Instrumentation for Pulsed Corona Discharge Generation Applied to Water

In this paper, we present a model (which is structured as an equivalent electric circuit whose elements are identified and deducted from the nature of the medium, the ionization and expansion process of the streamers that convey the prebreakdown current, and the energy associated to the electric bre...

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Veröffentlicht in:	IEEE transactions on plasma science 2008-02, Vol.36 (1), p.185-191
Hauptverfasser:	Rodriguez-Mendez, Benjamin Gonzalo, Lopez-Callejas, Regulo, Pena-Eguiluz, Rosendo, Mercado-Cabrera, Antonio, Alvarado, Raul Valencia, Barocio, Samuel R., de la Piedad-Beneitez, Anibal, Benitez-Read, Jorge S., Pacheco-Sotelo, Joel O.
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Sprache:	eng
Schlagworte:	Circuit simulation Circuits Coaxial components Corona Electric breakdown Electric discharges Electric power Electrostatic discharges Exact sciences and technology Glow corona Inductors Instruments Ionization Ionization of plasmas Physics Physics of gases, plasmas and electric discharges Physics of plasmas and electric discharges plasma applications plasma generation Plasma production and heating Plasma properties Plasma sources power system simulation Predictive models Pulse circuits Pulse generation Simulation
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container_title	IEEE transactions on plasma science
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creator	Rodriguez-Mendez, Benjamin Gonzalo Lopez-Callejas, Regulo Pena-Eguiluz, Rosendo Mercado-Cabrera, Antonio Alvarado, Raul Valencia Barocio, Samuel R. de la Piedad-Beneitez, Anibal Benitez-Read, Jorge S. Pacheco-Sotelo, Joel O.
description	In this paper, we present a model (which is structured as an equivalent electric circuit whose elements are identified and deducted from the nature of the medium, the ionization and expansion process of the streamers that convey the prebreakdown current, and the energy associated to the electric breakdown in water) and a simulation of a pulsed corona discharge (PCD). Considering this, a coaxial reactor and an inexpensive and compact high-voltage pulsed-power supply (PPS) system were designed and constructed with the purpose of carrying out the PCD experimentally. The simulation results enable the prediction of the behavior of the discharge. The coaxial reactor is constituted by a cylindrical chamber and a straight central rod. The PPS operates within the 100-2000-Hz repetition rate and 0-30-kV amplitude ranges. All the system has been tested, and the first electrical results, voltage, and current waveforms, are presented.
doi_str_mv	10.1109/TPS.2007.914463
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Considering this, a coaxial reactor and an inexpensive and compact high-voltage pulsed-power supply (PPS) system were designed and constructed with the purpose of carrying out the PCD experimentally. The simulation results enable the prediction of the behavior of the discharge. The coaxial reactor is constituted by a cylindrical chamber and a straight central rod. The PPS operates within the 100-2000-Hz repetition rate and 0-30-kV amplitude ranges. 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Considering this, a coaxial reactor and an inexpensive and compact high-voltage pulsed-power supply (PPS) system were designed and constructed with the purpose of carrying out the PCD experimentally. The simulation results enable the prediction of the behavior of the discharge. The coaxial reactor is constituted by a cylindrical chamber and a straight central rod. The PPS operates within the 100-2000-Hz repetition rate and 0-30-kV amplitude ranges. 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Considering this, a coaxial reactor and an inexpensive and compact high-voltage pulsed-power supply (PPS) system were designed and constructed with the purpose of carrying out the PCD experimentally. The simulation results enable the prediction of the behavior of the discharge. The coaxial reactor is constituted by a cylindrical chamber and a straight central rod. The PPS operates within the 100-2000-Hz repetition rate and 0-30-kV amplitude ranges. All the system has been tested, and the first electrical results, voltage, and current waveforms, are presented.</abstract><cop>New York, NY</cop><pub>IEEE</pub><doi>10.1109/TPS.2007.914463</doi><tpages>7</tpages></addata></record>
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subjects	Circuit simulation Circuits Coaxial components Corona Electric breakdown Electric discharges Electric power Electrostatic discharges Exact sciences and technology Glow corona Inductors Instruments Ionization Ionization of plasmas Physics Physics of gases, plasmas and electric discharges Physics of plasmas and electric discharges plasma applications plasma generation Plasma production and heating Plasma properties Plasma sources power system simulation Predictive models Pulse circuits Pulse generation Simulation
title	Instrumentation for Pulsed Corona Discharge Generation Applied to Water
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