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The combination of micro diaphragm pumps and flow sensors for single stroke based liquid flow control

 
: Jenke, Christoph; Rubio, Jaume Pallejà; Kibler, Sebastian; Häfner, Johannes; Richter, Martin; Kutter, Christoph

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Fulltext (PDF; )

Sensors. Online journal 17 (2017), No.4, Art. 755, 19 pp.
http://www.mdpi.com/journal/sensors
ISSN: 1424-8220
ISSN: 1424-8239
Bundesministerium für Bildung und Forschung BMBF
16SV5862; MIKROAUG
English
Journal Article, Electronic Publication
Fraunhofer EMFT ()
micropump; flow sensor; flow control; single stroke; sensor velocity; differential pressure based flow sensor; thermal flow sensor; damping

Abstract
With the combination of micropumps and flow sensors, highly accurate and secure closed-loop controlled micro dosing systems for liquids are possible. Implementing a single stroke based control mode with piezoelectrically driven micro diaphragm pumps can provide a solution for dosing of volumes down to nanoliters or variable average flow rates in the range of nL/min to μL/min. However, sensor technologies feature a yet undetermined accuracy for measuring highly pulsatile micropump flow. Two miniaturizable in-line sensor types providing electrical readout differential pressure based flow sensors and thermal calorimetric flow sensors are evaluated for their suitability of combining them with mircopumps. Single stroke based calibration of the sensors was carried out with a new method, com paring displacement volumes and sensor flow volumes. Limitations of accuracy and performance for single stroke based flow control are described. Results showed that besides particle robustness of sensors, controlling resistive and capacitive damping are key aspects for setting up reproducible and reliable liquid dosing systems. Depending on the required average flow or defined volume, dosing systems with an accuracy of better than 5% for the differential pressure based sensor and better than 6.5% for the thermal calorimeter were achieved.

: http://publica.fraunhofer.de/documents/N-473673.html