In the tropical climate of Kuala Lumpur and Selangor, where ambient wet-bulb temperatures are high and humidity is often near saturation, a cooling tower’s ability to reject heat is the bottleneck for your entire HVAC system. A Heat Rejection Capacity Audit is a formal M&E diagnostic to determine if your tower is meeting its design specifications or if it is "under-performing," causing your Chiller to consume excessive energy.
EKG M&E Sdn Bhd utilizes psychrometric data and high-precision flow instrumentation to quantify the "Approach" and "Range" of your heat rejection loop.
As an HVAC and Clean Air Specialist, we don't just look at water temperature. We measure the thermodynamic efficiency of the evaporation process.
The most critical metric in a Malaysian warehouse or office tower is the Approach. This is the difference between the cold water temperature leaving the tower and the ambient wet-bulb temperature.
The Benchmark: A well-maintained tower in KL should have an approach of 3°C to 5°C. If your approach is 7 degree celcius or higher, your infill is likely scaled or your airflow is restricted.
We measure the difference between the hot water entering the tower and the cold water leaving.
The Logic: If the "Range" is too small, it indicates the water is moving too fast through the tower (pump over-speed) or the Infill is bypassed, preventing the water from breaking into thin films for evaporation.
We calculate the ratio of water flow (L) to airflow (G).
The Fix: If your fan blades have slipped in pitch or the motor is under-performing, the "Gas" (Air) side of the equation drops, causing heat to build up in the loop.
During the audit, we inspect the mechanical assets that directly impact these thermal calculations:
Airflow Obstructions: We use Vane Anemometers to check for "Recirculation"—where hot, moist exhaust air is sucked back into the intake. This artificially raises the local wet-bulb temperature and destroys cooling capacity.
Nozzle Distribution Patterns: We utilize Non-Toxic Tracers to ensure the spray nozzles provide 100% coverage. "Dry Spots" on the infill are wasted surface area that could be rejecting heat.
VFD Optimization: We audit your Variable Frequency Drive (VFD) settings. Often, VFDs are set to a fixed low speed to save energy, but this may be causing the Chiller to run at an inefficient "High Head Pressure," resulting in a net increase in your TNB bill.
| Metric | Design Specification | Audit Result (Typical Failing Tower) | Impact on System |
| Approach | 3 to 4 degree celcius | 8 to 10 degree celcius | Chiller trips on High Pressure. |
| Airflow (CMH) | 100% Rated | 75% (Belt Slip/Scale) | Reduced Evaporation Rate. |
| Water Flow (LPM) | Balanced | Imbalanced (Nozzle Clogs) | Uneven Heat Exchange. |
| Energy (kW/ton) | 0.60 - 0.70 | 0.90+ | Massive TNB Over-expenditure. |
Calibrated Instrumentation: We use ultrasonic flow meters and high-accuracy immersion thermistors to get data without breaking into your pipework.
Root Cause Rectification: We don't just give you a report; we provide an M&E roadmap—whether it’s a Gearbox Overhaul, Infill Replacement, or Fan Pitch Adjustment.
Strategic Support: Based in Kuala Lumpur, we provide turnkey audits, structural repairs, and scheduled maintenance for the region's largest chiller plants.
Malaysia
