INNIO Secures Largest Order In Company History With VoltaGrid Delivering Power Generation For One Of The World's Largest Data Centers

• INNIO to supply 2.3 gigawatts (GW) of power infrastructure, comprising 92 power packs of 25 megawatts (MW) each.
• Partnership with VoltaGrid drives the expansion of AI data centers through fast, flexible, and sustainable energy solutions.
• Collaboration enables VoltaGrid to seamlessly combine its power pack units with its large-scale portable data center power made up of INNIO’s units.

INNIO Group today announced the largest order by power delivery in its history: a groundbreaking 2.3 GW power infrastructure project featuring 92 power packs, each delivering 25 MW of output. The initiative with VoltaGrid strengthens INNIO’s position as a key energy solutions provider for the rapidly expanding U.S. data center sector.

“This landmark order underscores the strength of INNIO’s technology and our ability to power the AI revolution with smart, high-performance energy solutions,” said Dr. Olaf Berlien, President and CEO of INNIO Group. “We are proud to partner with VoltaGrid in shaping the energy infrastructure of tomorrow.”

“This is a major step toward building the energy infrastructure for the AI era,” added Nathan Ough, CEO of VoltaGrid. “Together with INNIO, we’re delivering a scalable solution that combines grid-grade performance with ultra-fast response, zero battery reliance, and near-zero criteria air emissions. Our partnership provides the speed, reliability, and sustainability required to power next-generation data centers.”

Developed in collaboration with VoltaGrid, INNIO’s advanced energy solution is engineered to accelerate data center deployment and maximize GPU performance for AI-driven operations. Powered by INNIO’s Jenbacher technology, the system provides prime, backup, and peak power within a single integrated platform—offering exceptional operational flexibility.

The solution maintains full power and efficiency even at ambient temperatures up to 122°F (50°C) and delivers superior transient performance, capable of handling highly volatile load fluctuations. We estimate that, compared to alternative technologies, it is up to 10 percentage points more efficient, enabling fuel savings of over USD 300 million annually across the 2.3 GW installed capacity.