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Water-Cooled Blowers

High Pressure Blowers

Water-Cooled-Blower-1 Water-Cooled-Blower

 High Pressure Water-Cooled Blower

Water-Cooled Air Blowers are similar to air-cooled type blowers in construction and performance - except for the addition of a cooling arrangement.

In water-cooled blowers, the main casing and side plates have water jackets around them, through which water is circulated, which dissipates the heat generated and keeps the internals cool. Water-cooled blowers are recommended for applications where discharge pressures exceed 10-psi (or 7000-mm WG).

In applications where the differential pressure is in excess of 10-psig, it is both essential and recommended to dissipate the heat for efficient working and longevity of the blower bearings and seals. These blowers have a unique design of single inlet and single outlet for cooling water and no cumbersome water pipe connections externally. Internal circulation of water to various areas is achieved through in-built channels. This unique design makes the operations very simple, yet very effective. The cooling water inlet is at the bottom so that the water rises up against gravity, reaching all the corners before it comes out from the outlet. The flow rate of cooling water required are low.

Standard Design & Constructional Features 

  • Factory engineered, factory guaranteed, superior product
  • 100% oil free air delivery
  • Alloy steel hardened and ground timing gears
  • Anti-friction bearings
  • Rotary oil seals
  • Rigid one piece CI casing and side plates
  • Horizontal and vertical configurations available
  • Easy rotor timing setting
  • No vanes, valves or rings to wear
  • Large inlet and outlet connections for minimum loss
  • Improved volumetric efficiency and reduced operating temp.
  • Alloy steel toughened shafts ground to close tolerances

Performance Specifications - High Pressure (Water-Cooled) Blowers

News/Events 

  1. Waste No Waste: Time to Embrace Biogas
  2. Is Big Gas finally learning to love biogas?
  3. We need to get behind Renewable Natural Gas
  4. Difference between a Turbo and Positive Displacement Blower
  5. The Difference between Methane and Natural Gas
  6. First Dairy Biogas Project in Connecticut
  7. Does Renewable Natural Gas Have a Future in Energy?
  8. Biogas Offtake Opportunities For Digesters
  9. Wisconsin Dairy Begins Production of Renewable Natural Gas
  10. Anaerobic Digestion Sector Forming a Clearer Picture
  11. Brightmark to Expand Western New York Dairy Biogas Project
  12. Biogas - The Energy Wonder That's Under Our Noses
  13. Power Generation Achieved by a Self-Assembled Biofuel Cell
  14. Less Carbon Dioxide from Natural Gas
  15. Project Uses Renewable Electricity for RNG Production
  16. Smithfield Hog Farm Provides Natural Gas to Missouri City
  17. From Waste to Gas
  18. Gas Clash Threatens Australian Export
  19. Maximizing Opportunities of Anaerobic Digestion from Wastewater
  20. Catalyst to Speed up Conversion of Biomass to Biofuel
  21. How It Works: Ethanol
  22. Anaerobic Digestion - the Next Big Renewable Energy Source
  23. Anaerobic Additions
  24. Three (3) Tech Solutions for Modern Landfills
  25. The Costs and Benefits of Anaerobic Digesters
  26. Bacteria Farts Power Wastewater Plant in Fort Wayne
  27. Europe’s First Poultry Manure Biogas Plant
  28. Electricity Using Pig Manure
  29. $38-Million Biodigester coming to Grand Rapids
  30. Biochar Could Benefit Anaerobic Digestion of Animal Manure

For additonal reading, please visit us at: News Worthy

Difference between a Turbo and Positive Displacement Blower