Model refinements of transformers via a subproblem finite element method

Abstract: -A progressive modeling of transformers is performed via a subproblem finite element method. A complete problem is split into subproblems with different adapted overlapping meshes. Model refinements are performed from ideal to real flux tubes, 1-D to 2-D to 3-D models, linear to nonlinear materials, perfect to real materials, single wire to volume conductor windings, and homogenized to fine models of cores and coils, with any coupling of these changes. The proposed unified procedure efficiently feeds each subp… Show more

“…Using ANSYS software, it is possible to analyze a wide variety of problems in the electromagnetic field domain, e.g. inductance, capacitance, flux density, eddy current, electric field distribution, magnetic lines of flux, force, motion effects, electrical circuits, and energy losses, and to efficiently analyze the sightseeing problems of the various equipment including generators, transformers and motors [22][23][24][25].…”

Research on the Method of Calculating Short-circuit Voltage for High-voltage Rectifier Transformer for Electrostatic Precipitation by Using the ANSYS Maxwell

“…Using ANSYS software, it is possible to analyze a wide variety of problems in the electromagnetic field domain, e.g. inductance, capacitance, flux density, eddy current, electric field distribution, magnetic lines of flux, force, motion effects, electrical circuits, and energy losses, and to efficiently analyze the sightseeing problems of the various equipment including generators, transformers and motors [22][23][24][25].…”

Research on the Method of Calculating Short-circuit Voltage for High-voltage Rectifier Transformer for Electrostatic Precipitation by Using the ANSYS Maxwell

Contribution to power transformers leakage reactance calculation using analytical approach