Features and Benefits
The rotor is built “in-line” or when required as an “opposed impeller” configuration. Precision cast Impellers of radial flow design. Individually dynamically balanced to G2.5 . Single suction first stage impellers on the smaller size and double suction is available on the bigger size types. Impellers are standard supplied with renewable wear rings on the front and back hubs, overlay material shall be selected to suit the application, DLD is the preferred method for applying hard coating of super duplex materials. Optional integral wear surfaces can be supplied. The standard rotor build is a stepped shaft design with shrink fit impellers individually keyed to the shaft. Impellers are secured against axial movement in in the direction of the axial thrust against the shaft shoulder. When required the impellers can be located to prevent axial movement in the reverse thrust direction by means of a split ring.
Specifications
- ISO 13709 / API 610
- Hydraulic Institute
- Customer specifications
- Flows: 1000 m3/hr (4400 gpm)
- Head: 4000 m (13000 ft)
- Pressure: 300 bar (4350 PSI)
- Temperature: -73°C to 425°C (-100°F to 800°F)
- Flange ratings: 600# up to 2500#
- 6 sizes with discharges from 2″ to 10″ existing of 44 hydraulics
Size Range: 4 Sizes (3” to 8”) with 18 available hydraulics
Industries
• Power
• Nuclear
• Conventional Steam
• Combined Cycle
• Geothermal
• Chemicals
• Basic (Organic & Inorganic)
• Specialty (Fine & Consumer)
• Biofuels
• Pharmaceutical
• Petrochemicals
• Oil & Gas
• Upstream Exploration & Production
• Midstream Transportation
• Downstream Processing
Configurations
WCCD (Double Suction)
WCCO (Opposed impeller configuration)
WCC-T (Hydraulic turbine)
WCC-TT (True turbine)
