G WS Series

G series water separators are designed to separate volumes of liquid water and other particles from compressed air. The unique centrifugal process removes airborne contaminants with extremely low pressure losses, while using less energy to stabilize the overall system pressure level.
The G series is available in different model options with NPT pipe diameters from 1/4" to 3" and flow capacities up to 2200 m3/h.
Since condensate separators have limited filtration efficiency, additional equipment such as coalescing and particle filters are needed to increase the filtration efficiency of the overall compressed air system and to remove the last traces of oil, water and other particles in the compressed air.

Models And Technical Information

MODEL CONNECTION DIAMETER CAPACITY DIMENSIONS mm
ÇAPI (m3 / hour) (scfm) A B C D
G 25 WS 1/4” 25 15 103 258 236 160
G 100 WS 1/2” 100 59 103 258 236 210
G 200 WS 3/4” 200 118 123 304 277 285
G 300 WS 1” 300 177 123 304 277 380
G 600 WS 1 1/2” 600 353 123 320 285 470
G 1200 WS 2” 1200 706 160 485 443 560
G 2200 WS 3” 2200 1295 193 546 490 610


General Information

G series water separators are designed to separate volumes of liquid water and other particles from compressed air. The unique centrifugal process removes airborne contaminants with extremely low pressure losses, while using less energy to stabilize the overall system pressure level.
The G series is available in different model options with NPT pipe diameters from 1/4" to 3" and flow capacities up to 2200 m3/h.
Since condensate separators have limited filtration efficiency, additional equipment such as coalescing and particle filters are needed to increase the filtration efficiency of the overall compressed air system and to remove the last traces of oil, water and other particles in the compressed air.

  • Automatic drain valves are standard on G series water separator models.
  • All separator bodies are coated with electrostatic powder paint from inside to outside.

To calculate the maximum required flow rate, multiply the table flow rate value by the correction factor corresponding to your working pressure.