WO2019060967A1 - Chemical process for producing an electrical potential difference by transmutation of elements - Google Patents

Chemical process for producing an electrical potential difference by transmutation of elements Download PDF

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WO2019060967A1
WO2019060967A1 PCT/BR2017/000118 BR2017000118W WO2019060967A1 WO 2019060967 A1 WO2019060967 A1 WO 2019060967A1 BR 2017000118 W BR2017000118 W BR 2017000118W WO 2019060967 A1 WO2019060967 A1 WO 2019060967A1
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protons
transmutation
chemical
reaction
proton
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Portuguese (pt)
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Tulio Mol LEITE
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Leite Tulio Mol
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    • GPHYSICS
    • G21NUCLEAR PHYSICS; NUCLEAR ENGINEERING
    • G21BFUSION REACTORS
    • G21B1/00Thermonuclear fusion reactors
    • G21B1/11Details
    • G21B1/21Electric power supply systems, e.g. for magnet systems, switching devices, storage devices, circuit arrangements
    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05HPLASMA TECHNIQUE; PRODUCTION OF ACCELERATED ELECTRICALLY-CHARGED PARTICLES OR OF NEUTRONS; PRODUCTION OR ACCELERATION OF NEUTRAL MOLECULAR OR ATOMIC BEAMS
    • H05H1/00Generating plasma; Handling plasma
    • H05H1/02Arrangements for confining plasma by electric or magnetic fields; Arrangements for heating plasma
    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05HPLASMA TECHNIQUE; PRODUCTION OF ACCELERATED ELECTRICALLY-CHARGED PARTICLES OR OF NEUTRONS; PRODUCTION OR ACCELERATION OF NEUTRAL MOLECULAR OR ATOMIC BEAMS
    • H05H1/00Generating plasma; Handling plasma
    • H05H1/02Arrangements for confining plasma by electric or magnetic fields; Arrangements for heating plasma
    • H05H1/10Arrangements for confining plasma by electric or magnetic fields; Arrangements for heating plasma using externally-applied magnetic fields only, e.g. Q-machines, Yin-Yang, base-ball
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E30/00Energy generation of nuclear origin
    • Y02E30/10Nuclear fusion reactors

Definitions

  • the invention relates to a chemical process for the production of electric potential differential by transmutation of elements, more precisely to a process of generation of energy by chemical transmutation using as basis the physical experiment proposed by David La Point (The Primer FieldsTheory).
  • the main idea here is a chemical process of transmutation from the choice of the correct elements that has the predisposition to transmute itself, which allows the generation of an electronic potential differential ) by the loss and gain of protons.
  • the theory of physics provides the substratum for these reactions.
  • the theory not yet accepted by the scientific community, says that magnetic fields in the shape of a basin are present in starry celestial bodies (where, admittedly by the scientific community, the fusion of elements occurs).
  • FIGURE 01 It presents a general scheme of the chemical process of production of differential of electrical potential by transmutation of elements.
  • FIGURE 02 It presents a frontal view of the vacuum chamber where the chemical process of producing electrical potential differential by transmutation of elements occurs.
  • the chemical process of producing electrical potential differential by transmutation of elements comprises in a chemical reaction of generation of a potential differential by the transmutation of chemical elements occurs as follows: metal palladium (46 protons) or Platinum (78 protons) in the middle of two magnets (1) in a bowl shape (one with north polarity and one with south polarity).
  • the coating (11) will then be made from the surface of the magnets (1) with the Indian metal (49 protons).
  • the following gases are applied after the vacuum in the chamber: Neon noble gas (10 protons), noble gas Argon (18 protons) and vapor of the following alkali metals Na (11 protons) and Li (3 protons) and K ( 19 protons). [010] When high voltage of 70 kv is applied in the experiment it is expected that a shock-chain reaction between the gases and the metals will start.
  • Neon gas and argon have the tendency to lose a proton, when it collides with the palladium, it will yield this proton to the Palladium or Platinum, which tends to gain 01 proton, at the end of the shock has the transmutation (10 protons) in fluorine (9 protons) and transmutation of argon (18 protons) in Cl (17 protons), and the surface transmutation of the Palladium (A) sphere (46 protons) in Silver (47 protons) or Platinum ( A) (78 protons) in Au (79 Protons) being the positive portion of the cell (which yields electrons) in the chemical reaction.

