Continued proliferation of CO₂ refrigeration systems around the globe has given equipment manufacturers opportunities to improve compression, controls and valve technologies — simplifying system management and bringing system costs into parity with traditional hydrofluorocarbon (HFC) systems.

Compared to systems based on legacy hydrofluorocarbon (HFC) refrigerants, CO₂ transcritical booster (TCB) systems have unique characteristics, high-pressure management strategies and design considerations.

Most technicians have little to no experience working with CO₂ and have many questions about refrigerant characteristics, system architectures and management. Alleviating these concerns starts with a basic understanding of the fundamentals of CO₂ refrigeration.

Recent technological advancements are helping to drive CO₂ TCB system adoption by configuring design optimization strategies that maximize efficiencies in various climate and/or installation conditions.

As CO₂ adoption is increasing rapidly, our efforts are focused on delivering continuous performance improvements that support the expanded use of CO₂ in TCB systems and other emerging applications.

CO₂ transcritical booster systems are among the leading sustainable architectures being trialed and evaluated by supermarket owners/operators.