hero-mediacenter

Media Center

Back to Media Center
evaluation of mechanical stress on an oil-water emulsion system in magnetically levitated single-use centrifugal pumps_cover

Evaluation of Mechanical Stress on an Oil-Water Emulsion System in Magnetically Levitated Single-Use Centrifugal Pumps

Keywords:
  • Biopharma
  • Pump Comparison
  • Peristaltic Pumps
  • 4-Piston Diaphragm Pump
  • Shear Stress
View document

Facts
Peristaltic- and 4-piston diaphragm pumps are based on mechanical contact between moving parts such as tube compression or valve interaction. Mechanical contact between moving parts can generate shear stress, which leads to reduced product yield.
Levitronix® pumps have no mechanical contact between moving parts.

Test conditions
A Levitronix® PuraLev® 200 and 600 MU pump, a peristaltic, and a 4-piston diaphragm pump were evaluated for shear stress created in an oil-water emulsion. A fixed volume was recirculated by each pump at 3.4 and 10 l/min, and at different backpressures. The Sauter diameter, which depends on the shear stress exerted by the pumps was measured.

Results
The PuraLev® MU and SU pumps are characterized by up to 59 % larger Sauter mean diameters than the two other pump types for comparable operational conditions. This indicates that hydrodynamic stress is lower in the PuraLev® MU and SU pumps.

measured-sauter-mean-diameter-d32-of-the-multi-use-and-single-use-centrifugal-pumps-and-the-comparison-peristaltic-and-4-piston-diaphragm-pumps

Measured sauter mean diameter d32 of the multi-use and single-use centrifugal pumps and the comparison peristaltic and 4-piston diaphragm pumps

Author Ina Dietler et. al.
Company ZHAW
Document Number -
Pages 6