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  5. USING CARBON NANOTUBES AT HIGH FREQUENCY RESONANT SYSTEM TRANSMISSION OF ELECTRICITY AND APPLYING NON-METALLIC WIRES FOR SAFE ELECTRICITY SUPPLY TO FISH FARMS

USING CARBON NANOTUBES AT HIGH FREQUENCY RESONANT SYSTEM TRANSMISSION OF ELECTRICITY AND APPLYING NON-METALLIC WIRES FOR SAFE ELECTRICITY SUPPLY TO FISH FARMS

Section

Geoecology

Title

USING CARBON NANOTUBES AT HIGH FREQUENCY RESONANT SYSTEM TRANSMISSION OF ELECTRICITY AND APPLYING NON-METALLIC WIRES FOR SAFE ELECTRICITY SUPPLY TO FISH FARMS

Сontributors

L. G. Gavrilov, the P. P. Shirshov Institute of Oceanology of the Russian Academy of Sciences (IO RAS);

L. Yu. Yuferev, Ph. D. (Engineering), Associate Professor, Acting Director, FGBNU VIESH Moscow;

R. I. Styrkul, St. Petersburg Naval Institute, Postgraduate student, Cartography, geological and geophysical equipment expert

Abstract

On the basis of new conductive materials, wires with low weight, high chemical resistance, strength and electrical conductivity can be produced. The use of such wires allows to transfer electrical energy via resonant transmission power system to underwater electrical load in the aggressive sea water.

Keywords

transparent electrodes, carbon nanotubes, nanotube-based wires, resonant transmission power system

References

1.  Zharikova E. F. “Carbon multilayered cylindrical nanotube as matrixes for reception Magnet-active materials and modifying agents for improvement of thermostable and mechanical characteristics of polymers”. The dissertation. Institute of the General and Inorganic chemistry of N. S. Kurnakova of the Russian Academy of Sciences. (in Russian)

2.  A. V. Yeletsky, А. А. Knijnik, B. V. Potapkin, H. M. Kenni. Electric characteristics of the polymeric composites containing carbon нанотрубки. UFN, 185: 3 (2015), 225—270. (in Russian)

3.  Jarosz, P. R., Shaukat, A., Schauerman, C. M., Cress, C. D., Kladitis, P. E., Ridgley, R. D., & Landi, B. J. (2012). High-performance, lightweight coaxial cable from carbon nanotube conductors. ACS Applied Materials and Interfaces,

4 (2), 1103—1109. (in Russian)

4.  Liu Z., Zhan Y., Shi G., Moldovan S., Gharbi M., Song L., Ajayan P. M. (2012). Anomalous high capacitance in a coaxial single nanowire capacitor. Nature Communications, 3 (JUNE), 879. http://doi.org/10.1038/ncomms1833 (in Russian)

5.  Yuferev L. Y., Strebkov D. S., Roschin O. A. Experimental models of resonant systems of transfer of electric energy. TH.: GNU VIESH, 2010, 180 p. (in Russian)