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Many lightning protection standards are available for PV and wind systems. However, standards for hybrid systems remain unavailable. In this section, the CENELEC standard, which is available for PV systems with an integrated external LPS when separation distance is not maintained, is applied to the hybrid system.
Hybrid PV–wind systems are exposed to direct and indirect lightning discharge due to their installation location. Traveling waves resulting from lightning flashes cause a temporary overvoltage. Lightning induced overvoltage can damage equipment connected to hybrid systems.
Transient effects on a 4.1 MW hybrid PV–wind system due to direct lightning strikes are simulated and analyzed without LPS. An LPS system is designed based on the recommendations of the CENELEC standard to determine if they are appropriate in mitigating lightning-related effects on the hybrid system.
A proper protection measure based on SPDs should be applied to mitigate transient overvoltage under the withstand voltage of the system to be protected. Many lightning protection standards are available for PV and wind systems. However, standards for hybrid systems remain unavailable.
The electrical and electronic components in the hybrid PV–wind system are exposed to lightning currents with high amplitudes. A proper protection measure based on SPDs should be applied to mitigate transient overvoltage under the withstand voltage of the system to be protected.
Analyses were performed to determine appropriate ratings for the threat level and specifications of the equipment/components of the hybrid system that can suppress lightning transients to an acceptable voltage level. 1. Introduction
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