Lightning-Induced Voltages on Overhead Power Lines with the Use of the Hybrid Method: Influence of the Shielding Wire

[1]  M. Uman,et al.  Magnetic field of lightning return stroke , 1969 .

[2]  Martin A. Uman,et al.  Transient electric and magnetic fields associated with establishing a finite electrostatic dipole , 1983 .

[3]  M. Ianoz,et al.  On lightning return stroke models for LEMP calculations , 1988 .

[4]  Farhad Rachidi,et al.  Experimental validation of a modification to the Transmission Line model for LEMP calculation , 1989 .

[5]  M. Uman,et al.  Lightning return stroke current models with specified channel‐base current: A review and comparison , 1990 .

[6]  Gerhard Diendorfer,et al.  An improved return stroke model with specified channel-base current , 1990 .

[7]  Gerhard Diendorfer,et al.  Extension of the Diendorfer-Uman lightning return stroke model to the case of a variable upward return stroke speed and a variable downward discharge current speed , 1991 .

[8]  C. Nucci,et al.  Lightning-induced voltages on overhead power lines. Part I: return stroke current models with specified channel-base current for the evaluation of the return stroke electromagnetic fields , 1995 .

[9]  M. Ianoz,et al.  Response of multiconductor power lines to nearby lightning return stroke electromagnetic fields , 1996 .

[10]  Vladimir A. Rakov,et al.  Review and evaluation of lightning return stroke models including some aspects of their application , 1998 .

[11]  C. Yang,et al.  Calculation methods of electromagnetic fields very close to lightning , 2004, IEEE Transactions on Electromagnetic Compatibility.

[12]  Ahmed Boubakeur,et al.  Validation of the Simpson-finite-difference time domain method for evaluating the electromagnetic field in the vicinity of the lightning channel initiated at ground level , 2009 .