Description: Gravitational and Energy system
An important part of research on energy happened since about 1940 when the quest for nuclear power and it’s control really started. We see that several concepts were developed since then. Some special more performing concepts without the nuclear waste problem are still under development, like the Tokomak reactors. The world of nuclear industry seems to be infatuated by the dream to create the power of the Sun on Earth. But a change in the physical design structure of the present reactors is needed because the fusion industry of today has not managed to produce any sustainable and substantial amount of energy after some fifty years of research and development. The reason for the failure of these reactors is rooted in the following three major miscalculations.
Miscalculation 1: These reactors all suffer from the central column syndrome. That is to say that, these all have a center solid body right in the middle of the reactor. This is to facilitate the physical loops of the magnetic coil rings, so that the magnetic fields can be produced and maintained to bring the plasma to the right temperature and speed, in order to achieve fusion.
This is a fundamental problem if the scientists are trying to imitate and reach the temperature of the center of the Sun. As when has any one seen a central column in the center of the Sun?
Miscalculation 2: The fundamental reversal of laws of physics. If one looks at magnetic field forces in the universe. The magnetic force is created and maintained, from the center outwards, in any star in possession of fusion core. In these man-made designs, the laws of physics are turned inside out, where the magnetic fields are enforced from the outside, inward. This is an explanation as to why the scientists are using so much energy for such a small output.
Our view: The magnetic field force has to be created and maintained from the inner part to radiate out and thus allowing creation of the second magnetic field force inwards, to contain the plasma within the center of the core.
Miscalculation 3: Current concepts of fusion production and maintenance lack a source of Gravitational Field Forces like the one in the center of the Sun.
Our view: The secret of the Sun in holding together all the elements that can sustain fusion, is the existence of a massive gravitational field force at its core. What this means, is that the center of the Sun possesses and maintains a very high level gravitational field force, that can hold on to the plasma of its massive body.
This gravity around the center of the Sun is calculated to be in the order of hundreds and thousands of times more powerful then the gravitational force on the surface of the Earth.
If one reads all the past and present reported results of the tests on TOKOMAK-type fusion reactors.
Even, when one asks the men in charge of the latest fusion experiments in UK, they all report the gravity in the reactor core to be a fraction of the gravitational force on the surface of the earth. This is primarily due to the fact, that, there is no system devised to create and maintain a gravitational field force to hold the plasma in the reactor core and pull it together.
If this was or could be achieved there would not be a need for such a large input of current to create the magnetic field force from outside coils.
So how can a nuclear fusion reactor maintain its power without the existence of a Gravitational Field Force?
This is like baking a sponge cake without having any flour or egg in the dough. How can one achieve fusion when they do not posses the main ingredient to hold the plasma together to sustain fusion?
When these problems are understood and rectified by the scientists they may then use these forces and materials appropriately as in the universe.
The other problem which scientists in the world of fusion do not tell and have not considered, is the truth about the one hundreds million degrees centigrade temperature they try to create in the TOKOMAK reactors.
A few thousand degrees melted the Columbia shuttle on re-entry into earth’s atmosphere.
The present technology cannot handle a few thousand degree’s temperature. The question is: How are they going to handle one hundred million degree temperatures for a long time in a two-meter diameter TOKAMAK core without making provision for removing heating from the core?
This question is what the fusion engineers are avoiding to answer. They are hoping to have an answer in fifty years, after spending thirteen billion dollars in the next twenty years from the common market and Japan.
Nor we see the correct approach in patent-applications by other inventors.
The method which is claimed in this patent application is such that - under centrifugal and vacuum conditions - a turbulence, rotation, compressive and heating of a gaseous matter is created in a reactor by at least one central rotative magnetic field with the purpose of creating plasmatic conditions leading to various physical phenomena.
We claim also a method where - under centrifugal and vacuum conditions in presence of ionization condition - a turbulence, rotation, compressive and heating of a gaseous matter is created in a reactor by at least one central rotative magnetic field with the purpose of creating plasmatic conditions leading to the creation various magnetic fields where at least the interaction of two magnetic field would lead to the creation of at least one gravitational force phenomena.
In this patent-application we disclose a concept, method and technology for more efficient and higher, electric energy levels as well as creation of gravity and anti-gravity within a center of an object or a matter that can be created at a relatively very low cost.
