ASK AN EXPERT
The pump industry relies on expertise from a large and varied range of specialists, from experts in particular pump types to those with an intimate understanding of pump reliability; and from researchers who delve into the particulars of pump curves to experts in pump efficiency. To draw upon the wealth of expert knowledge the Australian pump industry has to offer, Pump Industry has established a panel of experts to answer all your pumping questions.
As energy costs are rising globally, increasing operations efficiency of wastewater treatment plants gains importance. This edition of Ask an Expert will look at the first automated progressive cavity pump in the world. The award-winning new technology enhances process efficiency, extends rotor and stator life and considerably reduces TCO. Q. What makes this new pump solution special?
A: It is the world’s first automated and digital progressive cavity pump. Through digital monitoring and an innovative new design, the pump can analyse itself and adjust the operating point of its conveying elements in an automated manner. The design incorporates a retensioning device, which automatically adjusts the rotor-stator clamping, quite simply from a distance with a click of a button. In this easy and more importantly, highly precise, repeatable way, the pump flow rate is always kept at the optimum operating point. A novelty in our industry.
cavities formed by rotor and stator. It directly affects important parameters such as flow, energy consumption, wear or lifetime. However, the ideal clamping is highly dependent on nonstatic parameters such as temperature, pressure or properties of the conveying medium (e.g. dry solid content) and unavoidable wear. Hence, the knowledge of the exact operating conditions by digital monitoring and the possibility to account for them by an automated adjustment of rotor-stator clamping offers a huge potential in terms of increased lifetime, less consumption of energy and resources, increased process safety and minimised operating cost.
A: The rotor-stator clamping directly influences the pump’s performance as it defines the sealing of the oscillating
A: Technically, the pump design includes a hydraulic control unit and adjustment segments, which apply pressure on the stator resulting in a given rotor-stator clamping and sealing,
Q. Why is it important and economically worthwhile to adjust the rotor-stator clamping?
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Q. How does this technology work?
pump industry | Autumn 2022 | Issue 39
respectively. Through the mechanical design and control, the pump can adjust the rotor-stator clamping to the optimal operating point in an automated manner. The control and hydraulic unit regulates the clamping and allows connection to SCADA or the pump monitor. Additionally, digital monitoring and cloud services enable remote adjustment to optimise pump efficiency, and with advanced analytics, the implementation of predictive and forward-planned maintenance.
Q. What does the operator have to do?
A: A remote click from the control room or a touch on the on-site pump monitor or tablet is all it takes to adjust the stator clamping so that the pump performance is always top-notch. Special tools are no longer required. The service technician responsible can easily make all changes via the control room.
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