ANDRITZ Pumps
  • Pumps
  • Pumps products
  • Submersible centrifugal pumps

Submersible centrifugal pumps

High performance under tough conditions

The ANDRITZ submersible centrifugal pump (ASCP series) is a single-stage centrifugal pump equipped with a submersible motor. The series has a range of different impellers - open, semi-open and closed. The design not only allows for optimal conveyance of pre-cleaned wastewater (for example inside a wastewater treatment plant) but also highest efficiencies of up to 80 percent. The sealing between pump and motor is achieved by means of high-quality of mechanical seals. At the same time, a monitoring system protects the motor against damage. The fields of application for the ASCP pump series are water treatment and wastewater plants, flood control, irrigation and drainage pumping stations. 

For more information on our submersible centrifugal pump please have a look at our brochures in the sidebar or contact us directly.

ANDRITZ submersible centrifugal pump, ASCP series

© ANDRITZ

PRODUCT FACTS*

Nominal diameter (DN):

32 to 300

Flow rates:

up to 2,200 m3/h at 50 Hz

Heads:

up to 70 m

Temperatures:

up to 40 °C

Consistencies:

up to 4%

Efficiency:

up to 88%

Pressure:

up to 10 bar (higher on demand)

Motor:

IP68 submersible motor (with or without
cooling jacket)

* These values are guidelines and may differ depending on project requirements

Product benefits

  • Easy maintenance
  • Efficiency above industrial standard
  • Low energy consumption
  • Sensors are modifiable on request
  • Robust design
  • Well-proven hydraulics
  • Modular design

Find out more ...

Contacts
ANDRITZ Pumps Germany GmbH
Germany
Get in contact
ANDRITZ FZCO
Dubai Airport Free Zone (DAFZA)
Get in contact
ANDRITZ (China) Ltd.
P.R. China
Get in contact
ANDRITZ Separation and Pump Technologies India Private Limited
India
Get in contact
ANDRITZ HYDRO S.A.
Brazil
Get in contact
Downloads
  • Submersible centrifugal pump, ASCP series PDF : 1,019 KB
  • ANDRITZ your partner for pumping solutions PDF : 13.6 MB