Finite Element Method Applied for Transformers Design

This course consists of 12 sequential 45-minute lectures that take participants from the electromagnetic fundamentals to practical 2D/3D FEM modelling of transformers. It covers building and verifying transformer FEM models, reproducing open-circuit and short-circuit tests to extract equivalent-circuit parameters, performing electrostatic field and capacitance studies, and estimating additional losses.

Course schedule:

19.02. 2026   Lesson 1 – The Role of Simulations in Transformer Design
19.03. 2026   Lesson 2 – Introduction to Numerical Methods for Transformers
16.04. 2026   Lesson 3 – Electromagnetic Fundamentals
14.05. 2026   Lesson 4 – FEM Basics and Workflow
11.06. 2026   Lesson 5 – 2D Transformer FEM Modeling
09.07. 2026  Lesson 6 – 2D Electrostatic FEM for Transformers
30.07. 2026  Lesson 7 – Electromagnetic Theory
03.09. 2026  Lesson 8 – Finite Element Method
01.10. 2026   Lesson 9 – Advanced 3D FEM Modeling for Transformers
29.10. 2026  Lesson 10 – AC and Stray Loss Modeling with FEM
26.11. 2026   Lesson 11 – Advanced Electrostatic and Dielectric Simulations
17.12. 2026   Lesson 12 – FEM-Based Design Optimization and Sensitivity Analysis

Check out the course brochure
Finite Element Method Applied for Transformers Design
All Levels

Basic level

EM FE Method Applied for Transformers Design – e-lesson#1 – The Role of Simulations in Transformer Design

Examines how simulations support design optimisation and engineering decision-making. This final lesson explores advanced applications of FEM for transformer design optimisation and sensitivity analysis. Participants learn how simulation models can evaluate design alternatives and identify optimal configurations. The lecture introduces parametric studies, tolerance analysis, and trade-off evaluation between competing design objectives such as efficiency, size, […]

Basic level

EM FE Method Applied for Transformers Design – e-lesson#2 – Introduction to Numerical Methods for Transformers

Examines how simulations support design optimisation and engineering decision-making. This final lesson explores advanced applications of FEM for transformer design optimisation and sensitivity analysis. Participants learn how simulation models can evaluate design alternatives and identify optimal configurations. The lecture introduces parametric studies, tolerance analysis, and trade-off evaluation between competing design objectives such as efficiency, size, […]

Intermediate level

EM FE Method Applied for Transformers Design – e-lesson#4 – FEM Basics and Modelling Workflow

Examines how simulations support design optimisation and engineering decision-making. This final lesson explores advanced applications of FEM for transformer design optimisation and sensitivity analysis. Participants learn how simulation models can evaluate design alternatives and identify optimal configurations. The lecture introduces parametric studies, tolerance analysis, and trade-off evaluation between competing design objectives such as efficiency, size, […]

Intermediate level

EM FE Method Applied for Transformers Design – e-lesson#5 – 2D Transformer FEM Modelling

Examines how simulations support design optimisation and engineering decision-making. This final lesson explores advanced applications of FEM for transformer design optimisation and sensitivity analysis. Participants learn how simulation models can evaluate design alternatives and identify optimal configurations. The lecture introduces parametric studies, tolerance analysis, and trade-off evaluation between competing design objectives such as efficiency, size, […]

Intermediate level

EM FE Method Applied for Transformers Design – e-lesson#6 – 2D Electrostatic FEM for Transformers

Examines how simulations support design optimisation and engineering decision-making. This final lesson explores advanced applications of FEM for transformer design optimisation and sensitivity analysis. Participants learn how simulation models can evaluate design alternatives and identify optimal configurations. The lecture introduces parametric studies, tolerance analysis, and trade-off evaluation between competing design objectives such as efficiency, size, […]

Master’s level

EM FE Method Applied for Transformers Design – e-lesson#7 – Electromagnetic Theory

Examines how simulations support design optimisation and engineering decision-making. This final lesson explores advanced applications of FEM for transformer design optimisation and sensitivity analysis. Participants learn how simulation models can evaluate design alternatives and identify optimal configurations. The lecture introduces parametric studies, tolerance analysis, and trade-off evaluation between competing design objectives such as efficiency, size, […]

Master’s level

EM FE Method Applied for Transformers Design – e-lesson#8 – Finite Element Method Formulation

Examines how simulations support design optimisation and engineering decision-making. This final lesson explores advanced applications of FEM for transformer design optimisation and sensitivity analysis. Participants learn how simulation models can evaluate design alternatives and identify optimal configurations. The lecture introduces parametric studies, tolerance analysis, and trade-off evaluation between competing design objectives such as efficiency, size, […]

Master’s level

EM FE Method Applied for Transformers Design – e-lesson#9 – Advanced 3D FEM Modelling for Transformers

Examines how simulations support design optimisation and engineering decision-making. This final lesson explores advanced applications of FEM for transformer design optimisation and sensitivity analysis. Participants learn how simulation models can evaluate design alternatives and identify optimal configurations. The lecture introduces parametric studies, tolerance analysis, and trade-off evaluation between competing design objectives such as efficiency, size, […]

Master’s level

EM FE Method Applied for Transformers Design – e-lesson#10 – AC and Stray Loss Modeling with FEM

Examines how simulations support design optimisation and engineering decision-making. This final lesson explores advanced applications of FEM for transformer design optimisation and sensitivity analysis. Participants learn how simulation models can evaluate design alternatives and identify optimal configurations. The lecture introduces parametric studies, tolerance analysis, and trade-off evaluation between competing design objectives such as efficiency, size, […]

Master’s level

EM FE Method Applied for Transformers Design – e-lesson#11 – Advanced Electrostatic and Dielectric Simulations

Examines how simulations support design optimisation and engineering decision-making. This final lesson explores advanced applications of FEM for transformer design optimisation and sensitivity analysis. Participants learn how simulation models can evaluate design alternatives and identify optimal configurations. The lecture introduces parametric studies, tolerance analysis, and trade-off evaluation between competing design objectives such as efficiency, size, […]

Master’s level

EM FE Method Applied for Transformers Design – e-lesson#12 – AC and Stray Loss Modelling with FEM

Examines how simulations support design optimisation and engineering decision-making. This final lesson explores advanced applications of FEM for transformer design optimisation and sensitivity analysis. Participants learn how simulation models can evaluate design alternatives and identify optimal configurations. The lecture introduces parametric studies, tolerance analysis, and trade-off evaluation between competing design objectives such as efficiency, size, […]

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Siemens Energy
SGB-SMIT
Coiltech
Haefely
EDF
Erhardt
MR
Cargill
ganz
Omicron
Končar group
Nynas
Micafluid
Essex

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