Adding to the complexity of selecting pumps for slurry pumping applications is that the concentration of solids, together with particle size and shape, can affect pump performance as well as power requirements. Settled solids might require external agitators, water jets or mixers to get them back in suspension and allow them to be pumped.

Ownership costs

All these factors need to be considered when selecting the correct slurry pump for an application, and local Grindex pump distributor, Integrated Pump Technology has issued a caution against making this purchase decision based on capital cost alone.
“Slurry pumps need to handle abrasive solids in suspension, including sand, gravel and waste products in high concentration,” Colin Adams, managing director of Integrated Pump Technology says.
“Coping with the high levels of wear caused by this abrasion requires a pump with hydraulic parts manufactured from a very hard metal alloy. Selecting anything less will result in high maintenance and repair costs translating into unnecessarily high total cost of ownership.”

Hardest materials available

Grindex Bravo submersible slurry pumps are engineered to cope with the toughest pumping conditions, and the hydraulic components are made from Hard Iron, one of the hardest materials available.
“Countering excessive wear is important in slurry pumps and the robust construction of the Bravo pump, coupled with its low shaft speed, ensures high wear resistance even in the most demanding slurry applications,” Colin explains.
The Bravo pump range can operate over the complete pump curve, not just on a specific duty and can handle from 30 litres per second up to 130 litres per second at a maximum head of 45 metres. The large throughlet means that the pump can handle solids of varying sizes. The pumps are equipped with a leakage sensor that facilitates early detection of any problems, allowing action to be taken as soon as possible.
Integrated Pump Technology
Tel: (011) 894-2906
Email: info@pumptechnology.co.za
www.pump-technology.com