FTC Solar, Inc. announced the launch of its Automated Hail Stow Solution, aimed at minimizing solar panel damage caused by hail storms. The solution integrates advanced technology with meteorological data to automatically adjust the positioning of solar panels, reducing the risk of hail-related damage. Hill storms pose a significant threat to solar panel installations, with insurance claims in the US averaging about $58.4 million per incident. In response to this challenge, FTC Solar has developed an automated Hail stow solution that leverages its expertise in solar tracker technology and strategic partnerships with industry experts.

FTC Solar collaborated with VDE Americas, a renowned third-party industry expert, to study hail events and their impact on solar panel installations. The research led to the development of a hail stow strategy that positions solar modules at the maximum angle allowed by the tracker, away from prevailing winds, to minimize direct hail and associated wind impacts. Key features of FTC's Automated Hail Stow Solution include: Integration with FTC's proprietary operations management platform, SUNOPS, for enhanced control and monitoring of PV plants.

Utilization of meteorological data combined with hail stow strategy to ensure automated and timely mitigation against hail events. Multi-radar approach for real-time, highly accurate meteorological data updates. Flexibility for users to choose between auto-stow or manual stow options.

Notification feature to warn users of impending hail events. Customizable stow thresholds based on risk appetite and site location, including factors such as hail size, durability, and radius. Compatibility with leading meteorological data providers, ensuring seamless integration and data security through encryption.

The Automated Hail Stow Solution reflects FTC Solar's commitment to innovation and sustainability in the renewable energy sector. With a focus on enhancing operational efficiency and minimizing risk, FTC continues to drive progress towards a more resilient and sustainable future.