COLD TRANSMUTATION OF CHEMICAL ELEMENTS
Modern nuclear technologies are the so-called high-energy nuclear reactions that can create valuable elements and isotopes by means of nuclear transformations, but they are incredibly expensive and lead to environmental disasters and the results are unstable. Therefore, the only industry where the splitting of the atom is used today is power engineering. At the same time, since ancient times mankind is working on another method of obtaining valuable elements and isotopes — Low-Energy Nuclear Reactions (LENR). It is a transformation (transmutation) of certain chemical elements into others in their natural environment, without using enormous amounts of energy for the atom splitting. Today the time has come to take the next step — to master the technology for turning cheap elements into valuable elements and isotopes by means of low energy nuclear reactions. Present technologies for obtaining valuable elements and isotopes:
- Extraction from natural deposits: Very often in nature, there is no needed concentration of valuable elements, sufficient for economically profitable extraction. Especially it concerns platinum group metals. For example, a number of platinum elements can be obtained as by-products in processing/refining of copper-nickel ores.
- High-energy nuclear reactions: High-energy nuclear reactions — are a technology used by the nuclear industry based on the high-energy splitting of atoms. In essence, a target is bombarded by a beam of charged particles accelerated by electric and magnetic fields. Such impact results in nuclear transmutation in the targeted chemical element with the emission of radioactive radiation and conversion of one element (its isotope) into another element (isotope).
- Separation of isotopes: Ever since differences in the isotope properties of chemical elements were discovered, the problem of their separation arose. Different methods of separation are used for different elements, but the most well-known method is gas centrifugation. The Cascades of gas centrifuges separate isotopes into the light and heavier ones.
In the process of development of nuclear weapons, a scientific justification was formulated, stating the fact that for a nuclear transformation the atomic nuclei should be impacted by a high-energy flow. An atom can be split using a «large sledgehammer» — impacts of accelerated charged particles. The further use of thermal energy of radioactive fissile materials in operation of power plants followed the path already laid out by the military. This technology caused the following problems:
- Ecological Risk Accelerators produce a lot of extremely dangerous radioactive waste. Nuclear accidents in Chernobyl and Fukushima have demonstrated that high-energy nuclear fission technologies bring a high level of risks.
- The prime cost of production All the elements and isotopes produced in reactors are very expensive, because of the extremely high cost of the accelerators. For example, Californium-252 (252Cf) costs more than $10 million per gram, and only large centralized players can afford the production.
- Unstable results Reactors and accelerators produce mostly radioactive elements and isotopes. Gold produced from mercury transforms back into mercury or follows the decay chain, emitting hard radioactive radiation.
The goal of further research by “Synthestech” is to adjust the technology and develop precise techniques for Cold Transmutation of chemical elements; techniques that will be commercially profitable and industrially scalable. Nowadays, objectively evaluating the results already achieved by the Scientific Research group “Synthestech” in the field of Cold Transmutation of elements, we can say with confidence that we have made an impressive progress in this area. Without any doubts, having developed our own unique method, we are much ahead of all those who are engaged in this field. The obtained data allow us to assume great commercial perspectives for the development of technologies with high added value.
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