High-voltage pulsed generators for electro-discharge technologies
A high-voltage pulse technology is one of effective techniques for the disintegration and milling of rocks, separation of ores and synthesized materials, recycling of building and elasto-plastic materials. We present here the design and test results of two portable HV pulsed generators, designed for...
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Veröffentlicht in: | Journal of instrumentation 2013-09, Vol.8 (9), p.P09012-P09012 |
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container_title | Journal of instrumentation |
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creator | Kovalchuk, B M Kharlov, A V Kumpyak, E V Sinebrykhov, V A |
description | A high-voltage pulse technology is one of effective techniques for the disintegration and milling of rocks, separation of ores and synthesized materials, recycling of building and elasto-plastic materials. We present here the design and test results of two portable HV pulsed generators, designed for materials fragmentation, though some other technological applications are possible as well. Generator #1 consists of low voltage block, high voltage transformer, high voltage capacitive storage block, two electrode gas switch, fragmentation chamber and control system block. Technical characteristics of the #1 generator: stored energy in HV capacitors can be varied from 50 to 1000 J, output voltage up to 300 kV, voltage rise time ~ 50 ns, typical operation regime 1000 pulses bursts with a repetitive rate up to 10 Hz. Generator #2 is made on an eight stages Marx scheme with two capacitors (100kV-400nF) per stage, connected in parallel. Two electrode spark gap switches, operated in atmospheric air, are used in the Marx generator. Parameters of the generator: stored energy in capacitors 2 / 8 kJ, amplitude of the output voltage 200 / 400 kV, voltage rise time on a load 50 / 100 ns, repetitive rate up to 0.5 Hz. The fragmentation process can be controlled within a wide range of parameters for both generators. |
doi_str_mv | 10.1088/1748-0221/8/09/P09012 |
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We present here the design and test results of two portable HV pulsed generators, designed for materials fragmentation, though some other technological applications are possible as well. Generator #1 consists of low voltage block, high voltage transformer, high voltage capacitive storage block, two electrode gas switch, fragmentation chamber and control system block. Technical characteristics of the #1 generator: stored energy in HV capacitors can be varied from 50 to 1000 J, output voltage up to 300 kV, voltage rise time ~ 50 ns, typical operation regime 1000 pulses bursts with a repetitive rate up to 10 Hz. Generator #2 is made on an eight stages Marx scheme with two capacitors (100kV-400nF) per stage, connected in parallel. Two electrode spark gap switches, operated in atmospheric air, are used in the Marx generator. Parameters of the generator: stored energy in capacitors 2 / 8 kJ, amplitude of the output voltage 200 / 400 kV, voltage rise time on a load 50 / 100 ns, repetitive rate up to 0.5 Hz. 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Parameters of the generator: stored energy in capacitors 2 / 8 kJ, amplitude of the output voltage 200 / 400 kV, voltage rise time on a load 50 / 100 ns, repetitive rate up to 0.5 Hz. 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We present here the design and test results of two portable HV pulsed generators, designed for materials fragmentation, though some other technological applications are possible as well. Generator #1 consists of low voltage block, high voltage transformer, high voltage capacitive storage block, two electrode gas switch, fragmentation chamber and control system block. Technical characteristics of the #1 generator: stored energy in HV capacitors can be varied from 50 to 1000 J, output voltage up to 300 kV, voltage rise time ~ 50 ns, typical operation regime 1000 pulses bursts with a repetitive rate up to 10 Hz. Generator #2 is made on an eight stages Marx scheme with two capacitors (100kV-400nF) per stage, connected in parallel. Two electrode spark gap switches, operated in atmospheric air, are used in the Marx generator. 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subjects | Blocking Capacitors Construction materials Electric potential Electrodes Fragmentation Generators High voltages Voltage |
title | High-voltage pulsed generators for electro-discharge technologies |
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