Reprint
High Voltage Insulating Materials-Current State and Prospects
Edited by
July 2021
232 pages
- ISBN978-3-0365-1638-7 (Hardback)
- ISBN978-3-0365-1637-0 (PDF)
This book is a reprint of the Special Issue High Voltage Insulating Materials-Current State and Prospects that was published in
Chemistry & Materials Science
Engineering
Environmental & Earth Sciences
Physical Sciences
Summary
Studies on new solutions in the field of high-voltage insulating materials are presented in this book. Most of these works concern liquid insulation, especially biodegradable ester fluids; however, in a few cases, gaseous and solid insulation are also considered. Both fundamental research as well as research related to industrial applications are described. In addition, experimental techniques aimed at possibly finding new ways of analysing the experimental data are proposed to test dielectrics.
Format
- Hardback
License
© 2022 by the authors; CC BY-NC-ND license
Keywords
optical radiation; electrical discharges; insulating liquids; energy distribution; transformer; oil–paper insulation; moisture; drying; synthetic ester; insulating liquids; mineral oil; natural ester; synthetic ester; dielectric liquid mixtures; retrofilling of power transformers; streaming electrification; ECT; insulation aging; insulation diagnostics; aramid paper; cellulose; dielectric materials; insulation system; mineral oil; moisture; natural ester; synthetic ester; thermal conductivity; transformers; partial discharge; mineral oil; harmonic distortion; non-uniform electric field; discrete Fourier transform; electric arc; gas insulation; arc welding; optical method; spectrophotometer; electromagnetic radiation; arc lamps; dielectric polarization; relaxation methods; activation energy; cellulose–aramid paper; moisture insulation; ageing effect; power transformer insulation testing; mineral oil; natural ester; synthetic ester; insulation liquid mixtures; power transformers; retrofilling; streaming electrification; ECT; rotating disc system; synthetic esters; power transformers; liquid insulation; DC high voltage; composite insulator; glass-reinforced epoxy core; 3-point bending test; mechanical strength; micro-hardness; naturel ester oil; nanofluids; zinc oxide; AC breakdown voltage; Weibull distribution; normal distribution; transformer winding; deformation; frequency response analysis (FRA); numerical index; window width; power transformer; mineral oil; natural ester; interpolation; mathematical modeling; n/a