Salient Features
- Designed for maximum service life dependability and performance
- Readily adoptable for industrial processes, DG sets & Air conditioning
- Designed for unifom water distribution and optimal heat transfer
- Consumes minimum power due to high efficiency of Axial flow fan sets.
Structure :
The Structure of Cooling tower is fabricated of Pultruted FRP profile which are free from corrosion. The whole cooling tower is fabricated in pieces & bolted together to facilitate easy shifting
The Structure of Cooling tower is fabricated of Pultruted FRP profile which are free from corrosion. The whole cooling tower is fabricated in pieces & bolted together to facilitate easy shifting
Casing & Sump
The tower casing is made of FRP which encloses the surface area serves to isolate air stream, which passes over the surface area.The casing shape is of curtain type which reduce frictional resistance of air and aid air flow pattern.
The sump serves the purposes of collecting the water descending from the surface area and channelling it to the suction point. Further the sump also acts as a reservoir of water. The sump is also made of FRP and has similar characteristics as the casing.
The tower casing is made of FRP which encloses the surface area serves to isolate air stream, which passes over the surface area.The casing shape is of curtain type which reduce frictional resistance of air and aid air flow pattern.
The sump serves the purposes of collecting the water descending from the surface area and channelling it to the suction point. Further the sump also acts as a reservoir of water. The sump is also made of FRP and has similar characteristics as the casing.
Louvers
Louvers are in FRP are provided to prevent contaminants like leaves, birds etc. entering the cooling tower & to facilitate the air entry in to the tower.
Louvers are in FRP are provided to prevent contaminants like leaves, birds etc. entering the cooling tower & to facilitate the air entry in to the tower.
Hot water Basin
In cross flow induced draughtcooling tower the FRP Hot Water Basin is used to distribute the water evenly over the cross section of the tower.
In cross flow induced draughtcooling tower the FRP Hot Water Basin is used to distribute the water evenly over the cross section of the tower.
Distribution Box
The distribution box serve the pupose of channeling the hot water to spread all over the fill area evenly to provide maximum efficiency of the cooling tower
The distribution box serve the pupose of channeling the hot water to spread all over the fill area evenly to provide maximum efficiency of the cooling tower
Flower Nozzle
The PVC Flower nozzles are used in hot water basin to sprinkler water all over the splash bar area & operates under gravity
The PVC Flower nozzles are used in hot water basin to sprinkler water all over the splash bar area & operates under gravity
Header & Sub Header Pipes
In counter flow induced draught cooling tower the PVC header pipes & sub-header pipes are used to distribute the water evenly over the cross section of the tower.
In counter flow induced draught cooling tower the PVC header pipes & sub-header pipes are used to distribute the water evenly over the cross section of the tower.
PVC Nozzle
The PVC Ring type nozzles are used in sub-header pipes to sprinkler water all over the fill area & operates under gravity
The PVC Ring type nozzles are used in sub-header pipes to sprinkler water all over the fill area & operates under gravity
Fan Cylinder
In cross flow induced draught cooling tower the fan cylinder is made of Hot dip galvanized MS structure covered with fiber glass reinforced plastic and has sufficient structural strength to withstand high wind velocity & vibrations emanating from the motor and other equipment. Cylinder has a high impact resistance and even if damaged is easily repaired at site. The cylinder is in sections of easy to handle sizes and is assembled at site using bolting joints
In Counter flow induced draught cooling tower the fan cylinder is made of tough fiber glass reinforced plastic and has sufficient structural strength to withstand high wind velocity & vibrations emanating from the motor and other equipment FRP cylinder has a high impact resistance when laminated with lsopathalic Resin and even if damaged is easily repaired at site. The cylinder is in sections of easy to handle sizes and is assembled at site using bolting joints
In cross flow induced draught cooling tower the fan cylinder is made of Hot dip galvanized MS structure covered with fiber glass reinforced plastic and has sufficient structural strength to withstand high wind velocity & vibrations emanating from the motor and other equipment. Cylinder has a high impact resistance and even if damaged is easily repaired at site. The cylinder is in sections of easy to handle sizes and is assembled at site using bolting joints
In Counter flow induced draught cooling tower the fan cylinder is made of tough fiber glass reinforced plastic and has sufficient structural strength to withstand high wind velocity & vibrations emanating from the motor and other equipment FRP cylinder has a high impact resistance when laminated with lsopathalic Resin and even if damaged is easily repaired at site. The cylinder is in sections of easy to handle sizes and is assembled at site using bolting joints
Splash Bars
In cross flow induced draught cooling tower splash bars are used. The Splash Bars section is designed to bring intimate contact of water and air so as to facilitate heat and mass tranfer at the same time aiding in proper and even distribution of air and water over the cross sections, while maintaining minimum pressure drop. The Splash Bars are of C section and perforated from virgin PVC for excellent resistance to corrosion and give maximum area wettage.
