1. Cooling with large temperature difference
Compared with conventional closed cooling towers, the precooling system of the finned coil of the dry-wet combined closed cooling tower has a higher cooling temperature range, can cool fluids above 80°C, and has a wider range of applications. It can have a good effect in the field of large temperature difference cooling of high-temperature cooling media, including steel, chemical industry, electricity and other fields.
2. Lower drift rate
The wet cooling area is equipped with a high-efficiency water collector to ensure that small water droplets rising with the air flow can be intercepted in the water collector. The wind speed in the tower is strictly calculated according to the optimal economic wind speed, and the air inlet window is installed with a downward-tilted air inlet grille to avoid water splashing and reduce drift loss.
3. White fog elimination technology
The unique design and technical optimization of the dry-wet combined cooling tower can effectively eliminate the white fog at the outlet of the cooling tower, thereby reducing corrosion to surrounding facilities and extending service life. It can effectively increase the air temperature out of the tower and reduce the moisture content, reduce/completely eliminate the appearance of white fog, and keep the surrounding environment clean.
4. Closed cooling
The production process medium is inside the heat exchange tube during the entire cooling process, and does not contact the cooling air and spray water, which can effectively prevent pollutants from entering the process production; the heat exchange coil generally uses pure water or antifreeze and other media, and the probability of scaling inside the heat exchange coil is very small, which can effectively avoid the problem of reduced heat transfer efficiency and equipment blockage, and ensure the long-term, stable and efficient operation of the system.
5. Lower water loss
As the ambient temperature decreases, the proportion of sensible heat exchange of air cooling in the entire heat dissipation process gradually increases. When the environmental conditions are suitable, it can maximize the use of low-temperature air and effectively reduce the amount of water consumed by evaporation, thereby ensuring efficient cooling while minimizing water consumption.
6. Factory assembly, modular delivery
The equipment will be initially assembled in the factory area and shipped in modular form, reducing the amount of on-site operations, which can maximize high-quality control, greatly improve work efficiency, and reduce product delivery cycles. It is safer, more time-saving, more environmentally friendly, and more reliable.
