Cooling Tower Fill Principles of Operation
The application of pp film fill is to cooling hot waste. The fill is sheet type, so water flowing have much more surface area. hot water will be cooled quickly. This is the reason people use film fill proverbially. The principles of operation is:
Cooling tower fill makes hot water have much more surface area with sheet and air and the medium of tremendously extended film fill, so that hot water is cooled quickly. After be cooled the water is flow in a water container from which it is pumped again to cooling other hot water,and the warm air leaving the fill and releasing from the above of the cooling towers, and like this Continuously cooling air from bottom and release warm air from above to keep cooling tower cooling hot water continuously.
The waste heat produced in industrial production or refrigeration process is generally driven away by cooling water. The cooling tower functions as heat exchange between the cooling water carrying waste heat and air in the tower.
What is the purpose of fill in a cooling tower?
The purpose of fill in a cooling tower is to cool water to make full use of water resources, reduce the load of urban tap water supply network, and reduce the operating cost, cooling water is treated by cooling tower and recycled.
Matters needing attention when replacing the cooling tower packing.
♦ The waveforms between the monolithic and the monolithic must be diagonally staggered so that they have good thermal resistance.
♦ The cuboidal packing assembly unit is most suitable for matching with the square tower and with the circumference of the circular cooling tower. A gap will be formed, and it needs to be filled with a different number of single sheets according to the size of the gap.
♦ Once the plug is blocked, it is not easy to clean. When the jam is serious, it needs to be replaced as a whole and it will increase the cost
|Length||as your request|
|Thickness||from 0.28mm to 0.38mm|
Used in crossflow cooling tower
How to choose Cooling Tower fill?
Both splash and film fill are ideal for facilitating the evaporation and cooling process in a cooling tower. However, film fill media is more efficient in heat transfer as it creates a larger surface area, hence optimized performance. However, it is more susceptible to wear and tear due to constant exposure to water at very high temperatures.
If your cooling tower applications involve recirculating water with poor quality and high solids content, you may opt for splash fill media for better performance. Also, if water is generated at very high temperatures, you may consider splash fill media with metallic bars as film fill media will wear away prematurely.
Cooling towers are essential equipment in most manufacturing industries. With this knowledge, you can choose the right type of tower fill media for optimal performance and improved efficiency of your industry's cooling tower.
The cooling tower is the main core of heat dissipation for circulating water in industrial production. In China's industrial production, it affects the cost and efficiency of industrial production in China.
Inappropriate use of cooling towers in industrial production can result in inefficient heat dissipation, production stagnation, and high water temperature risk. Cooling tower packing is the main factor that promotes hydrothermal cycle. Therefore, we must choose high-quality cooling tower packing.
♦ First, the cross-flow cooling tower standard size.
The distance between the top of the cooling tower packing and the bottom of the fan should be 1.2 times the diameter of the fan.
♦ Second, counterflow cooling tower standard angle.
1. When constructing a counterflow cooling tower, the top of the packing and the airflow section should be controlled within 90 degrees. A flat top cover is used and a diversion coil is installed. The water eliminator and the airflow section are angled at 90-120 degrees. between.
2. Shrink-type tower top, the top corner of the shrinkage section cover should be controlled between 90-110 degrees.
3. the water filling angle is controlled between 5-8 degrees.