It is important to understand that we see an analogy with the planetary concept and positioning of planets in our solar system. The Earth and all planets and stars possess a centrally heated core. The creation and maintenance of the heat and motion is not in the level and method which scientist have chosen for motion and energy technological progress up to this moment in time. Planets possess and maintain heat, magnetic forces and gravity through one integrated system with mostly one common element as the source of the energy. In the center of planets the temperature acquired is more like in thousands of degrees centigrade rather than millions of degrees as in stars. But all the same, all effects in creating heat, magnetism and gravity can be achieved at all temperatures. It is to be proven through the design of the reactor in this patent that the strength of magnetic field and gravity of these planets is more dependent on the composition of the material and the speed of motion in the center core of the planet, rather then the size or any other factors in the planet or the star internal structure. In the universe vast amount of heat are not suddenly produced and presented in one instance for fusion to takes place for systems and stars to be created. There are laws and procedures to follow to succeed in achieving a large or a small system in the universe.
These laws have to be followed to the letter in the design of any system or reactor for creation of heat, magnetic forces fields and subsequent gravitational forces field and so on, for a system to be successful and operational. Planets and stars using the natural laws of physic and materials do all these, all at once and together without separate machinery and control rooms and fuels. They do this as one fully integrated system. Thus for the first time in the world of technology and intellect, in and by the design of this reactor, fundamental principals are set out and developed to show how all these above effects and many more could be very simply attained. All at the same time and as in a natural universal manner in one fully integrate system.
This is explained very explicitly in the annex that is joined to this patent application. That annex is integral part of this patent application, and may help the reader to better analyse and understand the concepts and ideas about our new reactors and their functioning.
The invention relates to a gravity producing system, method, concept and technology whereby in a reactor-embodiment (10) a chain of energetic events is created via a rotative magnetic (17A), initiation of a basic ionization of a gas (i.e. hydrogen 18A) or other matters, which then triggers a controllable chain of energy transfers (so called Scintillation) to the next following layer(s) of introduced gasses (i.e. He 18B, Ne 18C, Ar 18D, Kr, Xe 18E), of all other introduced elements of the periodic table (i.e. Li, Be, K, Ca, Ti, … Pt, etc.) and/or their introduced molecule combinations (i.e. a vapor).
Without scintillation in a low density, low volume ration of atomic hydrogen environment of galaxies, the process of ionisation will not take place, that the rest of the chain of events for the creation of any system or galaxy can take is initiated. Scintillation is the ignition key for start of creation of any system in the universe.
All inert gases in conjunction with different materials and conditions in the cores can be used for or as scintillation material in the core of the reactors.
The use of liquid helium and neon and other inert gases as scintillators is the essential ingredient of the operation of any system that needs to generate heat, power and gravity. Helium and neon have no unstable naturally occurring isotopes, therefore any inherent radioactive backgrounds. That is why these are good source for creation of the extreme ultraviolet ray catalyst source needed for initial ionisation of hydrogen atoms to start the heating of gases and plasma in the caroline core.
In galaxies the ultraviolet photons from reminisce of the explosion of stars have sufficient energy to strip the electrons completely away from hydrogen atoms and ionised hydrogen atoms. When and if the atom of hydrogen absorbs a photon with wavelength of 912Å .The atom is ionised with the extra energy going in to kinetic energy of the electron. This requires a photon energy greater then 13.6 eV or wavelength of 912 Å in the ultraviolet region.
Collision between electrons ‘thermalise” their energy, this energy heating the gas in the region to higher temperatures.
Theoretical models of the installer cloud are providing new insights into the role of extreme ultraviolet rays and soft X-ray photoelectric heating, as well as thermal conductive interfaces, in explaining the observed high ratios of hydrogen HI at very low pressures. These indicating not the need for the use of ionised Hydrogen but natural hydrogen in the process of heating up a gas to Plasma State.
At the present most considerations are given to use of ionised hydrogen and its relation with extreme ultraviolet rays emissions. Recent research and findings allows the endeavour to new territory of reverse state of condition. Where it has been observed in the galaxies that ground state hydrogen receiving energy photons in the extreme ultraviolet rays range would and is excited to be ionised. Then by returning to ground state through catalyses it can be used to release this energy to heat up the surrounding gas to heated Plasma State.