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  • Physics & Mathematics (AREA)
  • Engineering & Computer Science (AREA)
  • Plasma & Fusion (AREA)
  • Optics & Photonics (AREA)
  • Spectroscopy & Molecular Physics (AREA)
  • Power Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • High Energy & Nuclear Physics (AREA)
  • Physical Or Chemical Processes And Apparatus (AREA)

Abstract

The chemical process for producing an electrical potential difference by transmutation of elements relates to a method for generating power by chemical transmutation, using, as basis, the physics experiment proposed by David LaPoint (The Primer Fields Theory), such that it will permit the production of electrical power through the constant rotation of electrons confined by a magnetic field in the environment of the magnets (1), which forms a disc of plasma (B) rotating at high speed, and thus the rotation of magnetic fields charged with electrons can induce an electric current in transformer coils, and therefore such a method basically represents a chemical battery supplied by the transmutation of neon or argon gas and Na, Li and K vapours.

Description

PROCESSO QUÍMICO DE PRODUÇÃO DE DIFERENCIAL DE POTENCIAL ELÉTRICO POR TRANSMUTAÇÃO DE ELEMENTOS  CHEMICAL PROCESS OF PRODUCTION OF ELECTRICAL POTENTIAL DIFFERENTIAL BY ELEMENT TRANSMUTATION
[001] Refere-se a presente patente de invenção a um processo químico de produção de diferencial de potencial elétrico por transmutação de elementos, mais precisamente a um processo de geração de energia por transmutação química utilizando como fundamento o experimento físico proposto por David La Point (The Primer FieldsTheory). The invention relates to a chemical process for the production of electric potential differential by transmutation of elements, more precisely to a process of generation of energy by chemical transmutation using as basis the physical experiment proposed by David La Point (The Primer FieldsTheory).
[002] Conforme proposto por David La Point no que se refere ao The Primer [002] As proposed by David La Point with regard to The Primer
FieldsTheory, bem como a utilização de sua patente US8638186B1 intitulada "MAGNETIC ARRAY", onde corresponde a um dispositivo e um sistema através do qual o dispositivo pode utilizar uma matriz magnética para produzir um campo eletrônico que pode ser recolhido sob a forma de energia elétrica. Além disso, a presente invenção proporciona um dispositivo que tem efeitos de geração de energia através do qual o dispositivo utiliza um arranjo de imãs, numa matriz magnética e um anel de tensão que tem uma entrada e uma ligação de saída para permitir a descarga da energia elétrica recolhido. FieldsTheory, as well as the use of its patent US8638186B1 entitled "MAGNETIC ARRAY" where corresponds to a device and a system by which the device can use a magnetic matrix to produce an electronic field that can be collected in the form of electric energy. Furthermore, the present invention provides a device having power generation effects by which the device uses a magnet array, a magnetic matrix, and a voltage ring having an input and an output connection to enable the energy to be discharged collected.
[003] Utilizando-se do esquema acima, da câmara de vácuo e um par de imãs Using the above scheme, the vacuum chamber and a pair of magnets
(um de polaridade norte e outro sul) em formato de bacia com um orifício circular no meio, de acordo com David La Point, foi desenvolvido o processo químico de produção de diferencial de potencial elétrico por transmutação de elementos, em que aplica-se um arco voltaico de 70 kv na esfera de Paládio ou Platina afim de se conseguir um arco voltaico em formato esférico. A esfera de plasma toca as extremidades dos imãs em formato de bacia. Ao aplicar-se alta tensão em uma câmara a vácuo cria-se choques do gás disperso na câmara com a superfície onde o arco elétrico passa. A partir desse principio temos os choques dos gases e vapores de metais alcalinos utilizados nesse experimento com a superfície dos metais explanados. Ocorre o choque de elementos que tem tendência de perder ou ganhar prótons, com metais que tem a tendência de ganhar ou perder prótons para