Title :
Radiated Fields From Lightning Strikes to Tall Structures: Effect of Upward-Connecting Leader and Reflections at the Return Stroke Wavefront
Author :
Mosaddeghi, Abbas ; Rachidi, Farhad ; Rubinstein, Marcos ; Napolitano, Fabio ; Pavanello, Davide ; Shostak, Volodymyr O. ; Janischewskyj, Wasyl ; Nyffeler, Markus
Author_Institution :
Swiss Fed. Inst. of Technol. (EPFL), Lausanne, Switzerland
fDate :
5/1/2011 12:00:00 AM
Abstract :
An extension of the engineering return-stroke models for lightning strikes to tall structures that takes into account the presence of possible reflections at the return-stroke wavefront and the presence of an upward-connecting leader is presented. Based on the approach proposed by Shostak et al., closed-form, iterative solutions for the current distribution along the channel, and the strike object are derived. Simulation results for the magnetic fields are compared with experimental waveforms associated with lightning strikes to the CN Tower (553 m). It is shown that taking into account the reflections at the return-stroke wavefront results in better agreement with the fine structure of the magnetic-field waveforms. Moreover, the obtained results are in better agreement with experimental observations, reproducing both the early narrow undershoot and the far-field zero crossing. The results also suggest that the typical double-peak response of the radiated fields from tall structures might be due to the combined effect of upward-connecting leaders and reflections at the return-stroke wavefront.
Keywords :
electromagnetic fields; iterative methods; lightning; lightning protection; current distribution; double-peak response; engineering return-stroke models; far-field zero crossing; iterative solutions; lightning strikes; magnetic fields; radiated fields; return stroke wavefront; strike object; upward-connecting leader; Current measurement; Lead; Lightning; Magnetic sensors; Poles and towers; Transmission line measurements; Electromagnetic fields; lightning; return stroke; tall structures; upward-connecting leader;
Journal_Title :
Electromagnetic Compatibility, IEEE Transactions on
DOI :
10.1109/TEMC.2010.2076815