Open FRP cooling tower is a widely used cooling equipment, mainly used to cool industrial circulating water. Depending on the design parameters and use, there are many different classifications of open cooling towers. The following are the main classifications of open cooling towers and their characteristics:
1.Categorized by use.
According to the application, open cooling towers can be divided into industrial cooling towers and air conditioning cooling towers. Industrial cooling towers are mainly used to cool industrial circulating water, such as chemical, steel, electric power and other industries. Cooling towers for air conditioning are mainly used for cooling the air conditioning system and providing a comfortable indoor environment for the building.
2.Classified by structural form.
According to the structural form, open cooling towers can be divided into counterflow cooling towers and cross-flow cooling towers. The heat transfer effect of counter-flow cooling tower is good. The cold air and water flow of the cross-flow cooling tower flow horizontally, the structure is simple, and the installation is easy.
3.Classified by water treatment method.
According to the water treatment method, the open cooling tower can be divided into spray cooling tower and packed FRP cooling tower.
4.Classified by noise level.
According to the noise level, the open cooling tower can be divided into low noise type, medium noise type and high noise type, and different levels of noise can be selected according to different occasions.
5.Classified by climatic conditions.
Depending on the climatic conditions, open cooling towers can be divided into standard and high-temperature types. The standard type is often used in the case of 37 inlet water and 32 outlet water when the temperature difference is not large, while the high-temperature cooling tower is used under the working condition that the temperature is high and the temperature difference is large.
In summary, each cooling tower has its own unique characteristics and range of applications. The choice should be based on the specific use needs and environmental conditions.