Evaporative Cooling | Energy Efficient | Non Ferrous
Model PT-210G3
Click Here for An Immediate Factory Pricing Quote For the PT-210G3 ▶
Pricing Is Now On Display
Product Overview
Cooling towers are simple to operate and utilize energy efficient evaporative cooling.
Cooling Towers are typically used to supply cooling temperatures between 5°F to 10°F above the ambient wet bulb conditions.
Warm water returning from the process is evenly distributed over the wet desk. Counter airflow driven by the fan causes a portion of the warm process water to evaporate cooling the remaining water.
Offering cooling towers in capacities from 45 to 270 tons in single and expanded cell systems.
Price is Loading
Specifications
Model: PT-210G3 (1)
Capacity(2)
Capacity : 210 tons
Flow Rate : 630 GPM
Direct Drive Fan
Quantity : 2
RPM : 1,170
CFM : 50,930
Motor
Quantity : 2
HP : 10
Total HP : 20
Full Load Amperage(3)(4)
230/3/60 : 57.6
460/3/60 : 28.8
575/3/60 : 24.0
Connection Sizes
To Tower : 2@4"
(5)From Tower : 2@6"
From Tower Location : bottom
Dimensions
Height : 140"
Width : 210"
Depth : 80"
Weight
Dry : 2,250lbs
Operating : 5,640 lbs
Shipping : 2,250 lbs
Specification Notes:
Since product innovation and improvement is our constant goal, all features and specifications are subject to change without notice or liability. Selection of certain optional features may change listed specifications.
Features
Tower Cell Design
Single cell design
Total non-ferrous construction materials
Single inlet and drain connections
Counter-flow air movement
Structural galvanized steel base
Fan
Air foil shaped blades for increased air flow
Blades are made of a glass fiber reinforced polymer
Blades are factory set at best angle for maximum air
Direct drive mechanics
Water Distribution Header
Non-ferrous PVC 'cross' construction
Stationary
Computer designed spray pattern
Large orifice spray heads
PVC spray heads
Drift eliminator prevents over spray and water loss
Inlet Louvers
PVC construction
Easily removed for cleaning
Vertical orientation to eliminate water loss
Directs air flow for even distribution through wet deck
Helps prevent air-born debris from entering cell
Shell Construction
High strength fiberglass molding
1/2" of structural thickness in reinforced areas
UV stabilized coating
Acrylic adhesive bonding between shell halves
Polyurethane sealant
Motor
TEFC construction
Mounted on a galvanized steel frame
Supported on reinforced fiberglass shell area
Mounted to shell with stainless steel fasteners
Inspection Covers
Easily removed
Seamless gasket sealing
Allows for inspection on cell interior and replacement of wet deck
Media Fill
Stacked honeycomb pattern maximizes water and air flows for greater cooling efficiency