Working principle:
Using computational fluid dynamics technology to accurately calculate the distribution of inlet air in the cooling tower (velocity field, temperature field, moisture content field, etc.) in three dimensions. Based on the distribution of inlet air, the water distribution system is redesigned to match the inlet air as much as possible throughout the tower. The cooling medium of the system enters the cooling tower and is sprayed down by the spray system, forming a water vapor state. Some of the hot air is directly carried out of the tower by the fan, while the rest of the hot water flows through the surface of the packing to form a water film and exchange heat with the air. The dry and cold air drawn in by the fan is fully in contact with the water flow through the specially designed air duct of the packing, quickly taking away the heat. During the process of the water flow bypassing the packing to the bottom collection tray, it undergoes several heat exchanges between new air and water, and the temperature returned to the collection tray is greatly reduced, meeting the cooling water temperature requirements.
Structural features:
Higher efficiency: High heat transfer efficiency, rapid cooling, and high utilization efficiency of circulating water.
Tower stability: The tower body, water tank, bracket, and air duct are all made of steel materials with high strength.
Easy maintenance: simple structure, easy to clean and repair, reducing equipment downtime.
Energy saving and environmental protection: environmentally friendly materials, no pollution to the environment, and lower purchase cost.
Low failure rate: Each component adopts domestic or international first-line brand configuration, which is durable and long-lasting.
total 0 Sheet,Only 5 images can be uploaded, each less than 5m.