o gás (Principio da transmutação), e assim permitir a geração de energia por transmutação química. (one of north polarity and the other south) in the shape of a basin with a circular hole in the middle, according to David La Point, the chemical process of producing electric potential differential was developed by transmutation of elements, in which a arc of 70 kv in the sphere of Palladium or Platina in order to achieve a voltaic arc in spherical format. The plasma sphere touches the ends of the magnets in the shape of a bowl. Applying high voltage in a vacuum chamber creates shocks of the dispersed gas in the chamber with the surface where the electric arc passes. From this principle we have the shocks of the gases and vapors of alkali metals used in this experiment with the surface of the esplanated metals. There is a clash of elements that have a tendency to lose or gain protons, with metals that have the tendency to gain or lose protons for the gas (principle of transmutation), and thus allow the generation of energy by chemical transmutation.
[004] Portanto, a principal ideia aqui pleiteada refere-se a um processo químico de transmutação a partir da escolha dos elementos corretos que tem a predisposição de transmutar-se, o que possibilita a geração de um diferencial de potencial eletrônico (principio das pílhas)pela perda e ganho de prótons. A teoria da física (Primer Fields) fornece o substrato para essas reações.A teoria, ainda não aceita pela comunidade cientifica, diz que campos magnéticos em formato de bacia estão presentes em corpos celestes estrelares (onde, reconhecidamente pela comunidade cientifica, ocorre a fusão de elementos). A descoberta feita nesse experimento é que a presença desses campos magnéticos em formato de bacia catalisa as reações de troca de prótons em núcleos atómicos que tem a predisposição de fazer a troca, pois a alta tensão aplicada distorce a nuvem eletrônica dos átomos, possibilitando o choque de núcleo com núcleo. Therefore, the main idea here is a chemical process of transmutation from the choice of the correct elements that has the predisposition to transmute itself, which allows the generation of an electronic potential differential ) by the loss and gain of protons. The theory of physics (Primer Fields) provides the substratum for these reactions. The theory, not yet accepted by the scientific community, says that magnetic fields in the shape of a basin are present in starry celestial bodies (where, admittedly by the scientific community, the fusion of elements occurs). The discovery made in this experiment is that the presence of these magnetic fields in the shape of a basin catalyzes the reactions of proton exchange in atomic nuclei that has the predisposition to make the exchange, because the applied high voltage distorts the electronic cloud of the atoms, allowing the shock of core with core.
[005] O principio da transmutação de elementos químicos sem bombardeamento por prótons, baseia-se em teorias ainda não aceitas pela química, mas que são possíveis com a aplicação da teoria da física primer fields. A transmutação convencionalmente é realizada em reatores nucleares pelo bombardeamento de prótons em núcleos instáveis e estáveis de elementos, o que não é o caso desse experimento. The principle of the transmutation of chemical elements without bombardment by protons, is based on theories not yet accepted by the chemistry, but which are possible with the application of the theory of physics first fields. Transmutation is conventionally performed in nuclear reactors by the bombardment of protons into unstable and stable nuclei of elements, which is not the case with this experiment.
[006] Como visto acima, dadas as incorporações preferenciais e possíveis implementações a essa tecnologia, sigam de forma que não tendam a limitá-la, podendo haver variações construtivas que sejam equivalentes sem, no entanto, fugir do escopo de proteção da invenção. As seen above, given the preferred embodiments and possible implementations of this technology, follow in a manner that does not tend to limit it, there may be constructive variations that are equivalent without, however, departing from the scope of protection of the invention.
