Warman® DWU – The Pump in a Class of Its Own
This was originally published by Weir Minerals.
Above Image: Pontoon mounted Warman® DWU pump on site. Image Credit: Weir Minerals.
The market offers specialised slurry pumps to handle thick and abrasive slurries, as well as submersible and sump pumps for pumping clean water, but neither of these options provide an effective solution for pumping dirty mine water. Weir Minerals took its extensive knowledge of pumping slurries and developed the Warman® DWU (Dirty Water Unit) pump, designed to handle both increased suspended solids in dirty water whilst operating at high discharge head pressures.
The introduction of, and subsequent clogging from, suspended solids is one of the most common causes of premature failure in a dewatering pump. ‘Upset’ conditions during the underground mining process are the general cause of increased suspended solids levels entering the mine’s dewatering discharge water. The Warman® DWU pump combats both these challenges head on, transporting the dirty mine water to its designated discharge point via single (140m), multi-stage (480m) portable or permanent pumping solutions.
The Challenge of Dirty Water
‘Dirty water’ is the name given to water with too high a percentage of suspended solids to be ‘clean’, but too low of a percentage to be classed as slurry. Dirty water becomes a problem onsite when the solids concentrate inside a dewatering pump collects around the motor frame, overheating the pump and causing the motor to fail.
The Warman® DWU pump is specifically designed to handle dirty water from onsite ponds and open pits with specific gravity (SG) of up to 1.05. Where a pump built to handle clean water will fail once dirty particles are introduced, the DWU pump will not. That is because the DWU was designed using Computational Fluid Dynamics (CFD) and utilises Weir Minerals’ advanced material technology, allowing the DWU pump to process the fluid efficiently and minimise pump maintenance in the long run.
Image: Warman® DWU pump ready for dispatch. Image Credit: Weir Minerals
“In most circumstances, high-head clean water pumps will fail when they are required to process even a minute amount of particles,” explains Marnus Koorts, Product Manager for Pumps at Weir Minerals Africa. “Once you have greater than 1% of particles, a site’s only other option is to install slurry pumps”.
The problem of pumping dirty water with slurry pumps".
The Problem of Pumping Dirty Water with Slurry Pumps
Slurry pumps are a common answer to the dirty water problem, but this solution is costly and inefficient. Without a specialised dirty water pump like the Warman® DWU, up to three slurry pumps need to be sourced, installed, and maintained just to pump the dirty water as far as a single Warman® DWU pump can. The pump utilises a new high-pressure casing to withstand pressures up to 7,000kPa, enabling it to pump operating at maximum speed and achieve a head of 140m at the best efficiency point.
“This results in a lower Total Ownership Cost (TOC) and reduced downtime for the customer while providing them with increased efficiency and energy savings over using slurry pumps in the same application,” Koorts summaries.
Pumping Dirty Water with a Warman® DWU Pump
The Warman® DWU pump provides a simple solution to a fluid transfer problem that can quickly affect an entire operation. By making use of the latest Warman® WBH® mechanical end design, customers benefit from 90% common component interchangeability, allowing them to reduce stockholding of spares. In addition, the Warman® DWU pump is available with either an electric or diesel motor and can be mounted on either a pontoon, skid, or trailer, which provides sites with the flexibility to move the pump around to where it’s needed.
“Pontoon mounting an electric DWU pump allows for series pumping at base level or stage pumping out of an
open pit,” explains Koorts, “With Weir Minerals’ dewatering expertise we’re able to engineer a complete solution
that places the suction end of the pumps into the water, while the pump and motor are mounted at an angle above
the water line. This keeps the suction end of the pump submerged and eliminates suction problems. With a diesel
driven pump, we install a vacuum assisted priming system that reprimes the pump when needed. Essentially,
customers can set and forget.”
Image: Warman® DWU pump installed on site. Image Credit: Weir Minerals.
The Warman® DWU pump provides a flexible dewatering solution to sites, not only in the portability around site,
but in the range of fluids the pump is built to handle. In the nine years the pump has been on the market, Weir
Minerals engineers have continued to improve the DWU’s capabilities. Although designed to handle dirty water,
the Warman® DWU pump is also able to process clean water with 78% efficiency, and the addition of a stainlesssteel
casing means the DWU pump is now suitable for highly acidic applications (pH >2).
The Warman® DWU is the ideal solution for dewatering applications where other pumps fail due to the presence of
solid particles. With its robust design compared to the standard dewatering range, and its higher efficiencies and
head compared to conventional slurry pumps, the Warman® DWU pump is in a class of its own.
About Weir Minerals
Weir Minerals employs more than 8,900 people worldwide, delivering end-to-end solutions for all mining,
dewatering, transportation, milling, processing and waste management activities. Weir Minerals has an advanced
product range incorporating brands such as Warman® centrifugal slurry pumps, GEHO® PD slurry pumps,
Linatex® rubber products, Vulco® wear resistant linings, Cavex® hydrocyclones, Trio® crushers and screens,
Enduron® comminution equipment, , Isogate® slurry valves, Multiflo® mine dewatering solutions, , and Lewis®
Pumps— covering virtually any application, in any environment. The Weir Minerals global network ensures they
are close to their customer wherever they may base their local operations.
For more information, visit www.global.weir.