High Precision Vibration-Type Densitometers Based on Pulsed Excitation Measurements

Andreas Rechberger; Robert Amsüss; Stefan Rossegger; Robert Breidler; Gerald Steiner

doi:10.3390/s19071627

High Precision Vibration-Type Densitometers Based on Pulsed Excitation Measurements

Andreas Rechberger, Robert Amsüss, Stefan Rossegger, Robert Breidler, Gerald Steiner

Research output: Contribution to journal › Article › peer-review

Abstract

Glass flexural resonators have established themselves as one of the de-facto standard methods for measuring the density of liquids in a laboratory environment. The core of this sensor is a U-Tube measuring cell whose oscillator’s resonance frequency changes with the mass of the liquid within the tube. This relationship can be used to derive the density of liquids in a fast and reliable way. In order to achieve the highest accuracy for the density measurement multiple physical effects (e.g., damping due to viscosity effects) need to be taken into account. For a reliable correction, additional measurements are required. The pulsed excitation method is able to produce these additional parameters along with a superior measurement performance compared to previous techniques.

Original language	English
Journal	Sensors
Volume	19
Issue number	7
DOIs	https://doi.org/10.3390/s19071627
Publication status	Published - 2019
Externally published	Yes

Keywords

flexural resonator; pulsed excitation; repeated fade-out; density measurement; fluids; viscosity correction

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10.3390/s19071627

https://www.mdpi.com/1424-8220/19/7/1627

Cite this

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title = "High Precision Vibration-Type Densitometers Based on Pulsed Excitation Measurements",

abstract = "Glass flexural resonators have established themselves as one of the de-facto standard methods for measuring the density of liquids in a laboratory environment. The core of this sensor is a U-Tube measuring cell whose oscillator{\textquoteright}s resonance frequency changes with the mass of the liquid within the tube. This relationship can be used to derive the density of liquids in a fast and reliable way. In order to achieve the highest accuracy for the density measurement multiple physical effects (e.g., damping due to viscosity effects) need to be taken into account. For a reliable correction, additional measurements are required. The pulsed excitation method is able to produce these additional parameters along with a superior measurement performance compared to previous techniques.",

keywords = "flexural resonator; pulsed excitation; repeated fade-out; density measurement; fluids; viscosity correction",

author = "Andreas Rechberger and Robert Ams{\"u}ss and Stefan Rossegger and Robert Breidler and Gerald Steiner",

year = "2019",

doi = "10.3390/s19071627",

language = "English",

volume = "19",

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T1 - High Precision Vibration-Type Densitometers Based on Pulsed Excitation Measurements

AU - Rechberger, Andreas

AU - Amsüss, Robert

AU - Rossegger, Stefan

AU - Breidler, Robert

AU - Steiner, Gerald

PY - 2019

Y1 - 2019

N2 - Glass flexural resonators have established themselves as one of the de-facto standard methods for measuring the density of liquids in a laboratory environment. The core of this sensor is a U-Tube measuring cell whose oscillator’s resonance frequency changes with the mass of the liquid within the tube. This relationship can be used to derive the density of liquids in a fast and reliable way. In order to achieve the highest accuracy for the density measurement multiple physical effects (e.g., damping due to viscosity effects) need to be taken into account. For a reliable correction, additional measurements are required. The pulsed excitation method is able to produce these additional parameters along with a superior measurement performance compared to previous techniques.

AB - Glass flexural resonators have established themselves as one of the de-facto standard methods for measuring the density of liquids in a laboratory environment. The core of this sensor is a U-Tube measuring cell whose oscillator’s resonance frequency changes with the mass of the liquid within the tube. This relationship can be used to derive the density of liquids in a fast and reliable way. In order to achieve the highest accuracy for the density measurement multiple physical effects (e.g., damping due to viscosity effects) need to be taken into account. For a reliable correction, additional measurements are required. The pulsed excitation method is able to produce these additional parameters along with a superior measurement performance compared to previous techniques.

KW - flexural resonator; pulsed excitation; repeated fade-out; density measurement; fluids; viscosity correction

U2 - 10.3390/s19071627

DO - 10.3390/s19071627

M3 - Article

SN - 1424-8220

VL - 19

JO - Sensors

JF - Sensors

IS - 7

ER -

High Precision Vibration-Type Densitometers Based on Pulsed Excitation Measurements

Abstract

Keywords

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