[007] O processo químico de produção de diferencial de potencial elétrico por transmutação de elementos poderá ser melhor compreendido através da descrição detalhada em consonância com as seguintes figuras em anexo, onde:  The chemical process of producing electrical potential differential by transmutation of elements can be better understood by the detailed description in accordance with the following attached figures, where:
FIGURA 01 Apresenta um esquema geral do processo químico de produção de diferencial de potencial elétrico por transmutação de elementos. FIGURE 01 It presents a general scheme of the chemical process of production of differential of electrical potential by transmutation of elements.
FIGURA 02 Apresenta uma vista frontal da câmara a vácuo onde ocorre o processo químico de produção de diferencial de potencial elétrico por transmutação de elementos.  FIGURE 02 It presents a frontal view of the vacuum chamber where the chemical process of producing electrical potential differential by transmutation of elements occurs.
[008] Conforme a figura 01, o processo químico de produção de diferencial de potencial elétrico por transmutação de elementos compreende em uma reação química de geração de um diferencial de potencial pela transmutação de elementos químicos ocorre da seguinte forma: Posiciona-se uma esfera do metal Paládio (46 prótons) ou Platina (78 prótons) no meio de dois imãs (1) em formato de bacia (um com a polaridade norte e outro com a polaridade sul). According to figure 01, the chemical process of producing electrical potential differential by transmutation of elements comprises in a chemical reaction of generation of a potential differential by the transmutation of chemical elements occurs as follows: metal palladium (46 protons) or Platinum (78 protons) in the middle of two magnets (1) in a bowl shape (one with north polarity and one with south polarity).
[009] Em seguida, será feito o revestimento (l.l)da superfície dos imãs (1) com o metal índio (49 prótons). Aplicam-se, após fazer o vácuo na câmara, os seguintes gases: Gás nobre Neon (10 prótons), gás nobre Argônio (18 prótons) e vapor dos seguintes metais alcalinos Na (11 prótons) e Li (3 prótons) e K (19 prótons). [010] Ao aplicar-se-á alta tensão de 70 kv no experimento espera-se que irá se iniciar uma reação em cadeia de choque entre os gases e os metais. O gás neon e argônio tem a tendência de perda de um próton, ao chocar-se com o paládio, ele cederá esse próton para o Paládio ou Platina, que tem a tendência de ganhar 01 próton, ao final do choque tem-se a transmutação do Ne (10 prótons) em Flúor (9 protons) e transmutação do argônio(18 prótons) em Cl(17 prótons), e a transmutação superficialda esfera de Paládio (A) (46 prótons) em Prata(47 prótons) ou Platina (A) (78 prótons) em Au (79 Protons) sendo essa a porção positiva da pilha (que cede elétrons) na reação de química. The coating (11) will then be made from the surface of the magnets (1) with the Indian metal (49 protons). The following gases are applied after the vacuum in the chamber: Neon noble gas (10 protons), noble gas Argon (18 protons) and vapor of the following alkali metals Na (11 protons) and Li (3 protons) and K ( 19 protons). [010] When high voltage of 70 kv is applied in the experiment it is expected that a shock-chain reaction between the gases and the metals will start. Neon gas and argon have the tendency to lose a proton, when it collides with the palladium, it will yield this proton to the Palladium or Platinum, which tends to gain 01 proton, at the end of the shock has the transmutation (10 protons) in fluorine (9 protons) and transmutation of argon (18 protons) in Cl (17 protons), and the surface transmutation of the Palladium (A) sphere (46 protons) in Silver (47 protons) or Platinum ( A) (78 protons) in Au (79 Protons) being the positive portion of the cell (which yields electrons) in the chemical reaction.
[011] A outra porção da reação ocorre quando os átomos em estado de vapor de [011] The other portion of the reaction occurs when the atoms in the vapor state of
