FIELD: high-temperature superconductivity physics, chemistry, biophysics, medicine, biology, electronics, optoelectronics and material technology.
SUBSTANCE: graphite specimen 1, either monolythic or in form of tube is placed in radioparent tube 3 with high-frequency inductor 4 located along its axis and connected with RH oscillator 5. These units of plant are combined in heating system 2 made in form of closed space. It is connected with inert gas supply system 6 through flow meter 7 and gas former 8 connected in series; gas former 8 has helical thread for forming twisted flow. Carbon from surface of specimen 1 is directed in flow of inert gas to storage reservoir 9 hermetically connected with heating system 2 and inert gas discharge system 12. Storage reservoir 9 is provided with soot collector 10 located outside heating system 2 and provided with cooling system 11. Productivity of plant is increased by 10 times with no impairment of quality.
EFFECT: enhanced efficiency; increased productivity.
7 cl, 1 dwg
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