Add to ORKGA novel three-dimensional integral method is used in order to assess the effectiveness of thin conducting screens for reducing stray magnetic fields. Integral formulations are particularly suited for shielding problems, as computing costs are reduced compared to commercial codes, relying mainly on the Finite Element Method. A conducting screen for a MV/LV substation is designed by means of the developed code. Measured and computed values of the rms magnetic flux density in proximity of the substation are compared in order to test the accuracy and the reliability of the numerical analysis
We discuss an approach to magnetic shielding of components mounted on a printed board, typically tra...
In this paper a detailed description of different passive shields for Extremely Low Frequency (ELF) ...
This work is aimed at developing electromagnetic modeling techniques to enable researchers to predi...
A novel three-dimensional integral method is used in order to assess the effectiveness of thin condu...
Mitigation of ELF (Extremely Low Frequency) magnetic fields is often performed by means of highly co...
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...
An original three-dimensional electromagnetic analysis code is used to analyse eddy currents inside ...
A three-dimensional integral procedure based on the cell method and suitable for simulating non-magn...
A recent analytical formulation for the low-frequency magnetic shielding effectiveness of a thin met...
The design of a magnetic shielding arrangement for an indoor substation is considered. The aim of th...
The paper describes an efficient subcell model for the simulation of thermoformed lightweight shield...
The paper deals with numerical modeling of a three-phase harmonic-current carrying shielded line. In...
An algorithm to simulate the very low frequency magnetotelluric and dipole-dipole responses of three...
When large structures such as residentialcompounds or public buildings are under the influence ofext...
We discuss an approach to magnetic shielding of components mounted on a printed board, typically tra...
In this paper a detailed description of different passive shields for Extremely Low Frequency (ELF) ...
This work is aimed at developing electromagnetic modeling techniques to enable researchers to predi...
A novel three-dimensional integral method is used in order to assess the effectiveness of thin condu...
Mitigation of ELF (Extremely Low Frequency) magnetic fields is often performed by means of highly co...
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...
An original three-dimensional electromagnetic analysis code is used to analyse eddy currents inside ...
A three-dimensional integral procedure based on the cell method and suitable for simulating non-magn...
A recent analytical formulation for the low-frequency magnetic shielding effectiveness of a thin met...
The design of a magnetic shielding arrangement for an indoor substation is considered. The aim of th...
The paper describes an efficient subcell model for the simulation of thermoformed lightweight shield...
The paper deals with numerical modeling of a three-phase harmonic-current carrying shielded line. In...
An algorithm to simulate the very low frequency magnetotelluric and dipole-dipole responses of three...
When large structures such as residentialcompounds or public buildings are under the influence ofext...
We discuss an approach to magnetic shielding of components mounted on a printed board, typically tra...
In this paper a detailed description of different passive shields for Extremely Low Frequency (ELF) ...
This work is aimed at developing electromagnetic modeling techniques to enable researchers to predi...