CFD simulations show that maldistribution is observed inside the tube bundles.Low droplet size produces high liquid maldistribution while larger droplets show lower liquid maldistribution across the tube bundles. It is therefore conservatively concluded that the reduction in overall heat transfer coefficient in the air cooled heat exchanger will not be of the same order as observed flow maldistribution and therefore requires no additional design modifications.

Services offered:

Modifications in the Air Cooled Condenser Turbine Exhaust Duct & Risers for:

• Equal distribution of steam mass flow rate in each riser outlet & to minimize the swirl effect in the risers

Air Cooled Heat exchanger CFD Analysis to:

1)  Estimate the Maldistribution in the tube bundles
2)  Study the chances of flooding inside the pipes due to maldistribution
3)  To calculate the reduction in heat transfer
4) Suggest Design Modifications

5)  To minimize the pollutant formation such as NOx

6)  To increase the flame characteristics and Burner efficiency

7)  Specification application in the area of:

• Heat exchangers

• Process heater

• Boilers

8)  Gas Dispersion and Flare Analysis

9)  Fire and Smoke modelling