Mesh Method to calculate the optimal placement and height of lightning rods to create protected zones. Earthing & Grounding Analysis: Calculates the required length and configuration of earth electrodes (rods, rings, or mats) based on soil resistivity to safely dissipate current. Separation Distance: Determines the minimum distance required between lightning conductors and internal metal installations to prevent dangerous sparking (nodal analysis). DEHN International +8 Key Software Solutions Software Key Features Standards Supported DEHNsupport Toolbox Modules for risk (DEHN Risk), earthing, and air-termination; cloud-based DEHNrisk for latest editions. IEC 62305 (Ed. 1, 2, 3), EN. ETAP Lightning Risk Integrated with power system design; global flash density maps and 3D modeling. IEC 62305-2, NFPA 780. XGSLab / Bentley SHIELD Advanced 3D shielding evaluation and electromagnetic analysis for complex structures. IEEE, IEC, EN, NFPA. Ingesco Calculus Free web-based tool for generating PDF reports on lightning risk and system design. IEC 62305, UNE 21.186, NFC 17.102. CDRisk Designs for both Early Streamer Emission (ESE) and Franklin rods. NF-C 17.102, UNE 21186, IEC 62305. When to Use Software Manual calculations for risk assessment involve multiple variables—such as building dimensions, fire risk, panic levels, and surrounding environment coefficients ( C
To illustrate the necessity of calculation software, consider a wind turbine. lightning protection calculation software
Some of the key factors to consider when using these software tools or methods for calculating lightning protection for a deep post or earth electrode include: Mesh Method to calculate the optimal placement and
Additionally, machine learning is being applied to optimize air terminal placement—not just for compliance, but for minimum cost while maintaining safety, a multi-variable problem classical algorithms solve poorly. DEHN International +8 Key Software Solutions Software Key