IEEE Guide for Improving the Lightning Performance of Electric Power Overhead Distribution Lines

TL;DR: In this paper , the authors studied some of the key aspects that should be considered for practical shielding of overhead medium voltage (MV) power lines, such as ground flash density, line structure footing impedance, number of shield wires, performance when compared to unshielded lines and capital cost.

TL;DR: In this article , the authors presented the results of computer simulations of the induced voltages in the power line supplying the MV/LV transformer for different distances of the lightning channel from the line and variable lightning current parameters, taking into account the finite ground conductivity.

TL;DR: In this article, the effects of indirect lightning on oil refinery construction site workers were investigated, and the effects on work footwear, commonly used by workers in these refineries, and some simulations for a specific site for the evaluation of step and touch voltages.

TL;DR: In this article , the authors proposed a method for estimating the probability of flashover based on the current peak to distance ratio within the limits of the lightning location systems accuracy, and compared the results predicted by Rusck's formula and Darveniza's formula, with those provided by the more detailed model implemented in the LIOV code.

TL;DR: In this paper, the time-domain transmission-line equations for uniform multiconductor transmission lines in a conductive, homogeneous medium excited by a transient, nonuniform electromagnetic (EM) field are derived from Maxwell's equations.

TL;DR: For the case of a finite linear antenna along which a fixed current waveform propagates, the authors presented analytical time−domain solutions for the electric and magnetic radiation (far) fields.

TL;DR: In this article, a comprehensive study on the effect of a lossy ground on the induced voltages on overhead power lines by a nearby lightning strike is presented, where the ground conductivity plays a role in both the evaluation of the lightning radiated fields and of the line parameters.