In cross flow induced draught cooling tower splash bars are used. The Splash Bars section is designed to bring intimate contact of water and air so as to facilitate heat and mass tranfer at the same time aiding in proper and even distribution of air and water over the cross sections, while maintaining minimum pressure drop. The Splash Bars are of C section and perforated from virgin PVC for excellent resistance to corrosion and give maximum area wettage.
Grid System
Splash bars are supported on SS304 grids which assures positive & permannent positioning & allow splash bar to stay on its sting with the help of PVC tie clip
Splash bars are supported on SS304 grids which assures positive & permannent positioning & allow splash bar to stay on its sting with the help of PVC tie clip
PVC Fills
PVC Honey comb double edge folded fills are used in counter flow induced draught cooling tower. The fills section is designed to bring intimate contact of water and air so as to facilitate heat and mass tranfer at the same time aiding in proper and even distribution of air and water over the cross sections, while maintaining minimum pressure drop. The fills are of honeycomb section and are vacuum formed from virgin PVC for excellent resistance to corrosion and give maximum area wettage.
PVC Honey comb double edge folded fills are used in counter flow induced draught cooling tower. The fills section is designed to bring intimate contact of water and air so as to facilitate heat and mass tranfer at the same time aiding in proper and even distribution of air and water over the cross sections, while maintaining minimum pressure drop. The fills are of honeycomb section and are vacuum formed from virgin PVC for excellent resistance to corrosion and give maximum area wettage.
Drift Eliminators
Drift Eliminators, made out of UV resistant rigid PVC, are designed to remove entrained particles from air stream efficiently, with minimum pressure drop, thereby reducing the fan power requirement when the air passes through the Drift Eliminator.
Cross flow tower applications, the almost vertical water conduits provided by drift eliminator remove the water droplets out of the drift eliminator area and return them back into the tower and does not allow any re-entry. The special locking pin arrangement facilitates quick and simple assembly at site.
Drift Eliminators, made out of UV resistant rigid PVC, are designed to remove entrained particles from air stream efficiently, with minimum pressure drop, thereby reducing the fan power requirement when the air passes through the Drift Eliminator.
Cross flow tower applications, the almost vertical water conduits provided by drift eliminator remove the water droplets out of the drift eliminator area and return them back into the tower and does not allow any re-entry. The special locking pin arrangement facilitates quick and simple assembly at site.
Fan
The Aluminium fan is an axial flow, multiblade version with blade section and adjustable blade pitch. The fan is designed to deliver large volumes of air at low power consumption and low noise generation. The fans are dynamically balanced for smooth operation, longer bearing and more life including that of the supporting structure.
The Aluminium fan is an axial flow, multiblade version with blade section and adjustable blade pitch. The fan is designed to deliver large volumes of air at low power consumption and low noise generation. The fans are dynamically balanced for smooth operation, longer bearing and more life including that of the supporting structure.
FAN DRIVE MOTOR
The fan drive motor is in IP55 weather proof design. The fan is directly driven by the special extended shaft motor made from EN8 steel mounted facing downward on a mounting frame on the top of the Cooling Tower.
The fan drive motor is in IP55 weather proof design. The fan is directly driven by the special extended shaft motor made from EN8 steel mounted facing downward on a mounting frame on the top of the Cooling Tower.
L K Chatuvedi
CEO - Wetpoint Aqua Equipments (P) Ltd
Manufacturer of all kind of Industrial Cooling Towers
Phone: +91-9302.214.784
Email: ceo@wetpointcoolingtowers.com
CEO - Wetpoint Aqua Equipments (P) Ltd
Manufacturer of all kind of Industrial Cooling Towers
Phone: +91-9302.214.784
Email: ceo@wetpointcoolingtowers.com
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