ZICE series evaporative condenser is a kind of high efficient heat exchange equipment renovated and developed on the basis of acquiring the most advanced heat-exchange technology worldwide.
The evaporative condenser uses water and air as cooling medium which transform refrigerant gases from gaseous to liquid state. The vapor to be condensed is circulated through a condensing coil, which is continually wetted on the outside by a re-circulating water system. Air is simultaneously blown upward over the coil, causing a small portion of the re-circulated water to evaporate. This evaporation removes heat from the coil, cooling and condensing the vapor in the coil.
These machines are particularly suitable in industrial refrigeration and cold chain processes, ensuring reliability, high efficiency and low operating costs. ZICE evaporative condensers have following benefits:
Convenient Design for Maintenance:
Oversized access door provides easy access to the unit interior for daily inspection and maintenance.
Inspection and Maintenance with No Downtime:
The ball cock and dross filter can be inspected and repaired without stopping the operation of the equipment. Due to the air and water flow in a parallel path, it is also capable to inspect and repair the nozzles and coils during the running process.
Highest System Performance with Lowest Operation Cost:
Combined flow technology increases efficiency: lower system condensing temperatures thereby reducing compressor horsepower, saving up to 15% energy compared to traditional air-cooled systems.
Extreme Efficient Choice for Large Applications:
The lowest total cost of ownership, the lowest installation costs, and the best layout to maximize space by combining the traditional condenser, cooling tower, circulation water pump, basin and connected pipes together.
ZICE evaporative condenser delivers efficient performance in an easy to maintain unit due the patent technology reduce the refrigerant charge, connections and weight of equipment, avoid scale risk but meanwhile the accessibility of maintenance, flexibility and serviceability of installation been increased and that’s why it’s called the maximum capacity model.