Reprint
Problems during the Design and Testing of Instrument, Special and Power Transformers
Edited by
February 2024
198 pages
- ISBN978-3-7258-0252-4 (Hardback)
- ISBN978-3-7258-0251-7 (PDF)
This is a Reprint of the Special Issue Problems during the Design and Testing of Instrument, Special and Power Transformers that was published in
Chemistry & Materials Science
Engineering
Environmental & Earth Sciences
Physical Sciences
Summary
This Special Issue, titled ”Problems during the Design and Testing of Instrument, Special and Power Transformers”, presents and disseminates the latest developments in the theory, design, modeling, and laboratory testing of all types of transformers. The scope includes design calculations and diagnostics of various types and structures of 1- and 3-phase power transformers, special transformers, and measurement transformers with various applications. Design requirements concern exploitation and optimal design methodologies, advanced device modeling methods, and technical research methods.
Format
- Hardback
License and Copyright
© 2022 by the authors; CC BY-NC-ND license
Keywords
transformation accuracy; current transformer; voltage transformer; distorted current; distorted voltage; higher harmonics; current error; voltage error; phase displacement; self-generation; instrument transformer; resonance; power transformer; finite elements; electromagnetic forces; structural vibration; fluid vibration; secondary current excitation; transformation accuracy; distorted current; harmonics; current transformer; phase displacement; current error; electromagnetic forces; cleats and leads; power transformer; numerical simulation; power transformer; finite element analysis; SVC; core losses; capacitive load; stiff nonlinear ordinary differential equations; Runge–Kutta implicit methods; circuit model of a three-phase transformer; transient state; inrush currents of the unloaded transformer; the time instant specified in the waveform of the switched supply voltage; pre-magnetization; DC electronic current transformer; group delay; field test; medium frequency transformer (SST); wound core; design methods; FEM; Litz winding; aluminum foils winding; inductors; transformers; coupled inductors; power losses; compact models; windings; ferromagnetic cores; shell-type core transformer; high leakage reactance; magnetic shunt with beveled edges; 3D magnetic field; finite element method; short-circuit current regulation; verification by measurements; physical model testing; beam instrumentation; beam intensity measurements; current transformers; n/a