Karim Saber scite author profile

Karim Saber

5Publications

4Citation Statements Received

28Citation Statements Given

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Affiliations

Université Ibn Zohr

Publications

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Experimental Investigation of Effects of Electric Operating Parameters on Pulsed Corona Discharges in Humid Air at Atmospheric Pressure

Guedah¹,

Abahazem²,

Merbahi³

et al. 2018

JASMI

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The present work is devoted to electrical and optical study of a point-plane atmospheric pressure corona discharge reactor in humid air powered by pulsed high voltage supply. The corona current and the injected energy are analyzed as a function of several parameters such as applied voltage and humidity rate. Then, investigations based on emission spectroscopy analysis were used in UV range (from 200 nm to about 400 nm). The main observed excited species were the second positive (SPS), the first negative (FNS) systems and OH

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Plasma energy efficiency in tip-to-plane air corona discharges at atmospheric pressure

Saber

Abahazem

Merbahi

et al. 2022

Journal of Electrostatics

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Electrical equivalent circuit and modeling of a pulsed air corona discharge

Saber

Guedah

Abahazem

et al. 2020

Materials Today: Proceedings

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Plasma energy efficiency and equivalent electrical circuit of the multi-tips pulsed corona discharge in dry air at atmospheric pressure

Saber

Abahazem

Merbahi

et al. 2023

Journal of Electrostatics

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Electrical Equivalent Circuit of Multi-Tips Pulsed Corona Discharge Reactor

et al. 2021

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In this work, an electrical model equivalent to the corona discharge reactor has been proposed in a multitips plan configuration, in dry air at atmospheric pressure. The electrical parameters evolution of the circuit are obtained by using the identification method which is based on the least squares recursive (RLS) algorithm, the estimated parameters allow us to describe the corona discharge behavior inside the reactor. The RLS method used during the determination of capacitance and resistance is validated by the comparison between the measured and the calculated currents, the significant forms of capacitance and resistance confirm the validity of the proposed electrical model. The estimated parameters of the electrical circuit allowed us to determine the discharge power, the power delivered to the reactor and thus the energy efficiency during the discharge, this efficiency increases during the propagation of streamers towards the plane, it reaches a maximum value which is equal to 50% in the case of the fourtips- plane configuration. The energy stored in the reactor is also calculated using the electrical circuit, it increases to a maximum value of 2.6 pJ, which is a very low value compared to the energy delivered to the reactor. This work allows us to control the discharge and lost energy during the corona discharge in the case of multi-tips-plane configuration.

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Karim Saber

Experimental Investigation of Effects of Electric Operating Parameters on Pulsed Corona Discharges in Humid Air at Atmospheric Pressure

Plasma energy efficiency in tip-to-plane air corona discharges at atmospheric pressure

Electrical equivalent circuit and modeling of a pulsed air corona discharge

Plasma energy efficiency and equivalent electrical circuit of the multi-tips pulsed corona discharge in dry air at atmospheric pressure

Electrical Equivalent Circuit of Multi-Tips Pulsed Corona Discharge Reactor

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