Li, Na e K entram na liga de índio [parcialmente derretida pelo arco elétrico (C)] e ganham 01 próton do índio (49 prótons) devido à tendência do índio em ceder esse próton, tornando-se Cádmio (48 prótons).Os vapores de metais alcalinos transmutam respectivamente em Be (4 prótons), Mg (12 prótons) e Ca (20 prótons), sendo essa a porção carregada negativamente da pilha (recebe elétrons). Li, Na and K enter the Indian alloy [partially melted by the electric arc (C)] and gain 01 proton of the Indian (49 protons) due to the tendency of the Indian to yield this proton, becoming Cadmium (48 protons). alkali metal vapors transmute respectively into Be (4 protons), Mg (12 protons) and Ca (20 protons), which is the negatively charged portion of the cell (receives electrons).
[012] Durante a reação ocorrem choques de todos os gases em todos os metais, mas no momento em que essa reação descrita acima ocorre, simultaneamente, um arco elétrico (C) é gerado entre os dois gases e os vapores de metais alcalinos. Nem todos os choques resultarão em transmutação, mas estatisticamente grande parte terá êxito.  During the reaction shocks of all the gases occur in all the metals, but at the moment that reaction described above occurs simultaneously, an electric arc (C) is generated between the two gases and the alkaline metal vapors. Not all shocks will result in transmutation, but statistically much will succeed.
[013] O principio explicado nessa reação química prova-se à medida que a reação química se sustenta, não sendo necessário a injeção de 70 kv para manter o arco elétrico (C), o arco inicial de 70kv age apenas como um gatilho para iniciar a reação. A constante transmutação do gás neon em flúor, e argônio em cloro, cede elétrons não necessários para estabilizar a carga positiva do próton perdido, e à medida que os átomos de Li, Na e K ganham prótons no núcleo, mais elétrons são necessários para estabilizar o novo núcleo, gerando-se assim um diferencial de potencial que retroalimenta a reação, atraindo mais gás disperso no vácuo parcial, o que gera uma reação em cadeia que sustenta a esfera de plasma. The principle explained in this chemical reaction proves itself as the chemical reaction is sustained, and it is not necessary to inject 70 kv to maintain the electric arc (C), the initial arc of 70 kv acts only as a trigger to start the reaction. The constant transmutation of neon gas into fluorine and argon into chlorine yields unnecessary electrons to stabilize the positive charge of the lost proton, and as Li, Na, and K atoms gain protons in the nucleus, more electrons are needed to stabilize the new nucleus, thus generating a potential differential that feeds back the reaction, attracting more dispersed gas in the partial vacuum, which generates a chain reaction that supports the plasma sphere.
[014] A produção de energia elétrica pelo experimento em questão ocorre pela constante rotação de elétrons confinados por um campo magnético no meio dos imãs (1), que forma um disco de plasma (B) que rotacional em alta velocidade. A rotação de campos magnéticos carregados com elétrons pode induzir corrente elétrica etn bobinas de transformadores. [015] Basicamente este experimento representa uma pilha química alimentada pela transmutação do gás neon, argônio e vapores de Na, Li e EL The electric energy production by the experiment in question occurs by the constant rotation of electrons confined by a magnetic field in the middle of the magnets (1), which forms a rotating plasma disc (B) at high speed. The rotation of electrically charged magnetic fields can induce electric current in transformer coils. [015] Basically this experiment represents a chemical cell powered by the transmutation of neon gas, argon and Na, Li and EL vapors
[016] Como visto acima, dadas as incorporações preferenciais e possíveis implementações a essa tecnologia, sigam de forma que não tendam a limitá-la, podendo haver variações construtivas que sejam equivalentes sem, no entanto, fugir do escopo de proteção da invenção. [016] As seen above, given the preferred embodiments and possible implementations for this technology, follow in a manner that does not tend to limit it, there may be constructive variations that are equivalent without, however, departing from the scope of protection of the invention.

