Title :
An investigation into the aging of nanofilled Polypropylene through stochastic analyses of surface discharges
Author :
Poda, Anil Babu ; Basappa, Prathap ; Rajulapati, Samba S.
Author_Institution :
Insulation Evaluation & Design Lab., Norfolk State Univ., Norfolk, VA, USA
Abstract :
Introduction of nanofillers has shown to improve the Breakdown Strength of unaged Polypropylene (PP) films. However, subjecting these samples to aging by surface discharges will eliminate this advantage [1]. PP samples with 0%, 2% and 6% organosilicate nanofillers are aged continuously with surface discharges. Partial Discharges (PD) time history records obtained are analyzed within the framework of Time Series Analyses. This work has resulted in development of an algorithm to forecast the future trends of statistical parameters obtained by PD measurement system. Electric field distribution affects PD behavior which is confirmed by microscopic and profilometric study of degradation volume.
Keywords :
electric field measurement; nanotechnology; partial discharge measurement; stochastic processes; surface discharges; time series; PD behavior; PD measurement system; breakdown strength improvement; degradation volume microscopic study; degradation volume profilometric study; electric field distribution; nanofilled polypropylene aging; organosilicate nanofillers; partial discharges time history records; stochastic analysis; surface discharges; time series analysis; unaged polypropylene films; Aging; Discharges (electric); Partial discharges; Stochastic processes; Surface discharges; Time series analysis;
Conference_Titel :
Pulsed Power Conference (PPC), 2013 19th IEEE
Conference_Location :
San Francisco, CA
DOI :
10.1109/PPC.2013.6627529
