Surface Heat Transfer Measurement by Immersed Temperature Sensor: Calibration of Sensor depth and material properties

Mirko Javurek; Bernhard Hofmann; Andreas Mittermair

Surface Heat Transfer Measurement by Immersed Temperature Sensor: Calibration of Sensor depth and material properties

Mirko Javurek, Bernhard Hofmann, Andreas Mittermair

Institute of Fluid Mechanics and Heat Transfer

Research output: Chapter in Book/Report/Conference proceeding › Conference proceedings › peer-review

Abstract

A transient surface heating or cooling process of a solid probe is considered using a temperature sensor submersed in the probe. On the basis of this measured temperature the surface temperature and surface heat flux density are calculated by inverse process modelling. For solving this inverse problem the sensor depth as well as the thermal material properties have to be known precisely in order to obtain accurate results. For a high accuracy, the sensor depth has to be as small as possible (ideally some tenth of mm) and thus cannot be determined geometrically with sufficient accuracy during the probe assembly. Thus two calibration procedures to determine (or validate) both sensor depth and material properties of probes before or between heat transfer measurements are presented in this contribution.

Original language	English
Title of host publication	Tagungsband der 6. Tagung Innovationen Messtechnik
Editors	Univ.-Prof. DI Dr. Bernhard Zagar
Place of Publication	Düren, Germany
Publisher	Shaker Verlag
Pages	7-11
Number of pages	5
Volume	6
ISBN (Print)	978-3-8440-6596-1
Publication status	Published - 2019

Publication series

Name	Innovationen Messtechnik

Fields of science

203016 Measurement engineering
203035 Thermal processing technology

Cite this

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title = "Surface Heat Transfer Measurement by Immersed Temperature Sensor: Calibration of Sensor depth and material properties",

abstract = "A transient surface heating or cooling process of a solid probe is considered using a temperature sensor submersed in the probe. On the basis of this measured temperature the surface temperature and surface heat flux density are calculated by inverse process modelling. For solving this inverse problem the sensor depth as well as the thermal material properties have to be known precisely in order to obtain accurate results. For a high accuracy, the sensor depth has to be as small as possible (ideally some tenth of mm) and thus cannot be determined geometrically with sufficient accuracy during the probe assembly. Thus two calibration procedures to determine (or validate) both sensor depth and material properties of probes before or between heat transfer measurements are presented in this contribution.",

author = "Mirko Javurek and Bernhard Hofmann and Andreas Mittermair",

year = "2019",

language = "English",

isbn = "978-3-8440-6596-1",

volume = "6",

series = "Innovationen Messtechnik",

publisher = "Shaker Verlag",

pages = "7--11",

editor = "{Univ.-Prof. DI Dr. Bernhard Zagar}",

booktitle = "Tagungsband der 6. Tagung Innovationen Messtechnik",

}

Surface Heat Transfer Measurement by Immersed Temperature Sensor: Calibration of Sensor depth and material properties. / Javurek, Mirko; Hofmann, Bernhard; Mittermair, Andreas.
Tagungsband der 6. Tagung Innovationen Messtechnik. ed. / Univ.-Prof. DI Dr. Bernhard Zagar. Vol. 6 Düren, Germany: Shaker Verlag, 2019. p. 7-11 (Innovationen Messtechnik).

Research output: Chapter in Book/Report/Conference proceeding › Conference proceedings › peer-review

TY - GEN

T1 - Surface Heat Transfer Measurement by Immersed Temperature Sensor: Calibration of Sensor depth and material properties

AU - Javurek, Mirko

AU - Hofmann, Bernhard

AU - Mittermair, Andreas

PY - 2019

Y1 - 2019

N2 - A transient surface heating or cooling process of a solid probe is considered using a temperature sensor submersed in the probe. On the basis of this measured temperature the surface temperature and surface heat flux density are calculated by inverse process modelling. For solving this inverse problem the sensor depth as well as the thermal material properties have to be known precisely in order to obtain accurate results. For a high accuracy, the sensor depth has to be as small as possible (ideally some tenth of mm) and thus cannot be determined geometrically with sufficient accuracy during the probe assembly. Thus two calibration procedures to determine (or validate) both sensor depth and material properties of probes before or between heat transfer measurements are presented in this contribution.

AB - A transient surface heating or cooling process of a solid probe is considered using a temperature sensor submersed in the probe. On the basis of this measured temperature the surface temperature and surface heat flux density are calculated by inverse process modelling. For solving this inverse problem the sensor depth as well as the thermal material properties have to be known precisely in order to obtain accurate results. For a high accuracy, the sensor depth has to be as small as possible (ideally some tenth of mm) and thus cannot be determined geometrically with sufficient accuracy during the probe assembly. Thus two calibration procedures to determine (or validate) both sensor depth and material properties of probes before or between heat transfer measurements are presented in this contribution.

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M3 - Conference proceedings

SN - 978-3-8440-6596-1

VL - 6

T3 - Innovationen Messtechnik

SP - 7

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BT - Tagungsband der 6. Tagung Innovationen Messtechnik

A2 - Univ.-Prof. DI Dr. Bernhard Zagar, null

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CY - Düren, Germany

ER -

Surface Heat Transfer Measurement by Immersed Temperature Sensor: Calibration of Sensor depth and material properties

Abstract

Publication series

Fields of science

Other files and links

LCM - Center for Symbiotic Mechatronics - Förderphase 1

Cite this

Surface Heat Transfer Measurement by Immersed Temperature Sensor: Calibration of Sensor depth and material properties

Abstract

Publication series

Fields of science

Other files and links

Projects

LCM - Center for Symbiotic Mechatronics - Förderphase 1

Cite this