An experimental setup for traceable measurement and calibration of liquid flow rates down to 5 nl/min

Martin Ahrens; Bodo Nestler; Stephan Klein; Peter Lucas; Harm Tido Petter; Christian Damiani

doi:10.1515/bmt-2014-0153

An experimental setup for traceable measurement and calibration of liquid flow rates down to 5 nl/min

Martin Ahrens, Bodo Nestler, Stephan Klein, Peter Lucas, Harm Tido Petter, Christian Damiani^*

^*Korrespondierende/r Autor/-in für diese Arbeit

Institut für Biomedizinische Optik

Technische Hochschule Lübeck

18 Zitate (Scopus)

Abstract

This work presents the improvements of an experimental setup for measuring ultra-low flow rates down to 5 nl/min. The system uses a telecentric CCD imaging system mounted on a high-precision, computer-controlled linear stage to track a moving liquid meniscus inside a glass capillary. Compared to the original setup, the lowest attainable expanded uncertainty at any flow rate has been reduced from 5.4% to 2%. In addition, the conformity with specification of three commercial micro-fluidic devices was evaluated using the new setup: one syringe pump, one implantable infusion pump and one thermal flow sensor. The flow sensor and the implantable infusion pump met the compliance criteria (coverage probability 95%). The syringe pump however, failed to meet the specifications at 5 nl/min and 10 nl/min. No assessment could be made at higher flow rates.

Originalsprache	Englisch
Zeitschrift	Biomedizinische Technik
Jahrgang	60
Ausgabenummer	4
Seiten (von - bis)	337-345
Seitenumfang	9
ISSN	0013-5585
DOIs	https://doi.org/10.1515/bmt-2014-0153
Publikationsstatus	Veröffentlicht - 01.08.2015

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abstract = "This work presents the improvements of an experimental setup for measuring ultra-low flow rates down to 5 nl/min. The system uses a telecentric CCD imaging system mounted on a high-precision, computer-controlled linear stage to track a moving liquid meniscus inside a glass capillary. Compared to the original setup, the lowest attainable expanded uncertainty at any flow rate has been reduced from 5.4\% to 2\%. In addition, the conformity with specification of three commercial micro-fluidic devices was evaluated using the new setup: one syringe pump, one implantable infusion pump and one thermal flow sensor. The flow sensor and the implantable infusion pump met the compliance criteria (coverage probability 95\%). The syringe pump however, failed to meet the specifications at 5 nl/min and 10 nl/min. No assessment could be made at higher flow rates.",

author = "Martin Ahrens and Bodo Nestler and Stephan Klein and Peter Lucas and Petter, \{Harm Tido\} and Christian Damiani",

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AU - Ahrens, Martin

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AU - Klein, Stephan

AU - Lucas, Peter

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AU - Damiani, Christian

PY - 2015/8/1

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AB - This work presents the improvements of an experimental setup for measuring ultra-low flow rates down to 5 nl/min. The system uses a telecentric CCD imaging system mounted on a high-precision, computer-controlled linear stage to track a moving liquid meniscus inside a glass capillary. Compared to the original setup, the lowest attainable expanded uncertainty at any flow rate has been reduced from 5.4% to 2%. In addition, the conformity with specification of three commercial micro-fluidic devices was evaluated using the new setup: one syringe pump, one implantable infusion pump and one thermal flow sensor. The flow sensor and the implantable infusion pump met the compliance criteria (coverage probability 95%). The syringe pump however, failed to meet the specifications at 5 nl/min and 10 nl/min. No assessment could be made at higher flow rates.

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An experimental setup for traceable measurement and calibration of liquid flow rates down to 5 nl/min

Abstract

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