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Vogelsang launches new HiCone progressive cavity pump from freeamfva's blog

Vogelsang launches new HiCone progressive cavity pump The conical shape of the HiCone's rotor and stator, combined with an innovative setting system, saves energy and significantly extends the service life.To get more news about bryson pump, you can visit brysonpump.com official website. “With the HiCone, we are once again setting new standards for progressive cavity pumps,” said Rainer Zobel, director Sales EU Biogas, Industry and Wastewater at Vogelsang. “We have met the demands of our customers for reduced life-cycle costs and longer service times with the further development of our technology.” If a gap arises between the rotor and stator due to wear in operation, the capacity drops. Whereas with conventional progressing cavity pumps, this often means a sudden drastic fall in the pump performance and the replacement of the rotor and stator, the HiCone solves this with axial readjustment of the rotor. The conical shape ensures the gap is regulated. As a result, the pump is back to its original condition and the pumping capacity returns to 100%. Instead of the costly and time-consuming changing of parts, there is a quick and easy adjustment during ongoing operation. Combined with Vogelsang’s integrated QuickService concept, this means significantly reduced life-cycle costs for the user and higher pump availability, since there are no elaborate service deployments. If replacement is necessary, the rotor-stator unit is swung out and can then be renewed either as a unit or individually. A wear-resistant sleeve, which does not need to be unmounted to change parts, protects the sturdy cardan shaft. With the adjustment system, the rotor and stator can be optimally positioned to each other according to operating parameters like pressure, temperature and viscosity. This results in lower power consumption, which reduces the electricity requirement. Wear is also reduced at the same time. The HiCone’s automatic start-up also saves power. The minimal clamping between the rotor and stator means that a smaller motor is needed to ramp up the pump than in conventional progressive cavity pumps, which reduces the power requirement when starting the pump to a minimum. This increases the energy efficiency and reduces the costs for power electronics. The result is lower electricity costs and reduced procurement expense for users. The start-up process is fully automatic without the need for additional control. The clamping between the rotor and stator can be adjusted during the entire service life at the touch of a button or at the click of a mouse from the control room. Users can also view the status of the pumping elements in a real-time display. As a result, instead of being surprised by a sudden failure, they receive continuous information and can plan parts changes in advance.

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