Novel Method for dielectric Integration of Integrated Tap-Changer based on 3D-FEM Simulation for compact transformer design

The transition to renewable energy is crucial for achieving the 1.5°C climate target, as outlined in IRENA's World Energy Transitions Outlook 2024. To stay on track, annual renewable power capacity additions must reach 1 terawatt (TW) by 2030. In 2024 alone, 582 gigawatts (GW) of new renewable energy generation capacity were installed [1]. This rising demand for clean energy is driving an increase in the number of power transformers and the need for more efficient solutions in energy transmission and distribution. Consequently, power transformers must deliver increased performance in condensed spaces, become more sustainable, and remain affordable.