Our Cryogenic Energy Storage system combines two integrated technologies to fundamentally reduce power cost, waste heat, and backup power requirements in high-demand facilities. First, our Metallurgical Optimization Thermal Cycling (MTC) System applied to electrical conductors (bus bars, contacts, and connectors) lowers electrical resistance by refining grain microstructure, improving conductivity for the life of the installation. Second, off-peak energy is used to compress and liquefy air for later expansion through turbines, delivering stable peak-shaving power while simultaneously capturing and recycling thermal inefficiencies.
The result is a system that draws less power, wastes less heat, requires less cooling, consumes less water, and dramatically reduces dependence on lithium-ion battery backup, along with all the cost, fire risk, and environmental burden that dependency carries. For data centers, AI compute facilities, and semiconductor fabrication plants, our system reduces lithium-ion backup battery requirements by 80–85%.
- Reduces lithium-ion backup battery requirements by 80–85%
- Lowers electrical resistance through metallurgical treatment of conductors - permanent improvement
- Off-peak energy storage via liquid air - stable peak-shaving power on demand
- Reduces cooling load, water consumption, and waste heat simultaneously
- Eliminates single-point battery failure risk and associated fire hazard
- Reduces battery CAPEX, replacement costs, and environmental burden of lithium mining and recycling
- Applications: data centers, AI compute facilities, semiconductor fabs, industrial power systems
