Nick DeVries, CTO of Silicon Ranch Corporation, joins us to discuss how solar's "digitally native" foundation is enabling necessary scale through AI, robotics, and data-driven operations across 180+ projects. From innovative agrivoltaics research creating "solar savannas" to strategic domestic sourcing approaches, Nick shares how long-term thinking is shaping the future of utility-scale solar.
In this episode of The Raptor Report, we sit down with Nick DeVries, CTO of Silicon Ranch Corporation, one of the nation's largest independent solar power producers. With over 14 years at Silicon Ranch and a background spanning semiconductor manufacturing to solar power plant design, Nick brings a unique perspective on building assets designed for 40+ year lifespans.
Nick introduces the concept of solar being "digitally native"—unlike other forms of energy generation that were built before modern data tools existed, solar has always generated streams of actionable data. He explains how this advantage is enabling Silicon Ranch to manage operations across 180+ projects in 16 states through AI-powered analytics, from thermal imagery identifying equipment issues to comprehensive environmental monitoring. We dive deep into how artificial intelligence is helping operators process the overwhelming amount of visual and sensor data flowing from modern solar farms.
The conversation also explores Silicon Ranch's strategic approach to domestic sourcing, highlighting the operational advantages of shorter lead times, higher quality control, and faster issue resolution that come from building with U.S.-made equipment. Nick shares how their long-term ownership model—owning both the power plants and the land for decades—enables smarter material choices and stronger community relationships.
Finally, Nick unveils his innovative research on "solar savannas"—a novel ecosystem approach to agrivoltaics that combines solar panels, grasslands, and livestock to create mutually beneficial relationships between energy generation, land health, and biodiversity. This groundbreaking work demonstrates how solar development can enhance rather than compete with agricultural land use.