Determination of the mixing ratio of a flowing gas mixture with self-actuated microcantilevers

Determination of the mixing ratio of a flowing gas mixture with self-actuated microcantilevers

<p>Microcantilevers offer a wide range of applications in sensor and measurement technology. In this work cantilever sensors are used as flow sensors. Most conventional flow sensors are often only calibrated for one type of gas and allow an analysis of gas mixtures only with increased effort....

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Main Authors: J. Stauffenberg, S. Durstewitz, M. Hofmann, T. Ivanov, M. Holz, W. Ehrhardt, W.-U. Riegel, J.-P. Zöllner, E. Manske, I. Rangelow
Format: Article
Language:English
Published: Copernicus Publications 2020-02-01
Series:Journal of Sensors and Sensor Systems
Online Access:https://www.j-sens-sens-syst.net/9/71/2020/jsss-9-71-2020.pdf
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spelling doaj-74e0419aa8f045499510ca1cbede299f2020-11-25T02:09:55ZengCopernicus PublicationsJournal of Sensors and Sensor Systems2194-87712194-878X2020-02-019717810.5194/jsss-9-71-2020Determination of the mixing ratio of a flowing gas mixture with self-actuated microcantileversJ. Stauffenberg0S. Durstewitz1M. Hofmann2T. Ivanov3M. Holz4W. Ehrhardt5W.-U. Riegel6J.-P. Zöllner7E. Manske8I. Rangelow9Fachgebiet Fertigungs- und Präzisionsmesstechnik, Technische Universität Ilmenau, Gustav-Kirchoff-Str. 1, 98693 Ilmenau, GermanyFachgebiet Mikro- und nanoelektronische Systeme, Technische Universität Ilmenau, Gustav-Kirchoff-Str. 1, 98693 Ilmenau, GermanyFachgebiet Mikro- und nanoelektronische Systeme, Technische Universität Ilmenau, Gustav-Kirchoff-Str. 1, 98693 Ilmenau, GermanyFachgebiet Mikro- und nanoelektronische Systeme, Technische Universität Ilmenau, Gustav-Kirchoff-Str. 1, 98693 Ilmenau, GermanyFachgebiet Mikro- und nanoelektronische Systeme, Technische Universität Ilmenau, Gustav-Kirchoff-Str. 1, 98693 Ilmenau, GermanyElectronic & Sensors, Am Vogelherd 10 (Tor 1), 98693 Ilmenau, GermanyETG – Entwicklungs- und Technologie Gesellschaft mbH, Am Eichicht 1A, 98693 Ilmenau, GermanyFachgebiet Mikro- und nanoelektronische Systeme, Technische Universität Ilmenau, Gustav-Kirchoff-Str. 1, 98693 Ilmenau, GermanyFachgebiet Fertigungs- und Präzisionsmesstechnik, Technische Universität Ilmenau, Gustav-Kirchoff-Str. 1, 98693 Ilmenau, GermanyFachgebiet Mikro- und nanoelektronische Systeme, Technische Universität Ilmenau, Gustav-Kirchoff-Str. 1, 98693 Ilmenau, Germany<p>Microcantilevers offer a wide range of applications in sensor and measurement technology. In this work cantilever sensors are used as flow sensors. Most conventional flow sensors are often only calibrated for one type of gas and allow an analysis of gas mixtures only with increased effort. The sensor used here is a cantilever positioned vertically in the flow channel. It is possible to operate the sensor in dynamic and static mode. In the dynamic mode the cantilever is oscillating. Resonance frequency, resonance amplitude and phase are measured. In static mode, the bending of the cantilever is registered. The combination of the modes enables the different measured variables to be determined simultaneously. A flow influences the movement behaviour of the sensor, which allows the flow velocity to be deduced. In addition to determining the flow velocity, it is also possible to detect different types of gas. Each medium has certain properties (density and viscosity) which have different effects on the bending of the sensor. As a result, it is possible to measure the mixing ratio of a known binary gas mixture and their flow velocity simultaneously with a single sensor. In this paper this is investigated using the example of the air–carbon-dioxide mixture.</p>https://www.j-sens-sens-syst.net/9/71/2020/jsss-9-71-2020.pdf
collection DOAJ
language English
format Article
sources DOAJ
author J. Stauffenberg
S. Durstewitz
M. Hofmann
T. Ivanov
M. Holz
W. Ehrhardt
W.-U. Riegel
J.-P. Zöllner
E. Manske
I. Rangelow
spellingShingle J. Stauffenberg
S. Durstewitz
M. Hofmann
T. Ivanov
M. Holz
W. Ehrhardt
W.-U. Riegel
J.-P. Zöllner
E. Manske
I. Rangelow
Determination of the mixing ratio of a flowing gas mixture with self-actuated microcantilevers
Journal of Sensors and Sensor Systems
author_facet J. Stauffenberg
S. Durstewitz
M. Hofmann
T. Ivanov
M. Holz
W. Ehrhardt
W.-U. Riegel
J.-P. Zöllner
E. Manske
I. Rangelow
author_sort J. Stauffenberg
title Determination of the mixing ratio of a flowing gas mixture with self-actuated microcantilevers
title_short Determination of the mixing ratio of a flowing gas mixture with self-actuated microcantilevers
title_full Determination of the mixing ratio of a flowing gas mixture with self-actuated microcantilevers
title_fullStr Determination of the mixing ratio of a flowing gas mixture with self-actuated microcantilevers
title_full_unstemmed Determination of the mixing ratio of a flowing gas mixture with self-actuated microcantilevers
title_sort determination of the mixing ratio of a flowing gas mixture with self-actuated microcantilevers
publisher Copernicus Publications
series Journal of Sensors and Sensor Systems
issn 2194-8771
2194-878X
publishDate 2020-02-01
description <p>Microcantilevers offer a wide range of applications in sensor and measurement technology. In this work cantilever sensors are used as flow sensors. Most conventional flow sensors are often only calibrated for one type of gas and allow an analysis of gas mixtures only with increased effort. The sensor used here is a cantilever positioned vertically in the flow channel. It is possible to operate the sensor in dynamic and static mode. In the dynamic mode the cantilever is oscillating. Resonance frequency, resonance amplitude and phase are measured. In static mode, the bending of the cantilever is registered. The combination of the modes enables the different measured variables to be determined simultaneously. A flow influences the movement behaviour of the sensor, which allows the flow velocity to be deduced. In addition to determining the flow velocity, it is also possible to detect different types of gas. Each medium has certain properties (density and viscosity) which have different effects on the bending of the sensor. As a result, it is possible to measure the mixing ratio of a known binary gas mixture and their flow velocity simultaneously with a single sensor. In this paper this is investigated using the example of the air–carbon-dioxide mixture.</p>
url https://www.j-sens-sens-syst.net/9/71/2020/jsss-9-71-2020.pdf
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