Water Collector

Our company has been engaged in large-scale cooling tower construction and equipment installation for nearly 30 years and has undertaken the installation of more than 2,000 large-scale industrial cooling towers.

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Water Collector

The dehumidifier is an important component of the cooling tower. Its main function is to collect the cooling water flowing down from the fill or spray system and guide it back to the pool to achieve water recycling. The dehumidifier is usually composed of a collection tank, an overflow port and a supporting structure. The design purpose is to ensure smooth water flow and avoid overflow. It collects cooling water in a centralized manner and reduces evaporation losses, thereby improving the overall operating efficiency of the cooling tower.

Dehumidifiers are widely used in industrial cooling, air conditioning systems, power plants and other fields to ensure efficient cooling of equipment and stable water quality. To ensure the normal operation of the dehumidifier, regular maintenance and cleaning of sediments are necessary to avoid blockage and structural damage. In short, the dehumidifier plays a key role in the cooling tower and is one of the infrastructures to ensure efficient and stable operation of the cooling system.

WORKING PRINCIPLE

The working principle of the water collector is to effectively recover cooling water in the cooling tower and guide it for recycling to improve cooling efficiency and reduce water evaporation loss. The cooling water flows down from the packing or spray system and the temperature is reduced after heat exchange with the air. These water droplets continue to flow downward under the action of gravity. When passing through the water collector, the water collector separates and recycles the water droplets through its specific structural design.

The water collector is usually composed of multiple plates or grids. The arrangement and angle design of the plates can effectively capture the water droplets flowing down from the packing and guide the water droplets to flow along the surface of the plates. When the water droplets contact the surface of the water collector, they will adhere to the plates due to inertia and gather into water flow. Through the guiding effect, these water flows are finally concentrated and guided to the pool at the bottom of the cooling tower, and then circulated back to the spray system through the pump system to achieve water reuse.

In addition, the design of the water collector must minimize the resistance to air flow to avoid affecting the ventilation effect of the cooling tower. Through reasonable plate spacing and angle adjustment, the water collector can efficiently capture water droplets while ensuring smooth air flow. This not only reduces water loss, but also improves the overall operating efficiency of the cooling tower. It is an indispensable component in the cooling tower.

Features

Rubber-plastic alloy modified PVC material, high strength: Rubber-plastic alloy modified PVC, which has both the flexibility of rubber and the high strength of plastic, can withstand frequent water flow and wind impact in the cooling tower and maintain a stable structure.

No plasticizer, aging-resistant, no deformation: The material has no plasticizer added, avoiding the problem of easy aging and brittleness of traditional PVC, with excellent weather resistance, not affected by temperature changes and ultraviolet rays, and will not deform after long-term use.

High water collection efficiency and low airflow resistance: The carefully designed structure can efficiently capture cooling water droplets while maintaining smooth airflow, reducing the impact on ventilation, and improving the overall efficiency of the cooling tower.

The drip loss rate is less than or equal to 0.001%: The drip loss is extremely low, with almost no water loss, effectively saving water resources, reducing operating costs, and improving the environmental protection and water use efficiency of the system.