Year1
- 张:
- 50cm*100cm
, good heat exchange performance and high cooling efficiency
The filler is a film-type protruding fine corrugation that makes the water contact surface larger. The filler is placed in five layers and there is a redistribution process of hot water between the layers.
, good hydrophilicity, small ventilation resistance
The filler with a rough and smooth surface has good hydrophilicity and a water absorption rate of less than .%, allowing more water flow to form a film without splashing, making water and air more Full contact at the same time makes the surface disturbance of water and air large when flowing. After the filler is assembled, the air inlet surface is a honeycomb-shaped deflector, which has a good uniform air distribution effect and improves and stabilizes the heat exchange intensity of water and gas.
The inclination angle of the air inlet end effectively reduces drift loss. A water collector designed according to the impact separation method is installed at the end of the filler to effectively control the floating water loss within 5 parts per 100,000.
, easy to install, easy to clean and easy to transport
The heat dissipation filler adopts non-adhesive hanging installation, which is easy to clean and successfully solves the problem of deformation of the bonded filler due to dust absorption and dirt accumulation and dead weight, and the accumulation of dirt after deformation. A more serious problem that is difficult to clean. The filler has good flame retardant properties. After testing, the flame retardant oxygen index index is greater than.
The large honeycomb structure design has a diversion effect, has a good uniform air distribution effect, improves and stabilizes the heat exchange intensity of water vapor, and the inclination angle of the air inlet end effectively reduces the drift loss. The precise positioning and equal spacing combination facilitates the formation of a large area of flowing water film perpendicular to the surface of the water flow, which promotes the contact surface of the atmospheric flow. The built-in louver air inlet is formed on the filler to make the distribution of the air-water ratio in the filler uniform, reasonable, unique and efficient. The water container and filler molding are integrated to effectively remove the water droplets in the hot and humid air and return them to the tower, greatly reducing the loss of floating water. The water loss rate is less than .%.
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