centrifugal motion, the more effective the formation of numerous radially directed vortices in them. Which, with the simultaneous rotation of both disks (or separately, which is more efficient), spin with acceleration around their own axis with some derivation and move in a continuous sequence to the periphery, simultaneously rotating around the common axis of the installation, and activating the processes of formation of a single toroidal vortex. Recall that the profile of the space between the disks forces these vortices to rhythmically contract and expand, increasingly densifying the flows of strongly ionized atmospheric air from the center to the periphery. A kind of modulated wave. As a result, vortex arms are formed from twisted, rigid discrete "pigtails" of elementary particles of matter in air (or a water-air mixture), i.e. charges. More precisely, when water is supplied through a hole in the central axis, ionization processes are accelerated. In addition, in the inner cavity of the installation, there should be some roughness of the disc surfaces at the level of primary young corrosion on the surface of the iron.
Thus, the concept of alternation of events adopted by us: decrease-condensation during compression and increase-expansion during rarefaction of cooled air, which is inevitably realized here in dynamics, significantly, cyclically and constantly accelerates processes in time, breaking up and releasing both carbon and oxygen (plus hydrogen) from the flow of the medium. Thus, ionizing the flow at the outlet in the periphery of the rotating disks in order to accelerate the formation and separation of charges. Here it is important to disrupt as much as possible in the molecules and atoms of the substance of the environment of space not only electromagnetic connections, but also weak interactions between elementary particles of atoms and molecules. When this stage is reached, negative charges are formed above the disks, which are associated with the processes of temperature increase and expansion of cooled flows of the ionized medium of space, and positive charges are created below the disks, supporting the processes of temperature decrease and condensation of the gas medium.
However, this is not enough to fulfill the goal. It is necessary to achieve the occurrence of the phenomenon of resonance in standing waves by initiating centripetal actions, to make the properties of diamagnets work and, if possible, to use the effect of wing lift in the design as much as possible. Thus, there is a need for a third, support disk, rigidly fixed to the common hub of the axis of rotation from below, but with a larger diameter for 2.5 wave periods. Its profile is not only a support for the lower wave disk, but also structurally plays the role of a peripheral turbine. It is made of paramagnet (for example, aluminum), the flat surface of which to the wave disk along the edge is framed by turbine blades no higher than the outermost wave of the lower disk and one and a quarter wide of the wave period in the form of through, alternating, inclined (at an angle of 30-40 degrees) slits in the direction of rotation. The profile of each blade of the peripheral turbine resembles a plano-convex model of an airplane wing.
Please note that the upper wave disk is made in such a way that its extreme wave is followed by another wave, which coincides in profile with the "wave" of the peripheral turbine, and covers it from above by three quarters of the height of the blades. To create the rigidity of the system, this turbine shelter is fastened along the circumference with evenly spaced bolted joints (10-12 pcs.), through holes in the blades of the peripheral turbine. Let us clarify that the profile of the blades, as well as the external recesses on them, which additionally twist the flow, can be selected individually. The thickness of the support disk does not play a role and is selected from the structural rigidity. On the hub and on the periphery up to the turbine blades, all disks along the ring through holes are evenly tightened with bolts (5-6 pcs.). For this purpose, along the edge of the lower disk, after the last wave with duplication on the rest, an overlap of the base metal in the form of a fastening ring is provided. At the same time, there should be no threshold at the junction of the lower ring with the support ring and the flow outlet to the blades of the peripheral turbine. In addition, a common casing of the structure is required, dividing the spaces into zones. It is made of any diamagnet (for example, copper) in the form of a bell with a central hole in diameter equal to the beginning of the depression of the third (without slits) wave of the upper disk, with the formation of a protrusion on it with the continuation of the profile to its internal wave, as a place for support and centering in the axis of the central turbine. This is where the central turbine is installed, on which the central air intake housing is mounted and all this is pressed by a bolt screwed into a threaded sleeve in the center of the hub. The external size of the general casing should be sufficient to cover the contours of all disks, with a rounding along the outer diameter of the profile of the blades of the peripheral turbine, with an extension to the lower cut of the support disk. This entire structure is connected to a circular frame made of ferromagnet (for example, iron), in the center of which a bearing unit for rotation is made, in which the axle is fixed in such a way as to provide sufficient clearance between the bed and the support disk. The diameter of the bed should exceed the diameter of the general casing and through slots should be made in it. The bed itself is connected to the drive unit via a sliding clutch for take-off or to the generator shaft to generate power. It is also possible to trigger the phenomenon from a rechargeable battery located directly on the platform of the structure with a device for its recharging. It is important that between the discs and casings made of various materials, both on the hub and on the insulated fasteners, in order to connect them to each other and adjust the technological clearances in the area between the discs, it is necessary to install dielectric gaskets made of a layer of dense rubber or polymer.
What will happen next to the flow of rotating vortices when it meets the peripheral turbine? And then centrifugal influences direct compacted, ionized air flows directly to the blades of the peripheral turbine, where they are not only dissected and pushed down and to the side, as if from a nozzle, but also reflected back, creating centripetal effects.
This effect is calculated and tuned constructively in terms of antinodes and nodes, period and waves to achieve a stable resonance between the atoms of the diamagnetic disks, as a result of the action of the formed standing waves. In the intervals between the waves, a number of other phenomena that are interesting to us arise. For example, an increase in the effect of negative magnetic susceptibility in the material of disks, also during the creation of resonance phenomena, but in each separate wave period, as a consequence of the deceleration of the air flow during vortex compressions. In this case, part of the centrifugal flows is reflected from the frontal profile of the wave of the lower disk, forming centripetal effects with the formation of standing waves, which leads to the resonance of the disk material in different frequency ranges. The formation of vortex magnetic fields associated with electric radial and ring currents of charges in the intermediate zone should not be overlooked. As a result, fields with zero magnetic and electric strength periodically arise.
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