1. The condenser coils use extra-long, specially supplied steel pipes, rigorously tested in water at 2.5MPa pressure, and the entire unit undergoes hot-dip galvanizing at nearly 430℃.
2. The housing is made of imported or domestic high-quality galvanized steel sheets, with optional electrostatic powder coating. The water collection tank can be made of stainless steel.
3. The fan uses a dedicated high-efficiency, low-noise axial flow fan with a long jet range to prevent hot air backflow.
4. The water pump is low-power, high-flow, and low-head, designed for outdoor use, and a descaling device can be installed upon customer request.
5. The water distribution system, high-efficiency water collector, and cooling packing utilize high-flow, anti-clogging nozzles, precisely calculated for continuous and uniform coverage, eliminating "dry spots" in the water film on the pipe walls. Made of high-quality PVC material, it is anti-aging, and features a low-wind-resistance grooved water suction device, keeping the water drift rate below 0.001%. The cooling packing has a honeycomb cross-flow structure, suitable for circulating water cooling.
6. Small-flow cooling circulating water evaporates in the condenser coil, and gaseous ammonia condenses into liquid within the condenser coil, hence the name evaporative condenser. The high-intensity evaporation makes evaporative condensers more prone to scale buildup than other types of condensers, and there is currently no ideal descaling method. Severely scaled evaporative condensers lose their energy-saving advantages. Only high-quality cooling water is suitable; careful selection is crucial!
