- Commodity name: TSC Induced Draft Counterflow Sensible Heat Closed Cooling Tower
▍‌Operating Principle

The working fluid (water or other liquids) circulates within the coils of the heat source and closed cooling tower. The heat from the working fluid is transferred through the coil wall to the water flowing over the outer surface of the coil by means of sensible heat exchange. The heated water falls into the water basin, is pumped through the spray pump, and reaches the nozzles via the water distribution pipes. The warm spray water forms a very thin film on the surface of the packing to achieve optimal cooling effect. At the same time, the fan system starts, allowing a large amount of cold air from outside the unit to enter through the air intake grille in the opposite direction to the falling water. The air and water come into direct contact on the surface of the packing, causing a small portion of the water to evaporate. During this evaporation process, the spray water transfers heat to the air flowing through the unit by means of latent heat exchange. The heat-saturated air is discharged into the atmosphere from the fan at the top of the TSC cooling tower, dissipating the heat. The remaining spray water is cooled by the packing and then sprayed onto the heat exchange coil, continuing the cycle.

New Heat Exchange Features
TSC combines closed-loop coils and PVC packing to provide sensible and latent heat transfer. TSC utilizes mixed technology and features full-size sensible heat coils with enhanced inner tubes, providing outstanding evaporative cooling capability. The coils are located outside the airflow and only perform sensible heat exchange, thus preventing evaporation on the coils, reducing the possibility of scaling, and minimizing heat loss in winter. At the same time, the new sensible heat coils conduct sensible heat exchange through the coil walls—no air passes through the coil group, allowing for a tighter arrangement of the maximum number of oval tube groups, thereby maximizing sensible heat exchange capacity.

Reliable Drive System
● Uses a fully enclosed motor with certain overload capacity and a long service life.
● The aluminum alloy fan with wing-shaped wide blades ensures low operating noise, low power consumption, and high efficiency.
● Heavy-duty fan bearings with an L10 service life of 75,000 hours.
● High-strength belts designed for 150% of the motor nameplate power load, making equipment operation more reliable.
● Internally uses corrosion-resistant aluminum fan blades and motor pulleys.

Efficient Air Intake Window
The uniquely designed three-channel air intake window effectively reduces the entry of dust from the atmosphere into the water basin, while also reducing the accumulation of dirt, sediment, bacteria, and algae in the water tank.

Easy Maintenance
● The collection basin is designed to be sloped for easy cleaning, allowing debris to be easily drained from the water basin.
● The air intake windows on all four sides of the unit are designed to be removable, facilitating maintenance personnel to enter the secondary water basin for cleaning and inspection.
● The unit's casing section is equipped with sliding inspection doors, allowing maintenance personnel to check and repair the unit's drive components after entering through the inspection door, and the extended oil pipes facilitate lubrication of the bearings.
● The unit can be optionally equipped with motor suspension brackets, maintenance platforms, and ladders for convenient on-site maintenance operations.

Small Footprint
TSC's sensible heat coil technology allows for a denser arrangement of oval tubes within the same cross-sectional area, enabling TSC to provide over 20% more heat exchange area than TAC. Additionally, the upper PVC packing cooling spray design increases the water load by 50% compared to the previous TAC series. A larger heat exchange area combined with a greater water load equals greater capacity, so the TSC series occupies a smaller footprint and consumes less energy.

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