An upgrade to a data centre cooling system in Kuala Lumpur is typically driven by two factors: increasing rack density (moving from 3kW to 10kW+ per rack) and the need to lower Power Usage Effectiveness (PUE) to combat rising energy costs. In the Malaysian climate, simply adding more air conditioning units is rarely the answer; the focus must be on airflow management and variable speed control.
EKG M&E Sdn Bhd specializes in "live" data centre retrofits, ensuring that cooling upgrades are performed without a single second of IT downtime.
As an HVAC and Clean Air Specialist, we prioritize upgrades that offer the fastest payback through energy savings:
Many older CRAC (Computer Room Air Conditioning) units use fixed-speed fans that run at 100% capacity regardless of the server load.
The Upgrade: We install VFDs on existing blower motors.
The Result: By slowing fans down during low-traffic periods (e.g., night-time backups), you can reduce fan energy consumption by up to 50%.
If your server room currently uses an "open" architecture, cold air is likely mixing with hot exhaust before it reaches the servers.
The Upgrade: Installing Cold Aisle Containment (CAC) or Hot Aisle Containment (HAC) using rigid panels or thermal curtains.
The Result: This allows you to raise the set-point temperature of your chillers. Every 1°C increase in supply air temperature can improve chiller efficiency by approximately 2–3%.
When upgrading to modern blade servers or AI clusters, traditional perimeter cooling often fails to reach the center of the rack.
In-Row Cooling Units: We install these directly between racks to neutralize heat at the source. This eliminates the "long throw" required by perimeter units and is ideal for rooms without a raised floor.
EC (Electronically Commutated) Fan Upgrades: We replace old belt-driven centrifugal fans with direct-drive EC fans. These are inherently variable-speed, quieter, and require significantly less maintenance.
For facilities using a central plant, the upgrade focus shifts to the "Liquid Side":
| Upgrade Component | Technology | Benefit |
| Pumps | Variable Primary Flow | VFDs on pumps match water flow to the actual cooling demand. |
| Cooling Towers | High-Efficiency Fill | Improves heat rejection in KL’s high-humidity environment. |
| BMS Integration | Real-time PUE Tracking | Automated logic that rotates "Duty/Standby" units based on runtime. |
| Sensors | Differential Pressure ($\Delta P$) | Ensures consistent water pressure at the furthest CRAH unit. |
The biggest challenge in a cooling upgrade is maintaining the Thermal Envelope while work is in progress.
Temporary Cooling: We deploy portable spot-coolers or temporary ducting to maintain temperatures while a primary CRAC unit is decommissioned for its VFD or fan upgrade.
Vibration Health Monitoring: Before and after the upgrade, we perform Vibration Analysis on all rotating equipment. This ensures that the new high-speed fans or pumps are perfectly balanced and won't cause structural resonance.
Computational Fluid Dynamics (CFD): Before the first bolt is turned, we can model the proposed changes to prove that the new airflow pattern will eliminate existing "Hot Spots."
34-Year Legacy in KL: We have successfully managed cooling migrations for some of Malaysia's largest financial institutions and telecommunications providers.
Turnkey MEP Execution: We manage the electrical sub-panels, the mechanical piping, and the fire suppression interlocks (Novec/FM200) required during a capacity upgrade.
Energy Commissioning: We don't just install equipment; we tune the entire system to ensure you hit your target PUE goals.
Malaysia
