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UMoID/A, developed by the authors of this work, have unique performance specifications (extremely high magnetic induction density, close to one hundred percent efficiency, low material consumption), which allows them to grind various materials up to nanoscale for various areas of industrial production, chemistry and medicine. These unique specifications of UMoID/A allowed us to use these disintegrators in our developed technologies for producing cheap alkaline nanocement/concrete, cheap and eco-friendly cement wood, cheap carbon nanotubes, cheap combined feed, increasing the ultimate production of light oil fraction under the subsequent standard process of its cracking, as mixers for producing high-quality suspensions in the oil, coal and construction industries. The main attention in this work is devoted to solving the most important global food and environmental problem - the industrial zoo/bioplankton cultivation in the ocean based on our developed technology for producing cheap nanoparticles from various chemical elements, as well as multilayer telescopically embedded carbon nanotubes by grinding modified coal using the UMoID/A. This project will allow to comprehensively solve the fundamental problems of obtaining renewable energy sources for obtaining products for agriculture and medicine needs, as well as to solve the problem of global warming by consuming a large amount of carbon dioxide dissolved in ocean water and accumulated in the atmosphere for this project. All the technologies proposed in this article by the authors are based on the use of electromagnetic devices designed and patented by us with a vortex ferromagnetic layer [1,2]. Due to the versatility of their highly efficient application in various areas of industrial production, they are called as Universal Modules of Industrial Disintegrators/Activators UMoID/A.
Universal Modules of Industrial Disintegrators/Activators (UMoID/A) Nanocement/Concrete Nanoparticles from Various Chemical Elements
Universal Modules of Industrial Disintegrators/Activators (UMoID/A) Nanocement/Concrete Nanoparticles from Various Chemical Elements
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