Frequently Asked Questions
Due to heat rejection to tower water at or near wet-bulb temperatures, water-cooled chillers are usually more energy-efficient than air-cooled chillers. Since air-cooled chillers must reject heat at higher dry-bulb temperatures, their average reverse-Carnot cycle efficiency is lower.
Cooling towers are now available in a variety of styles and sizes after many years of production. Each of these is applicable in a specific load configuration, which is why it's necessary to go through the various options. It's worth noting that, despite the various designs, the basic purpose of evaporation is to dissipate heat from a building system or process to the air. Here are some of them, Atmospheric cooling tower, Hybrid draft cooling tower, Mechanical draft cooling tower, Construction-characterised cooling tower, Air flow-characterized cooling tower, Shape characterized cooling tower and there are many others too.
Cooling the flowing water used in oil refineries, petrochemical, and other chemical plants, thermal power plants, nuclear power plants, and HVAC systems for cooling buildings are all popular applications. The key types of cooling towers are natural draught and induced draught cooling towers, which are classified based on the form of air induction into the tower.