Claims

REIVINDICAÇÕES
1. PROCESSO QUÍMICO DE PRODUÇÃO DE DIFERENCIAL DE POTENCIAL ELÉTRICO POR TRANSMUTAÇÃO DE ELEMENTOS caracterizado por um processo de geração de energia por transmutação química onde posiciona-se uma esfera do metal Paládio (A) (46 prótons) no meio de dois imãs (1) em formato de bacia (um com a polaridade norte e outro com a polaridade sul); revestimento (1.1) da superfície dos imãs (1) com o metal índio (49 prótons); aplicação de, após fazer o vácuo na câmara, gás nobre Neon (10 prótons), gás nobre Argônio (18 prótons) e vapor dos seguintes metais alcalinos Na(l l prótons) e Li (3 prótons) e K (19 prótons); aplicação de alta tensão de 70 kv no experimento espera-se que irá se iniciar uma reação em cadeia de choque entre os gases e os metais; o gás neon e argômo tem a tendência de perda de um próton, ao chocar-se com o paládio, ele cederá esse próton para o paládio, que tem a tendência de ganhar 01 próton, ao final do choque tem-se a transmutação do Ne (10 prótons) em Flúor (9 prótons) e transmutação do argônio (18) em Cl (17), e a transmutação superficial da esfera de Paládio (A) (46 prótons) em Prata(47 prótons) sendo essa a porção positiva da pilha (que cede eiétrons) na reação de química; a outra porção da reação ocorre quando os átomos em estado de vapor de Li, Na e K entram na liga de índio [parcialmente derretida pelo arco elétrico (C)] e ganham 01 próton do índio (49 prótons) devido à tendência do índio em ceder esse próton, tornando-se Cádmio (48 prótons), dessa forma, os gases transmutam respectivamente em Be (4 prótons), Mg (12 prótons) e Ca (20 prótons), sendo essa a porção carregada negativamente da pilha (recebe eiétrons);  1. A CHEMICAL PROCESS OF PRODUCTION OF ELECTRICAL POTENTIAL DIFFERENTIAL BY ELEMENT TRANSMUTATION characterized by a process of energy generation by chemical transmutation where a sphere of the metal Palladium (A) (46 protons) is positioned in the middle of two magnets (1) (one with the north polarity and the other with the south polarity); coating (1.1) of the surface of the magnets (1) with the Indian metal (49 protons); application of after vacuuming the chamber, noble gas Neon (10 protons), noble gas Argon (18 protons) and vapor of the following alkali metals Na (l protons) and Li (3 protons) and K (19 protons); application of 70 kv high voltage in the experiment it is expected that a shock chain reaction between the gases and the metals will start; Neon gas and Argon have the tendency to lose a proton, when it collides with palladium, it will yield this proton to palladium, which tends to gain 01 proton, at the end of the shock has the transmutation of Ne (10 protons) in fluorine (9 protons) and transmutation of argon (18) in Cl (17), and the surface transmutation of the Palladium sphere (A) (46 protons) in Silver (47 protons) being the positive portion of the cell (which yields eiétrons) in the chemical reaction; the other portion of the reaction occurs when the atoms in the vapor state of Li, Na, and K enter the indium alloy [partially melted by the electric arc (C)] and gain 01 proton from the Indian (49 protons) due to the (protons), Mg (12 protons) and Ca (20 protons), the latter being charged negatively from the cell (receives electrons );
2. PROCESSO QUÍMICO DE PRODUÇÃO DE DIFERENCIAL DE POTENCIAL ELÉTRICO POR TRANSMUTAÇÃO DE ELEMENTOS, de acordo com a reivindicação 1, caracterizado pelo fato de que arco inicial de 70kv age apenas como um gatilho para iniciar a reação, de forma que a reação química prova-se à medida que a reação química se sustenta; a constante transmutação do gás neon em flúor e argônio em cloro, cede eiétrons não necessários para estabilizar a carga positiva do próton perdido, e à medida que os átomos de Li, Na e K ganham prótons no núcleo, mais eiétrons são necessários para estabilizar o novo núcleo, gerando-se assim um diferencial de potencial que retroalimenta a reação, atraindo mais gás disperso no vácuo parcial, o que gera uma reação em cadeia que sustenta a esfera de plasma; 2. A CHEMICAL PRODUCTION PROCESS OF ELECTRICAL POTENTIAL DIFFERENTIAL BY ELEMENT TRANSMUTATION, according to claim 1, characterized in that the initial arc of 70 kv acts only as a trigger to initiate the reaction, as the chemical reaction is sustained; the constant transmutation of neon gas into fluorine and argon into chlorine yields electrons not needed to stabilize the positive charge of the lost proton, and as Li, Na, and K atoms gain protons in the nucleus, more electrons are needed to stabilize the new nucleus, thus generating a potential differential that feeds back the reaction, attracting more dispersed gas in the partial vacuum, which generates a chain reaction that supports the plasma sphere;
3. PROCESSO QUÍMICO DE PRODUÇÃO DE DIFERENCIAL DE POTENCIAL ELÉTRICO POR TRANSMUTAÇÃO DE ELEMENTOS, de acordo com a reivindicação 1, caracterizado pelo fato de que a produção de energia elétrica pelo processo em questão ocorre pela constante rotação de elétrons confinados por um campo magnético no meio dos imãs (1), que forma um disco de plasma (B) que rotacional em alta velocidade (a rotação de campos magnéticos carregados com elétrons pode induzir corrente elétrica em bobinas de transformadores); basicamente o processo representa uma pilha química alimentada pela transmutação do gás neon, argômo e vapores de Na, Li e K. 3. A CHEMICAL PRODUCTION PROCESS OF ELECTRICAL POTENTIAL DIFFERENTIAL BY ELEMENT TRANSMUTATION, according to claim 1, characterized in that the production of electric energy by the process in question occurs by the constant rotation of electrons confined by a magnetic field in the medium of the magnets (1), which forms a plasma disk (B) that rotates at high speed (rotating electron-charged magnetic fields can induce electric current in transformer coils); basically the process represents a chemical cell powered by the transmutation of the neon gas, argômo and vapors of Na, Li and K.
PCT/BR2017/000118 2017-09-27 2017-09-27 Chemical process for producing an electrical potential difference by transmutation of elements WO2019060967A1 (en)

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