Johnson Controls has released the YORK YVAM air-cooled magnetic bearing centrifugal chiller which uses R-1234ze for hyperscale and colocation data centre cooling.
The YORK YVAM chiller is one of the most efficient options for data centre applications, because its magnetic-bearing technology allows the system to operate very efficiently at low lift conditions.
This means the chiller doesn’t need free cooling coils to deliver performance comparable to air-cooled chillers with integral water-side economizers.
Compared to traditional air-cooled screw chillers, the YVAM can improve efficiency by 49 per cent in non-standard part load value (NPLV) in typical data centre conditions.
“The pioneering design of the YORK
YVAM chiller was specified for the unique needs of mission critical applications, featuring industry-leading efficiency, simplified design and low harmonics,” according to Chris Paraskevakos, vice president of product management, chillers and applied equipment, Johnson Controls.
“Johnson Controls and the YORK brand have a long history of serving the mission critical industry since 1998, and as such, owners and operators can have confidence in our equipment improving their operations, reducing the total cost of ownership and accelerating payback.”
The YORK YVAM chiller uses a variable-speed drive with active front-end to lower energy consumption and total harmonic distortion. This means the magnetic driveline is significantly quieter than traditional air-cooled chiller drivelines that use screw compressors. Full-load sound is only 65 dBA at a distance of 10 meters.
The machine’s lubrication-free design also eliminates the complexity of subsystems and reduces the costs of routine maintenance and system checks.
Data centres and other mission critical facilities require non-stop cooling. A power failure could jeopardize operations and lead to costly downtime and performance penalties.
To maximize uptime, the YORK YVAM features Quick Start technology with integral uninterruptible power supply (UPS) backup, allowing the chiller to return to full load in as little as three minutes after power is restored.