CHILLERS

Evaporative pre‑cooling: High‑pressure nozzles (70–105 bar) atomize water into ultra-fine droplets (<10 µm) directly before air‑cooled condenser coils, which evaporate and cool inlet air by up to 12 °C or even 15 °C
Energy and performance gains: Typical efficiency boost of 14–15% per 6 °C drop; up to 30% overall energy savings
Maintain full chiller capacity even in high ambient temps (45–50 °C), safeguarding performance
Water-efficient design: Misting is active only during high ambient temperatures; uses ~80% less water than conventional cooling towers.
Modular hardware: High-pressure nylon tubing, nozzles, pumps.
Protective evaporative membranes to avoid wetting coils, dust ingress, and enhance evaporation
Intelligent control: PLC-based controls linked to temperature & humidity sensors.
Automatically activates mist based on ambient conditions and chiller load
Communication via RS‑485 Modbus to building management systems or optional cloud platforms

Substantial energy savings: Up to 30–40% less power consumption by lowering condensing temperature and compressor load.
Consistent performance: Effective chilling even in extremely hot and dry climates (40–50 °C ambient)
Reduced environmental impact: Lower energy use and water consumption; better suited for sustainability targets and LEED compliance
Extended equipment life: Cooler operating conditions reduce wear on compressors and fans
Compact & retrofit-friendly: Ideal for retrofitting existing chillers; smaller footprint than water-cooled towers
Hygiene & maintenance: On-demand wetting avoids legionella risk; filters and membranes protect coils; minimal water treatment.
Smart automation: PLC + sensor setup ensures reliable automatic operation, remote monitoring, and easy integration via Modbus.