As separate systems, generation and cooling each add complexity and cost to site operations. FreeSpin® combines both in one system, generating on-site electricity while producing a cold fluid stream that can support facility heat rejection and reduce cooling burden.
Cold fluid generated during expansion can be exchanged with facility coolant to reduce cooling energy demand.
Integrated power and cooling can increase total facility energy output by up to 2% in natural-gas-fired configurations.
Active magnetic bearings support continuous operation with lower maintenance requirements.
FreeSpin® converts pressure energy into electricity and low-temperature cooling in one system. That can reduce auxiliary cooling demand while adding on-site power, improving overall campus efficiency.
The integrated power and cooling model is especially compelling for smaller and mid-sized campuses, including edge deployments. Larger data centers can also integrate FreeSpin®, and will benefit from combustion-free power and cooling capacity.
FreeSpin® is designed as a modular, factory-built system that can be shipped and installed far faster than large conventional generation projects. For data center operators facing compressed timelines, that means new power and cooling capacity can be added in months rather than years.
Yes. FreeSpin® was designed for demanding gas infrastructure and uses active magnetic bearings to reduce wear, maintenance, and downtime.