This opening a new approach into development of systems where not ionised but natural hydrogen and atomic hydrogen can be used to generate energy and currents, by using extreme ultraviolet rays rather then ultraviolet rays to create the ionisation.
This new understanding allows low temperature operation and less energy input for the higher energy out put, allowing operation in the non-nuclear environment.
These being due to the fact as natural hydrogen is used, there are no possibility of emission above extreme ultraviolet rays by the hydrogen atoms, as an atom can not emit more then it has absorbed. That is as the extreme ultraviolet rays energy absorbed by natural hydrogen atom, this atom to return to ground state can only release energies below extreme ultraviolet rays, at the same time releasing sufficient energy and free electrons that can be useful in a system. For this reason the need for new ignition system using extreme ultraviolet rays for hydrogen rather then ionisation by ultraviolet rays microwave can be considered.
By passing liquid helium over Alpha or Beta source to generate the extreme ultraviolet rays, Thorindike in late 1950th discovered liquid-helium scintillation. Stockton later showed the emission of very intense wavelength range in the extreme ultraviolet ray’s spectrum is centered at about 80 nm. Adams confirmed the transparency of liquid helium to its own scintillation light reason for the intensity of the photons.
Scintillation of the liquid helium by can be achieved through use of Alpha or a beta radiation source, where the use of Alpha or Beta source excitation in liquid helium determines the density of the ionisation. Adams calculated that, energy deposited by Beta particles in super fluid helium are emitted promptly as extreme ultraviolet rays light, and is considered to be as much as 35% of total energy released by the fluid.
The initial stage in the process of heating all the elements in the core of a reactor has to be the ionisation of atoms of hydrogen in the Caroline core by using extreme ultraviolet rays, carried by compressed liquid helium into the core, which has been exposed to radioactive source prior to entry in to the caroline core.
This method of ionisation of hydrogen atoms has been observed in the galaxies, therefore it should be easy to achieve the same in reactor environment under the right condition. The extreme ultraviolet rays in vacuum condition cause prompt and direct photoionization of hydrogen. Where as lower energy photon causes a combination of fragmentation and delay thermionic ionisation. Thus use of extreme ultraviolet ray is the fast and direct way to start the reactor from cold.
The right choice of radioactive element for production of extreme ultraviolet rays in presence of liquid helium or neon is important. With the correct selection, the possibility that liquid helium will carry any gamma ray energy level radiation into the core of the reactor can totally be eliminated. Therefore the choice irradiation source for scintillation will have direct effect on different combination and the amount of gases used in the Caroline core.
Use of neutron traps facilities, in the outlet of irradiated chamber of the scintillation unit can make sure no neutrons can enter the caroline core, that can create high energy rays in the core, that can create radioactive chain of events of releasing X-rays or higher level energy rays with the interaction with other materials in the caroline core.
The reactor-embodiment has at least one (26) or more (27) spaces (i.e. cavities 11, layers, sub-chambers). This is very important to understand. 26 and 27 show two different approaches. 26 shows a reactor which has one chamber and inside will be – in the pure gaseous concept – several layers of inert gasses (or other matters or a mixture of gasses and matter). These layers are formed in the reactor chamber by the centrifugal and vacuum conditions according to their the atomic weight. Since the layers have a different rotational speed there will be kinetical, magnetic and other effects in the inter-layer regions. 27 shows instead a reactor concept where there is a real physical wall (i.e. steel wall, liquid substance, vearing energy strength matters) in the reactor which separates two zones inside the reactor, and each may have it’s own internal process(es) and specific layer ordering. The magnetic fields in both will interfere with each other in a controlled way. This physical wall may be dynamical too, meaning to be opened under certain secured conditions for various reasons or the separated area’s may interchange matter or plasma – by connection means - if that is appropriate in the processing.
The concept of creation of energy for this reactor is on the bases of the understanding of cooperation, interaction and application of the atomic structure of the plasma, gases, liquid and solid of all matters known in the world of science.
The principal of the behaviour of these in a vacuum and centrifuge environment has been studied and catalogued in detail over past decades.
