Induced Draft Fan Cooling Tower

The fan generates hot moist air out the discharge.

Induced draft fan cooling tower.

The fan induces hot moist air out the discharge. Countercurrent induced draft towers are the most prevalent in the process industries capable of cooling water within just over 1 c 2 f of the wet bulb air temperature. This provides a low level of entering and high level of exiting air rapidities decreasing the feasibility of recirculation in which liberated air runs back into the air admission. Almeco s cooling tower range contains all different types.

Forced draft means an exhaust fan placed at the base of the cooling tower which then causes overpressure. The automated draft tower along with a fan at the dismissal spot at the top that draws air up into the tower. Axial fans are always used for this type of draft. Most packaged cooling towers use fans to force or draw air through the tower.

Forced draft cooling towers consume significantly more power than induced draft cooling towers and are relatively more prone to recirculation if not ducted. The induced draft cooling tower or mechanical draft tower comes with a fan at the discharge end which drives air upwards via the tower. Induced draft towers have fans at the discharge that pull the air through. Available document languages.

Induced draft implies an inlet fan placed on top of the cooling tower and the creation of low pressure. Both axial and centrifugal fans can be used. From performance to maintenance they simply work smarter. Crafted from decades of engineering know how the advanced technology at cooling towers series from evapco features state of the art induced draft counterflow technology to deliver superior operating advantages in any climate.

This produces low entering and high exiting air velocities reducing the possibility of recirculation in which discharged air flows back into the air intake this fan fill arrangement is also known as draw through. Paragon induced draft towers delta s paragon induced draft counter flow cooling tower design is available in single module capacities from 55 to 250 cooling tons. The fan induces warm moist air out to demobilization. This produces low entering and high exiting air velocities reducing the possibility of recirculation in which discharged air flows back into the air intake.

The fan induces hot moist air out the discharge. This generates high exiting and low entering air velocities lessening the chance of recirculation in which discharged air circulates back into the air intake.