Dry Cooling Towers Manufacturer INDIA Dry Cooling Tower Manufacturer Dry Cooling Tower
Dry Cooling Tower functioning in combination of extended sine wave finned surface heat transfer coils, with axial flow fans and rigid construction for regular operation. The hot water from any equipment can be sent
to the inlet of the Dry Cooling Tower & that hot water get Cooled and Cold water outlet from the Dry Cooling Tower is connected to the pump, which pumps the cold water to the equipment to transfer the heat from
the equipment with less Evaporation loss, Maintenance free, No need of raw Water tank & 100% free from descaling.
Special Features of Air Cooling Tower / Dry Cooling Tower
1.1 Usage :
The Air Cooling Towers / Dry Cooling Towers are very compact and aerodynamically designed for Diesel Engines and LT & HT Circuits.
1.2 Very Less Water Conceptions:
The Air Cooling Towers / Dry Cooling Towers are air cooled equipment so just you fill very small quantity of water, after that it is not required additional water. Due to the closed circuit there is no evaporation loss. So
our towers are save the water cent percent.
1.3 Filling Water :
You can fill any typeor quality of water. No need of water softening plant or treatment chemicals. In first time just you fill small quantity of common drinking water.
1.4 No Scale formation
Due to closed circuit, same water will be circulated continually and no chance for evaporation so that scale will not be separate from the water and it is not deposit at any where in the heat transfer area.
1.5 Desiging:
Our Towers are very compact and aerodynamically designed. There is no any restriction for the location of the plant; atmospheric air is the cooling media. It cools the hot water and maintains the temperature of
process hot water at a particular level. It has designed for highest ambient temperature so we could run the engine in 100% load even in peak summer. It has the fan and eectric motor to the water.
1.6 Energy Economy:
Our Towers are specially designed aerodynamically for power saving we are provide the mostat controls to switch off the fan motors in the time of cold ambient temperature.
1.7 Maintenance :
Our Dry Cooling Towers are closed circuit. So no chance to mix dust, fly, living organisms and dirt with process water. Air is the cooling media so there is no corrosion problem.
2. Technical Specifications of Dry Cooling Tower / Air Cooling Tower
2.1 Designing and Material Quality
The Dry Cooling Towers are having heat transfer area with good quality coppers and very high quality of aluminium fins. Copper tubes are mechanically expended with coolers, it provides smooth inner tube surface so
there is no chance for pressure drop (our Cooler are tested at 350 PSI). Coolers are favricated in heavy channels and using steel sheets. The finalized steel frame provides stacking and shipping support and production
against tube damaging.
2.2 High performance of Fan and Motors:
A new generation start of the art cooling fans the energy economy concept. It combination of performance strength endurance and reliability designed aerodynamically for characteristic of the fan outlet essences an
optimum distribution of air across the ” Cooler” giving an added benefit to the system fans are dynamically balanced on computerized machine. And using IP55 / TEFC standard motors.
Types of Dry Cooling Towers:
Conserving significant amount of water.
Minimizing environmental impact.
Very economical in cost.
Dry cooling Applications:
Power Plant Cooling Solution
Injection Moulding
Chemical & Oil Refineries
Plastic Extruder Plant
Steel Foundry & Forgings
Dairy & Dyeing Plants
Water Treatment Plants
Diesel / Gas Genset Plants
Usage :
The Air Cooling Towers / Dry Cooling Towers are very compact and aerodynamically designed for Diesel Engines and LT & HT Circuits.
Benefits of dry cooling
No water consumption and no water treatment.
No visible plume compact simplified design with greater degree of prefabrication in workshop.
Units can handle higher inlet temperatures.
Outstanding corrosion protection.
A separated loop whereby the coolant is not in contact with the atmosphere
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