Monte Carlo based efficiency assessment of lightning protection system
Abstract
This paper presents an algorithm for the efficiency assessment of LPS (Lightning Protection System) of buildings and high voltage switchyards. Lightning strikes are simulated by means of the Monte Carlo method, with the application of electrogeometric model. The peak value of the lightning current, in each case, is also stochastically chosen from the logarithmic normal distribution. In the stochastic model, LPS and structure or switchyard can be approximated by a number of straight segments, triangles and plane quadrangles. Origin of the lightning strikes is located on the imaginary plane above the structure. Each lightning strike starts its descend on this plane and follows a stochastic path toward the protected structure or earth surface. Minimal distance from the lightning stroke stepped leader head to elements of LPS, structure and earth surface is computed after the each jump. If this distance is smaller then the striking distance, lightning will strike its nearest point belonging to the LPS, structure or the earth surface. Efficiency of the LPS is seen as quotient between the total number of lightning strikes ending up on LPS itself and the total number of lightning strikes. Lightning strikes hitting the earth surface are not counted.
Slavko Vujević
Professor Emeritus
An expert in electrical engineering, particularly known for his contributions to numerical modeling of electromagnetic phenomena, lightning protection, and grounding. Throughout his career, he was a key member of the Faculty of Electrical Engineering, Mechanical Engineering, and Naval Architecture in Split, where he taught, mentored students, and actively participated in scientific research and international professional organizations.
