A new technique for partial discharges measurement under DC periodic stress

Pietro Romano; Antonino Imburgia; Eleonora Riva Sanseverino; Roberto Candela; Fabio Viola; Roberto Candela

A new technique for partial discharges measurement under DC periodic stress

Pietro Romano, Antonino Imburgia, Eleonora Riva Sanseverino, Roberto Candela, Fabio Viola, Roberto Candela

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Risultato della ricerca: Other › peer review

13 Citazioni (Scopus)

Abstract

The aim of the present work is to recognize the type of defect in insulating materials employed in DC electrical systems. This analysis, under AC stress, is carried out by using the Phase Resolved method (PRPD). While, under constant voltage stress this method cannot be performed and measurements show complexities. In order to overcome these problems, a new technique is proposed, based on the application of a periodic continuous waveform. Simulation results, carried out by using a model based on a time-variable conductance of an air void defect, showed the PRPD pattern that can be obtain. Furthermore, compared to the constant DC stress, the measurement duration became lower and the discharges repetition rate greater. Finally, experimental tests have been made in order to validate simulation results.

Lingua originale	English
Pagine	303-306
Numero di pagine	4
Stato di pubblicazione	Published - 2018

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@conference{266800c288024972abaeeefbaa27001b,

title = "A new technique for partial discharges measurement under DC periodic stress",

abstract = "The aim of the present work is to recognize the type of defect in insulating materials employed in DC electrical systems. This analysis, under AC stress, is carried out by using the Phase Resolved method (PRPD). While, under constant voltage stress this method cannot be performed and measurements show complexities. In order to overcome these problems, a new technique is proposed, based on the application of a periodic continuous waveform. Simulation results, carried out by using a model based on a time-variable conductance of an air void defect, showed the PRPD pattern that can be obtain. Furthermore, compared to the constant DC stress, the measurement duration became lower and the discharges repetition rate greater. Finally, experimental tests have been made in order to validate simulation results.",

keywords = "DC stress; HVDC; Partial discharges; PRPD pattern; Electronic, Optical and Magnetic Materials; Electrical and Electronic Engineering, DC stress; HVDC; Partial discharges; PRPD pattern; Electronic, Optical and Magnetic Materials; Electrical and Electronic Engineering",

author = "Pietro Romano and Antonino Imburgia and {Riva Sanseverino}, Eleonora and Roberto Candela and Fabio Viola and Roberto Candela",

year = "2018",

language = "English",

pages = "303--306",

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TY - CONF

T1 - A new technique for partial discharges measurement under DC periodic stress

AU - Romano, Pietro

AU - Imburgia, Antonino

AU - Riva Sanseverino, Eleonora

AU - Candela, Roberto

AU - Viola, Fabio

AU - Candela, Roberto

PY - 2018

Y1 - 2018

N2 - The aim of the present work is to recognize the type of defect in insulating materials employed in DC electrical systems. This analysis, under AC stress, is carried out by using the Phase Resolved method (PRPD). While, under constant voltage stress this method cannot be performed and measurements show complexities. In order to overcome these problems, a new technique is proposed, based on the application of a periodic continuous waveform. Simulation results, carried out by using a model based on a time-variable conductance of an air void defect, showed the PRPD pattern that can be obtain. Furthermore, compared to the constant DC stress, the measurement duration became lower and the discharges repetition rate greater. Finally, experimental tests have been made in order to validate simulation results.

AB - The aim of the present work is to recognize the type of defect in insulating materials employed in DC electrical systems. This analysis, under AC stress, is carried out by using the Phase Resolved method (PRPD). While, under constant voltage stress this method cannot be performed and measurements show complexities. In order to overcome these problems, a new technique is proposed, based on the application of a periodic continuous waveform. Simulation results, carried out by using a model based on a time-variable conductance of an air void defect, showed the PRPD pattern that can be obtain. Furthermore, compared to the constant DC stress, the measurement duration became lower and the discharges repetition rate greater. Finally, experimental tests have been made in order to validate simulation results.

KW - DC stress; HVDC; Partial discharges; PRPD pattern; Electronic

KW - Optical and Magnetic Materials; Electrical and Electronic Engineering

KW - DC stress; HVDC; Partial discharges; PRPD pattern; Electronic

KW - Optical and Magnetic Materials; Electrical and Electronic Engineering

UR - http://hdl.handle.net/10447/287688

M3 - Other

SP - 303

EP - 306

ER -

A new technique for partial discharges measurement under DC periodic stress

Abstract

All Science Journal Classification (ASJC) codes

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