It is paramount to understand that gases in a vacuum environment for their containment behave very much like liquid and the two can switch state. With one element changing properties at the same time in the same system by slight change of temperature or pressure within the core of the reactor. This holds the same between the liquid and solid state too.
If the behaviour of a drop of water in space and the way they float in vacuum condition are observed, gases behave the same in the vacuum too, they stay in cluster but take over the whole of the space of their containment.
From past research it is understood that gases in a vacuum and centrifuged encapsulate each other according to their atomic weight, from the lighter gases in the center of the cluster and the heaviest on the outer layers.
This means that neon will encapsulate helium and heavier gas will encapsulate the neon and so on.
The second important principal for inert gas laws is that they do not mix with each other in a vacume and centrifuges condition.
This factor will play an important part in the development of any energy system, which has to be portable and light. But at the same time flexible, energetic and functional able for it to be used for its merit in any system, this being for power production, gravity, anti gravity, shielding and medical use and so forth.
For this system to be able to take advantage of above criterion it is important to have Hydrogen in atomic, molecular, its isotopes and ionised form are the primary element in production of initial heating of the reactor core, as it is done in the cosmos.
Hydrogen gas in atomic and molecular level has some versatile properties, that if they are used for the right purpose at the right time in the right combination, this element will provide and facilitates most the needs of systems energy creation requirement for all applications.
In this patent, systems are developed, that makes it possible for the first time, does not matter in what form hydrogen is made available in a core of system, primary condition can be created in the core of the vacuum, centrifuge chamber, that brings about the desired effect in any system to create the initial heat for the onset of chain of events, that will lead on to creation of heat in vast amount, electric current in predetermined large quantities, single magnetic field condition in molecular level in and around the core of the reactor, creation of double magnetic field in the molecular level, which the interaction of two magnetic fields will lead to creation and control of gravity in the center of a system for the first time “creation of gravity” M T Keshe.
When Hydrogen is used in conjunction with other elements, hydrogen has the properties of being easy to be ionised by any source that can deliver a 13.6 eV of energy to achieve the ionisation of its atom. At the same time hydrogen has the capability to release this attained energy to a third elements in its neighbourhood and return to the ground state rapidly through this interaction with this third matter.
How ionisation and release of energy are created and used are the principals behind the design of this reactor for the creation of energy, magnetic effect and gravitational forces.
Then as other elements are introduced into the core of the reactor, then the true nature of the hydrogen will revile its potency in this system as a whole. Where, how and how much, when and the way all elements are introduced or applied in this system cores will create the desire effect that is required of the system as the whole at that time.
So that the system can be power generator, then with slight change in one of the parameters of one of the gases or introduction of other elements the system will become a gravity machine. Then maybe by combining the two effects. One will have a system that not only generates energy but it holds gravity and creates anti gravity too.
Thus for matter of simplicity in this disclosure the simplest forms of the energy and gravity system will be discussed and disclosed.
In this patent application we name the central area of the total reactor the central core (or caroline core) and the outside area the outer core.
So several layers of matter or plasma may be possible wise separated by a solid (14A) or by a gaseous (14B) or by an other state layering matter.
By the chain of inter-layer transfers several other physical phenomena are caused, such as:
1. Compression and decompression inside the reactor chamber,
2. Rotation of the matter inside the reactor chamber,
3. the interaction of two magnetic fields (20 and 21) in the center core of the reactor,
4. the creation and development of heat (40) due to ionization in a soft or hard magnetic fields and their reconnection(s) by the matters in the center core (also called caroline core (13, 28A, 28C) and the magnetic field in turn created in the outer core(s) (12, 28B, 28D) in the reactor chamber (11),
5. magnetosphere effects (22) of the two magnetic fields of the center core, and the magnetic field of the outer core,
6. the emission of rays up to Ultra Violet for heating up the materials in the core(s) or plasma’s,
7. the creation and convection motion (71, 81) for creation of current (80, 82) and the single and double magnetic fields which create the fundamental cyclic transformation /retransformation of the gas and/or matter involved from ground-state to excitation-state(s),
The interaction between the two magnetic fields, of at least two cores, leads to the creation of gravity and anti-gravity due the creation of the double spherical or other shaped superimposed magnetic fields (20 and 21, 30). This will cause the rotation (50) of the containment vessel(s) (see all 18) of the caroline core, and the rotation of the inner core (84) will cause the rotation in at least one central column in at least one chamber.
