Instability and fault analysis of arc plasma using advanced signal processing methods

This study focuses on the instability and fault analysis of transferred arc plasma, utilizing advanced signal processing methods. Transferred arc plasma systems find significant applications in various industries, including material processing, metallurgy, and waste management. However, the occurren...

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Veröffentlicht in:	Review of scientific instruments 2023-10, Vol.94 (10)
Hauptverfasser:	Sethi, Shakti Prasad, Das, Debi Prasad, Behera, Santosh Kumar, Ray, Nigamananda
Format:	Artikel
Sprache:	eng
Schlagworte:	Damage prevention Fast Fourier transformations Fourier transforms Liapunov exponents Optical communication Optimization Plasma Power spectral density Scientific apparatus & instruments Signal processing Stability analysis Waste management
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creator	Sethi, Shakti Prasad Das, Debi Prasad Behera, Santosh Kumar Ray, Nigamananda
description	This study focuses on the instability and fault analysis of transferred arc plasma, utilizing advanced signal processing methods. Transferred arc plasma systems find significant applications in various industries, including material processing, metallurgy, and waste management. However, the occurrence of instabilities and fault events can severely impact system performance and reliability. To address instabilities in arc plasma, various conditions were experimented. The operating parameters, such as arc voltage, arc current, acoustic, optical, and spectroscopic signals, were simultaneously recorded at a higher sampling rate. The proposed approach employs advanced signal processing methods, such as the Lyapunov exponent, fast-Fourier transform, short-time-Fourier transform, and power spectral density, to analyze the characteristics and instabilities of the transferred arc plasma process. By capturing and analyzing signals from multiple sensors, it becomes possible to identify deviations, irregularities, and fault patterns that arise during plasma operation. The outcomes of this research will have significant implications for the optimization and control of transferred arc plasma processes. By identifying and characterizing instabilities due to fault events at an early stage, system operators can take timely corrective actions, preventing potential damage and improving the overall system efficiency.
doi_str_mv	10.1063/5.0161187
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Transferred arc plasma systems find significant applications in various industries, including material processing, metallurgy, and waste management. However, the occurrence of instabilities and fault events can severely impact system performance and reliability. To address instabilities in arc plasma, various conditions were experimented. The operating parameters, such as arc voltage, arc current, acoustic, optical, and spectroscopic signals, were simultaneously recorded at a higher sampling rate. The proposed approach employs advanced signal processing methods, such as the Lyapunov exponent, fast-Fourier transform, short-time-Fourier transform, and power spectral density, to analyze the characteristics and instabilities of the transferred arc plasma process. By capturing and analyzing signals from multiple sensors, it becomes possible to identify deviations, irregularities, and fault patterns that arise during plasma operation. 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source	AIP Journals Complete; Alma/SFX Local Collection
subjects	Damage prevention Fast Fourier transformations Fourier transforms Liapunov exponents Optical communication Optimization Plasma Power spectral density Scientific apparatus & instruments Signal processing Stability analysis Waste management
title	Instability and fault analysis of arc plasma using advanced signal processing methods
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