Municipal Market

Clear Liquid Pumps

Cornell’s clear liquid pumps are constructed in all iron. Many optional metallurgies are also available. Standard features include fully machined impellers, heavy-duty shafts with replaceable shaft sleeves, and peripheral wear rings. Ideal for backwash, plant water, reverse osmosis feed, high service, potable water
booster, and water booster applications.
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Solids Handling Pumps

Applications: Municipal Waste Water, Lift Station, R.A.S./W.A.S., Industrial Waste Water, De-watering,
Construction, Dredging, Reclamation Plants, Foundry or Mill Slag.
Models: Delta™, Semi-Open Impeller, Enclosed Impeller, Grey Water Impeller and Chopper Impeller.
Sizes: Discharge sizes from 3 to 30 inches. Heads to 450 ft., flow rates to 40,000 GPM.
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Chopper Pumps

Applications: Food Processing, Wood Products, Mining, Sludge Transfer, Digestor Scum Blankets, Animal Slurries.
Models: 4NC and 6NC.
Sizes: Discharge sizes from 4 to 6 inches. Heads to 275 ft., flow rates to 1,500 GPM.
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Immersible Motors

Cornell’s clear liquid pumps are constructed in all iron. Many
optional metallurgies are also available. Standard features include
fully machined impellers, heavy-duty shafts with replaceable
shaft sleeves, and peripheral wear rings. Ideal for backwash,
plant water, reverse osmosis feed, high service, potable water
booster, and water booster applications.
More...

Submersible Pumps

 

Solids-handling pumps are the perfect choice for pumping raw sewage, sludge and light slurries. For sewage lift stations, treatment plants, return of activated sludge, sludge transfer, raw sewage, waste activated sludge and building applications.
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Redi-Prime® Pumps

All Cornell Redi-Prime® pumps are designed with a suction size that is larger than the discharge size. This provides more flow due to reduced friction losses.
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Hydro Turbines

You don't need a raging river to take advantage of the energy savings a Cornell hydro turbine can provide. Heads as low as 55 feet, and flows as low as 90 gallons per minute can produce useable energy.
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