AND NOW : COLD FUSSION
What would say now, the international consortium (EU, USA, Russia, China, Japan, South Korea and India), committed to building the International Thermonuclear Experimental Reactor (ITER), scheduled to provide huge energy to the industry. The ITER ("The sun on Earth"), whose cost is estimated in billions of dollars is designed to generate nuclear hot mergers, copying pressure and temperature (more than 100 million degrees centigrades), established within the stars where fusion of hydrogen atoms (H),occurs generating various elements including Uranium. With nuclear fusion is not only possible to create bombs more powerful that atomic (produced by nuclear fission), but also generate almost clean and limitless energy for industrial purposes. The surprise grow now that the Emeritus Japanese physicist : Yoshiaki Arata, together with Zhang Yue-Chang (Osaka University), conducted less than a week ago, public experiments before newspapers and TV channels journalists, aimed to testing nuclear fusion at environment temperature (cold fussion, low-energy nuclear reaction) in a cell reaction in which was produced an excess heat generation after Helium-4 atoms merged from Deuterium gas. Arata forced by pressure the Deuterium to pass through a cell containing a mixture of Palladium and Zirconium oxide (ZrO2-Pd), conditioner of the merger of Deuterium atoms. Despite that at the moment there are 3000 articles supporting the merger in cold, the topic is full of controversy including some scientists that have denounced pressure to accept as wrong these experiments. Now, faced with the forcefulness of the experiment, international agencies expect to repeat it, in independent laboratories.
The experiment is not new. As early as 1989, M. Fleischmann (MF) and S. Pons (SP), from Utah University, reported the first cold fusion, but could not repeat it successfully thereafter. On that occasion, MF and SP, observed excess heat during the electrolysis of heavy water containing Palladium electrodes (which absorbs H). MF and SP used an open cell allowing Deuterium gas and Oxygen resulting from the electrolysis, leave the cell together with some heat. While the cell was packed with heavy water at regular intervals -at some point- the temperature suddenly rose to 50 ° C without changes in energy input, generating considerable "excess energy". Critics of that time disqualified the experiment due to absence of gamma rays and Helium. Subsequently, in experiments conducted at the Space and Naval Warfare Systems Center San Diego, there were small holes in the cathode of Palladium, attributed to neutrons beating. Subsequently, Paul Palmer (Brigham Young University), detected what he call "geo-fussion" (spontaneous nuclear fusion in the center of the Earth).
The experiment is not new. As early as 1989, M. Fleischmann (MF) and S. Pons (SP), from Utah University, reported the first cold fusion, but could not repeat it successfully thereafter. On that occasion, MF and SP, observed excess heat during the electrolysis of heavy water containing Palladium electrodes (which absorbs H). MF and SP used an open cell allowing Deuterium gas and Oxygen resulting from the electrolysis, leave the cell together with some heat. While the cell was packed with heavy water at regular intervals -at some point- the temperature suddenly rose to 50 ° C without changes in energy input, generating considerable "excess energy". Critics of that time disqualified the experiment due to absence of gamma rays and Helium. Subsequently, in experiments conducted at the Space and Naval Warfare Systems Center San Diego, there were small holes in the cathode of Palladium, attributed to neutrons beating. Subsequently, Paul Palmer (Brigham Young University), detected what he call "geo-fussion" (spontaneous nuclear fusion in the center of the Earth).
FUSION NUCLEAR, EN FRIO.
Que opinará ahora el consorcio internacional (Unión Europea, USA, Rusia, China, Japón, Corea del Sur e India), empeñado en la construcción del Reactor Experimental Termonuclear Internacional (ITER), programado para dotar de energia limpia y casi ilimitada a la industria. El ITER (“El sol en la Tierra”), cuyo costo se calcula en miles de millones de dólares, está destinado a generar fusiones nucleares en caliente, copiando principios de presión y temperatura (más de 100 millones de grados centígrados), establecidos al interior de las estrellas donde mediante fusión de átomos de Hidrógeno (H), se generan diversos elementos incluyendo al Uranio. Con la fusión nuclear no solo es posible crear bombas mas potentes que las atómicas (obtenidas por fisión nuclear), sino también generar energía casi inextinguible con fines industriales. Sorpresa incrementada, ahora que el físico emérito japonés : Yoshiaki Arata de conjunto con Yue-Chang Zhang (Universidad de Osaka), realizaron hace menos de una semana, experimentos ante cadenas de periódicos y TV, tendientes a probar la fusión nuclear a temperatura ambiente (en frio, reacción nuclear de baja energía), en una celda de reacción en la que se observó un exceso de calor trás la generación de átomos de Helio-4 a partir gas Deuterio. Arata forzó al Deuterio a pasar mediante presión a una celda evacuada conteniendo una mezcla de Paladio y óxido de Zirconio (ZrO2-Pd), condicionante de la fusión de átomos de Deuterio. No obstante y a pesar de que en la actualidad existen más de 3000 articulos avalando la fusión en frio, el tema es candente y de gran controversia en tanto algunos científicos han denunciado presiones para negarse a aceptar como válidos estos experimentos. Ahora, ante la contundencia del experimento japonés, organismos internacionales esperan repetirlo, en laboratorios independientes.
El experimento no es nuevo. Ya en 1989, M. Fleischmann (MF) y S. Pons (SP) de la Universidad de Utah, reportaron la primera fusión nuclear en frio, aunque no pudieran repetirla con éxito, posteriormente. En tal ocasión, MF y SP, observaron un exceso de calor durante la electrólisis de agua pesada conteniendo electrodos de Paladio (que absorbe H). MF y SP emplearon una celda abierta permitiendo que el Deuterio gaseoso y el O resultante de la electrólisis, dejaran la celda de conjunto con algo de calor. Mientras la celda era repletada con agua pesada a intervalos regulares, en algún momento, la temperatura se elevó súbitamente a 50 °C sin cambios en la energía entrada, generando un considerable "exceso de energia". Los criticos de la epoca descalificaron el experimento debido a la ausencia de rayos gamma y Helio. Posteriormente, en experimentos realizados en el Space and Naval Warfare Systems Center San Diego, se observaron hoyos en el cátodo de Paladio, atribuidos a bombardeo con neutrones. Posteriormente, Paul Palmer (Brigham Young University), detectó lo que se dió en llamar "geo-fusión" (fusión nuclear espontánea en el centro de la Tierra.
Labels: Cold fussion
posted by Victor Mechán Mendez at 9:04 AM
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