As industrial energy systems evolve towards greener, more efficient, and circular models, cooling towers—traditionally considered major energy consumers—are facing a transformative opportunity.
In industrial circulating water systems, cooling towers bear the crucial responsibility of cooling equipment. However, their core efficiency doesn't come from the massive tower structure or powerful fans, but rather from the layered packing material hidde
In industrial cooling systems, cooling towers are constantly exposed to harsh environments with high humidity, high temperature, and salt or chemical substances. Their structural stability directly affects the safe operation of the entire system.
In power, chemical, metallurgical, data center, and large HVAC systems, cooling towers are key heat exchange equipment, and their operating efficiency directly affects the energy consumption and stability of the entire system.
In industrial manufacturing, data centers, commercial buildings, and district cooling systems, cooling towers, as critical heat exchange equipment, play a vital role in discharging waste heat into the atmosphere.
In high-humidity or high-salt-spray environments, cooling towers, as heat exchange equipment exposed to harsh climates for extended periods, face severe corrosion challenges.