Water Cooled Blowers

ABL WATER COOLED BLOWERS are similar to air cooled type in construction and performance except in the change of cooling arrangement. In water cooled blowers end plates have water jackets around them, where water is circulated, which dissipates the heat of compression generated and keeps the internals cool. Water cooled blowers are recommended for applications where discharge pressures exceed 7000 mm WG since it is essential to dissipate heat for the efficient working and long life of the bearings and seals. ABL Blowers have a unique design of single inlet and the single outlet for cooling water and require no cumbersome water pipe connections externally. Internal circulation of water to various areas is through inbuilt 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 rates of cooling water are low.

Features of Water Cooled Blowers

  • 100% oil-free air delivery
  •  Factory engineered, Factory guaranteed, superior product
  •  Alloy steel hardened and ground timing gears, oil splash lubricated
  • Anti-friction bearings
  • Rotary Oil Sealing
  • Rigid one-piece CI casing & end plates
  • Horizontal&Vertical configurations available
  • Easy rotor timing setting
  • Fail-safe labyrinth sealing
  • Extended shaft design for cool running
  • Dynamically balanced rotor shaft assembly (Grade 6.3 ISO 1940-1986)
  • Large inlet&outlet connections for minimal loss
  • Single Inlet and Outlet Connections
  • Improved volumetric efficiency and reduced operating temperatures
  • Alloy steel toughened shafts ground to close tolerances
  • Performance testing as per standard test procedure STP-01 based on BS 1571-2:1975 and ISO 1217:2009
  • All blowers are manufactured on state of the art, imported CNC machines, machined to close tolerances with the high degree of accuracy on profile machining, ensuring high volumetric efficiency