An original three-dimensional electromagnetic analysis code is used to analyse eddy currents inside thin conducting layers at low frequencies. This approach is based on an integral formulation, which requires only the active parts of the model to be discretized so that computing requirements are greatly reduced compared to commercial code s based on FEM. The developed method is successfully applied to analyse the performance of a real case ELF conducting shields in MV/LV substations. Analyses performed via this integral method show that the developed procedure can be used efficiently for industrial design purposes
A boundary-element method using a magnetic vector potential for eddy-current analysis is described. ...
This monograph addresses fundamental aspects of mathematical modeling and numerical solution methods...
A novel approach for analyzing conducting shields of ELF magnetic fields in linear media is presente...
An original three-dimensional electromagnetic analysis code is used to analyse eddy currents inside ...
A three-dimensional boundary integral method (3D BIM) capable of analyzing the magnetic field at ext...
A 3-D boundary integral method (3-D BIM) capable of analyzing eddy currents in thin shields is prese...
A three-dimensional integral procedure based on the Cell Method and suitable for computing ELF eddy ...
A novel approach for analyzing conducting shields of extremely low frequency magnetic fields in line...
A novel three-dimensional integral method is used in order to assess the effectiveness of thin condu...
International audiencePurpose-Thin conducting sheets are used in many electric and electronic device...
Abstract—This study concerns boundary element methods applied to electromagnetic testing, for a wide...
Mitigation of ELF (Extremely Low Frequency) magnetic fields is often performed by means of highly co...
An equivalent circuit approach was presented in this paper to evaluate low-frequency magnetic fields...
In this paper, we present numerical models and experimental benchmarks for eddy current testing (ECT...
We introduce a novel technique to solve eddy current problems in non-manifold thin conductors by a b...
A boundary-element method using a magnetic vector potential for eddy-current analysis is described. ...
This monograph addresses fundamental aspects of mathematical modeling and numerical solution methods...
A novel approach for analyzing conducting shields of ELF magnetic fields in linear media is presente...
An original three-dimensional electromagnetic analysis code is used to analyse eddy currents inside ...
A three-dimensional boundary integral method (3D BIM) capable of analyzing the magnetic field at ext...
A 3-D boundary integral method (3-D BIM) capable of analyzing eddy currents in thin shields is prese...
A three-dimensional integral procedure based on the Cell Method and suitable for computing ELF eddy ...
A novel approach for analyzing conducting shields of extremely low frequency magnetic fields in line...
A novel three-dimensional integral method is used in order to assess the effectiveness of thin condu...
International audiencePurpose-Thin conducting sheets are used in many electric and electronic device...
Abstract—This study concerns boundary element methods applied to electromagnetic testing, for a wide...
Mitigation of ELF (Extremely Low Frequency) magnetic fields is often performed by means of highly co...
An equivalent circuit approach was presented in this paper to evaluate low-frequency magnetic fields...
In this paper, we present numerical models and experimental benchmarks for eddy current testing (ECT...
We introduce a novel technique to solve eddy current problems in non-manifold thin conductors by a b...
A boundary-element method using a magnetic vector potential for eddy-current analysis is described. ...
This monograph addresses fundamental aspects of mathematical modeling and numerical solution methods...
A novel approach for analyzing conducting shields of ELF magnetic fields in linear media is presente...