Square Shape Closed Cooling Towers
Square shape Closed cooling towers or fluid coolers operate just like the open type, but dissipate the process fluid heat load into the ambient air via a heat exchange coil. This isolates the process fluid from the outside air, keeping it clean and free of contamination in a closed loop and creating 2 separate fluid circuits:
1. An external circuit, in which spray water circulates over the coil and mixes with the outside air.
2.An internal circuit, in which the process fluid circulates inside the coil.
The warm water is cooled to a temperature lower than ambient air dry-bulb temperature, if the air is relatively dry. Equipment’s are Closed Circuit Cooling Tower Manufacturer India. We also Closed Loop Cooling tower Manufacturer in India. Closed circuit cooling tower just like the open type, this type of heat exchangers are mostly in the huge industries. We manufacture two types of closed circuit cooling tower and combined flow and counter flow cooling tower. Closed Circuit Cooling Tower is suitable for Thermal Power Plants. Closed Circuit cooling tower certain processes needs a closed loop, that’s why the process water for cooling does not come in make contact with the full of atmosphere air. Closed loop type cooling is minimizes process fouling.
Equipment’s are very specialist in the Closed Circuit cooling tower designing in India and we designing the cooling tower as per the client requirements and well designed for various industries. Equipment’s are particularly designed for thermal power plants and industries. We also design and develop the Closed Loop Cooling Tower and the system in a highly efficient heat transfer process. We offer high capacity closed circuit design and we provide following flow types, combined flow, Parallel flow, Counter flow.
- Contaminant-free cooling circuit
- Dry operation in winter
- Reduced system maintenance
- Lower overall system costs thanks to year-round savings on maintenance, water, energy and water treatment.
1. Low Pumping head thus lower operational cost.
2. Smaller tower height due to compact infill.
3. More efficient air/water contact due to droplet distribution.
4. Well-designed water distribution system to make sure uniform distribution of water.
5. Use of high quality nozzles which ensure complete breakdown of the water droplet in order to increase heat transfer