Miniature 3D-Printed Centrifugal Pump with Non-Contact Electromagnetic Actuation

Miniature 3D-Printed Centrifugal Pump with Non-Contact Electromagnetic Actuation

We present a miniature 3D-printed dynamic pump using the centrifugal operating principle. Dynamic pumps typically yield higher flow rates than displacement pumps at reasonable output pressure. Realizing smaller devices suitable for millifluidic and microfluidic applications brings challenges in term...

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Bibliographic Details
Main Authors: Luca Joswig, Michael J. Vellekoop, Frieder Lucklum
Format: Article
Language:English
Published: MDPI AG 2019-09-01
Series:Micromachines
Subjects:
3D-printed pump
centrifugal pump
electromagnetic actuation
integrated magnets
Online Access:https://www.mdpi.com/2072-666X/10/10/631
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spelling doaj-01bcb970c5974299ad5f334644fd72322020-11-25T02:07:49ZengMDPI AGMicromachines2072-666X2019-09-01101063110.3390/mi10100631mi10100631Miniature 3D-Printed Centrifugal Pump with Non-Contact Electromagnetic ActuationLuca Joswig0Michael J. Vellekoop1Frieder Lucklum2Institute for Microsensors, Actuators and Systems (IMSAS), Microsystems Center Bremen (MCB), University of Bremen, D-28359 Bremen, GermanyInstitute for Microsensors, Actuators and Systems (IMSAS), Microsystems Center Bremen (MCB), University of Bremen, D-28359 Bremen, GermanyInstitute for Microsensors, Actuators and Systems (IMSAS), Microsystems Center Bremen (MCB), University of Bremen, D-28359 Bremen, GermanyWe present a miniature 3D-printed dynamic pump using the centrifugal operating principle. Dynamic pumps typically yield higher flow rates than displacement pumps at reasonable output pressure. Realizing smaller devices suitable for millifluidic and microfluidic applications brings challenges in terms of design, fabrication and actuation. By using microstereolithography printing we have reduced the overall size to an effective pumping volume of 2.58 mL. The free-moving rotor consists of an impeller and permanent magnets embedded during the printing process, which allow for non-contact electromagnetic actuation. The pump is driven by periodically switching the current through stator coils, controlled by a custom built circuit using a Hall effect sensor. It achieves a maximum flow rate of 124 mL/min and a hydrostatic pressure of up to 2400 Pa.https://www.mdpi.com/2072-666X/10/10/6313D-printed pumpcentrifugal pumpelectromagnetic actuationintegrated magnets
collection DOAJ
language English
format Article
sources DOAJ
author Luca Joswig
Michael J. Vellekoop
Frieder Lucklum
spellingShingle Luca Joswig
Michael J. Vellekoop
Frieder Lucklum
Miniature 3D-Printed Centrifugal Pump with Non-Contact Electromagnetic Actuation
Micromachines
3D-printed pump
centrifugal pump
electromagnetic actuation
integrated magnets
author_facet Luca Joswig
Michael J. Vellekoop
Frieder Lucklum
author_sort Luca Joswig
title Miniature 3D-Printed Centrifugal Pump with Non-Contact Electromagnetic Actuation
title_short Miniature 3D-Printed Centrifugal Pump with Non-Contact Electromagnetic Actuation
title_full Miniature 3D-Printed Centrifugal Pump with Non-Contact Electromagnetic Actuation
title_fullStr Miniature 3D-Printed Centrifugal Pump with Non-Contact Electromagnetic Actuation
title_full_unstemmed Miniature 3D-Printed Centrifugal Pump with Non-Contact Electromagnetic Actuation
title_sort miniature 3d-printed centrifugal pump with non-contact electromagnetic actuation
publisher MDPI AG
series Micromachines
issn 2072-666X
publishDate 2019-09-01
description We present a miniature 3D-printed dynamic pump using the centrifugal operating principle. Dynamic pumps typically yield higher flow rates than displacement pumps at reasonable output pressure. Realizing smaller devices suitable for millifluidic and microfluidic applications brings challenges in terms of design, fabrication and actuation. By using microstereolithography printing we have reduced the overall size to an effective pumping volume of 2.58 mL. The free-moving rotor consists of an impeller and permanent magnets embedded during the printing process, which allow for non-contact electromagnetic actuation. The pump is driven by periodically switching the current through stator coils, controlled by a custom built circuit using a Hall effect sensor. It achieves a maximum flow rate of 124 mL/min and a hydrostatic pressure of up to 2400 Pa.
topic 3D-printed pump
centrifugal pump
electromagnetic actuation
integrated magnets
url https://www.mdpi.com/2072-666X/10/10/631
work_keys_str_mv AT lucajoswig miniature3dprintedcentrifugalpumpwithnoncontactelectromagneticactuation
AT michaeljvellekoop miniature3dprintedcentrifugalpumpwithnoncontactelectromagneticactuation
AT friederlucklum miniature3dprintedcentrifugalpumpwithnoncontactelectromagneticactuation
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