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Schur D.V.,Ukrainian Academy of Sciences | Anikina N.S.,Ukrainian Academy of Sciences | Krivuschenko O.Y.,Ukrainian Academy of Sciences | Zaginaichenko S.Y.,Ukrainian Academy of Sciences | And 6 more authors.
NATO Science for Peace and Security Series C: Environmental Security | Year: 2013

From ancient times naftalan is used to treat various diseases both of animals and of humans. The positive use of fullerenes in medicine, pharmacology and perfumery makes them an attractive and promising object of extensive research. The combination of fullerenes and naftalan oil together in one compound, affecting positively on the vital functions of the human body, can bring the unexpected results. The solubility of fullerenes in naftalan oil may be the key moment in the synthesis of products of such kind. A detailed study focused on the elucidation of the fullerenes solubility in naftalans has been presented in this chapter: (1) determination of the solubility of fullerite in naftalan; (2) definition of the regions of naftalan transmission in toluene; (3) measurement of fullerenes solutions spectra in naftalan; and (4) comparison of the measured spectra of fullerene solutions in naftalan and toluene. © Springer Science+Business Media Dordrecht 2013. Source


Javadov N.F.,Experimental industrial plant of Institute for Petroleum Chemical Processes IPCP of NAS of Azerbaijan | Nazimov T.I.,Experimental industrial plant of Institute for Petroleum Chemical Processes IPCP of NAS of Azerbaijan | Ismailov E.G.,Experimental industrial plant of Institute for Petroleum Chemical Processes IPCP of NAS of Azerbaijan | Schur D.V.,Ukrainian Academy of Sciences | And 6 more authors.
NATO Science for Peace and Security Series C: Environmental Security | Year: 2013

Modern science and technology level requires availability of polymeric insulating materials which would have not only high strength, but also the features like adhesion, tensile, impact and erosion resistance. The elaboration of the technology of production of new erosion resistant coating as new generation of materials with high hydrophobic properties is the achieved goal of the presented investigations. This problem has been solved by the development of new primary polyester on the basis of which the polyether urethane composite material containing ferromagnetic nanoparticles has been produced. The synthesis of ferromagnetic superparamagnetic nanoparticles fixed in polymeric matrix of ferromagnetic polymeric nanocomposite has been carried out in special reactor where composition of the polymeric nanocomposite has been controlled. This nanostructured polymeric nanocomposite will be introduced into the oil production, oil processing (against paraffin and salt deposition processes), petroleum chemistry, aviation, instrument engineering, shipbuilding industry and other sectors. Particularly, application of this nanocomposite in paraffin containing oil production will start a new age in the prevention of paraffin, asphaltic-resinous components deposits on the inner surface of pipes and also hydrogen sulphide corrosion of pipe material that is a real disaster for oilmen. It has been proved experimentally that magnetic field was induced in NCT, which accelerate and give special direction of moving for salts ions and paraffin nuclei crystallization centers with the use of polymeric nanocomposite. It has been expected that net cost of the developed polymeric nanocomposite will be 25-30 % lower compare with it for polyether urethane varnish. © Springer Science+Business Media Dordrecht 2013. Source

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