That central column (16A) may have several designs in relation to the reactor chamber, the desired functioning depending of the type of reactor and it’s purpose of design, and may:
a. Either turn completely, powered by a power source (15F) that is positioned outside the chamber,
b. Either from which only at least one part with magnetic means turns, i.e. the tip-part (51)(in the center of the chamber),
c. Either from which only a part with topological means turns, i.e. at least one mixing blade (in the center of the chamber), possible wise covered with at least one scintillating material (16E) unit (15C), or i.e. a spinning ejection mouth,
d. Either is completely immobile (fixed)(Fig. 9) but which has on it’s surface at least one set of electro-magnets (90) and/or coils which can be activated (92A) or deactivated (92D) – possible wise controlled by electronic means (i.e. a microchip 93 ) - in a preferred periodical and/or positional way, which - preferable - can change polarity and/or strength (92A, 92B, 92C), that way able to create turbulence in the center core, and/or in other superior cores,
e. Either is completely immobile (fixed) but by which the basic gas and/or matter is pumped in a core by at least one ejection mouth, (called the statistic reactor),
f. Either has at least one symmetrical or asymmetrical channel in it’s tip which can pump gas(ses) from one side to the other,
g. A combination of previous,
The central column (16A) has possible wise - but very preferable - at least one internal channel (16D) (i.e. a borehole 16B) for the distribution and/or collection of relevant gas(ses), matter and/or plasma (23).
The central column possible wise can have at least one electrode (17B) - but very preferable several – to collect electric current for transportation (17C) to the outside of the reactor. This way the currents can be collected for several purposes.
The central column can have – depending from the type of reactor (i.e. 14A, 14B) and corresponding to the type of gas, matter or plasma - one or more injection-mouths on different levels, each for another type of gas, matter and/or plasma, preferable on a height that correspondents with the layering position that this gas or matter will have after it’s atomic weight and/or the purpose of the injected plasma or matters.
The reactor (10) comprises a body (24) that can made of any natural or man-made material or several materials, or in atomic or molecular state - at least made of one part – in which at least one hollow space (11) is positioned, and whereby all relevant parts (i.e. the wall 25) – if needed to be protected (i.e. coated, laminated, painted, etc.) in well known manners against corrosion, aggressive acids, etc.
At the outside of the reactor (10) a number of relevant supporting systems are positioned, such as: pressure-tanks (15A), reverse tanks (15B), turbo molecular pump (15E), gas seals, scintillation unit(s)(15C), electrical brushes (15D), heat removal chamber, valves, pumps, tubes, closing means, measuring means, control sensors, engine(s)(15F), gears, power-source, electrical components (i.e. fuse), computer(s), IC’s, etc.
After the initial mechanical rotation (i.e. at 3,000 rpm) and/or electromagnetic triggered rotation the internal rotation (50) will be continued due the interaction of the magnetic fields involved (self-sustained process), in correspondence with one of more core-layers and their containment.
Possible wise one of the reactor concepts may have one of more of next specifics:
a. The central column may be mechanically withdrawn (52) if the internal interaction goes after wish, and can be repositioned inside the chamber if there is a need to collect current, to add new gas(ses), matter and/or plasma, and/or to adapt or correct the balance of the lower or higher volume-ratio of the matter and density.
b. In another concept or a combined concept the central column will have on his tip (53)(central position) at least two magnetic means (54) of different pole, but preferable several sets which can be ring wise or polarity faced wise and sized positioned above or next to each other, and on the top of the column tip one magnet, either in polarity strips (95) or as a single body.
c. The central column may be treated at the inside and/or outside surface by radioactive material (16E)(i.e. liquid, solid or a spray), or materials which can radioactively decay, or by fixed methods of scintillatizion like microwave lamps.
d. A reactor may have more than one column, one (91) with it’s tip positioned in the center area, and at least one (94) with it’s tip on a different level, but separated from each other.
e. At least two central columns (fig.7) may be positioned opposite to each other, either creating a similar rotational effect, either creating a conflicting rotational direction.
f. The reactor body contains at least two separate hollow spaces of identical or different dimensions,
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