Rear Chiller Door
A rack-level liquid cooling solution engineered for high-density servers. It simplifies deployment, reduces energy consumption, and ensures data center stability and efficiency under AI/HPC workloads.
Key Highlights
The Ablecom Rear Chiller Door replaces traditional high-power cooling methods, focusing on energy efficiency, thermal capacity, and maintainability.
Energy Saving
Up to 30% power reduction*, lowering cooling infrastructure energy use.
Thermal Capacity
Supports up to 65 kW per rack*, ideal for AI and HPC high-density deployments.
Target PUE
Enables PUE close to 1.06*, maximizing overall energy efficiency.
Modular Design
Installs on existing racks with no internal liquid loop required inside servers, simplifying deployment and maintenance.
*Values are for reference only. Please refer to the official datasheet and project-level validation for final specifications.
Benefits
Efficient Thermal Management
Rack-level heat exchange minimizes hotspots and reduces dependence on traditional CRAC/chiller systems.
Flexible Scalability
Modular, per-rack upgrade path well-suited for AI clusters, HPC environments, cloud infrastructure, and 5G applications.
Reduced OPEX
Lower cooling-related power consumption and maintenance costs, while improving rack density and white-space utilization flexibility.
Core Specifications
- Mounting Type: Rear-mounted chiller door; compatible with standard 42U/48U/52U racks
- Cooling Medium: Liquid loop connected to facility CDU or chilled water system
- Max Heat Load: 75 kW (to be updated per official specification)
- Fans: Integrated variable-speed, redundant fans
- Monitoring & Control: Temperature, flow, and pressure sensors with BMS/DCIM integration
- Maintenance: Front/rear detachable access for easy cleaning and service
Applications
Request a Full Technical Guide or Consultation
Contact Ablecom to obtain the official datasheet, configuration options, and integration guidelines for your facility. Proof-of-Concept testing and energy efficiency assessments are available upon request.