Analysis and optimization of a thermal sensor system for measuring water flow

Aleksić, Obrad S.; Nikolić, Maria Vesna; Luković, Miloljub D.; Aleksić, S.; Nikolić, Pantelija M.

doi:10.1016/j.sna.2013.07.035

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2013

Authors

Aleksić, Obrad S.
Nikolić, Maria Vesna

Luković, Miloljub D.

Aleksić, S.
Nikolić, Pantelija M.

Article (Published version)

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Abstract

A simple thermal sensor system was designed for measuring water flow in the water mains using the heat loss principle with a NTC thick film segmented thermistor as a self-heating sensor. Thick film segmented thermistors were screen printed on alumina substrate. NTC thermistor paste was formed of very fine Cu0.2Ni0.5Zn1.0Mn1.3O4 powder obtained by a combined mechanical activation/thermal treatment process, an organic vehicle and glass frit. The thermal sensor system was analyzed in the static and dynamic regime. A range constant voltage power supply was defined in the range 9–19 V for input water temperatures of 30–2 °C, maintaining a supply voltage in steps of 2 V for a change in 5 °C of input water temperature. This enables optimal operating power, i.e. heat generation on the self-heating thermistor. Measured calibration curves for different input water temperatures and input water flow rates were modeled, enabling interpolation of additional calculated curves to cover a wide range of...

Keywords:

thermistors / thick film devices / water flow / thermal sensors

Source:
Sensors and Actuators A: Physical, 2013, 201, 371-376

Publisher:

Elsevier

Projects:

Zero- to Three-Dimensional Nanostructures for Application in Electronics and Renewable Energy Sources: Synthesis, Characterization and Processing (RS-45007)

DOI: 10.1016/j.sna.2013.07.035

ISSN: 0924-4247

WoS: 000325836400048

Scopus: 2-s2.0-84883386503

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	9
	8

TY  - JOUR
AU  - Aleksić, Obrad S.
AU  - Nikolić, Maria Vesna
AU  - Luković, Miloljub D.
AU  - Aleksić, S.
AU  - Nikolić, Pantelija M.
PY  - 2013
UR  - http://dais.sanu.ac.rs/123456789/340
AB  - A simple thermal sensor system was designed for measuring water flow in the water mains using the heat loss principle with a NTC thick film segmented thermistor as a self-heating sensor. Thick film segmented thermistors were screen printed on alumina substrate. NTC thermistor paste was formed of very fine Cu0.2Ni0.5Zn1.0Mn1.3O4 powder obtained by a combined mechanical activation/thermal treatment process, an organic vehicle and glass frit. The thermal sensor system was analyzed in the static and dynamic regime. A range constant voltage power supply was defined in the range 9–19 V for input water temperatures of 30–2 °C, maintaining a supply voltage in steps of 2 V for a change in 5 °C of input water temperature. This enables optimal operating power, i.e. heat generation on the self-heating thermistor. Measured calibration curves for different input water temperatures and input water flow rates were modeled, enabling interpolation of additional calculated curves to cover a wide range of input water temperatures.
PB  - Elsevier
T2  - Sensors and Actuators A: Physical
T1  - Analysis and optimization of a thermal sensor system for measuring water flow
SP  - 371
EP  - 376
VL  - 201
DO  - 10.1016/j.sna.2013.07.035
ER  -

@article{
author = "Aleksić, Obrad S. and Nikolić, Maria Vesna and Luković, Miloljub D. and Aleksić, S. and Nikolić, Pantelija M.",
year = "2013",
url = "http://dais.sanu.ac.rs/123456789/340",
abstract = "A simple thermal sensor system was designed for measuring water flow in the water mains using the heat loss principle with a NTC thick film segmented thermistor as a self-heating sensor. Thick film segmented thermistors were screen printed on alumina substrate. NTC thermistor paste was formed of very fine Cu0.2Ni0.5Zn1.0Mn1.3O4 powder obtained by a combined mechanical activation/thermal treatment process, an organic vehicle and glass frit. The thermal sensor system was analyzed in the static and dynamic regime. A range constant voltage power supply was defined in the range 9–19 V for input water temperatures of 30–2 °C, maintaining a supply voltage in steps of 2 V for a change in 5 °C of input water temperature. This enables optimal operating power, i.e. heat generation on the self-heating thermistor. Measured calibration curves for different input water temperatures and input water flow rates were modeled, enabling interpolation of additional calculated curves to cover a wide range of input water temperatures.",
publisher = "Elsevier",
journal = "Sensors and Actuators A: Physical",
title = "Analysis and optimization of a thermal sensor system for measuring water flow",
pages = "371-376",
volume = "201",
doi = "10.1016/j.sna.2013.07.035"
}

Aleksić OS, Nikolić MV, Luković MD, Aleksić S, Nikolić PM. Analysis and optimization of a thermal sensor system for measuring water flow. Sensors and Actuators A: Physical. 2013;201:371-376

Aleksić, O. S., Nikolić, M. V., Luković, M. D., Aleksić, S.,& Nikolić, P. M. (2013). Analysis and optimization of a thermal sensor system for measuring water flow.
Sensors and Actuators A: PhysicalElsevier., 201, 371-376.
https://doi.org/10.1016/j.sna.2013.07.035

Aleksić Obrad S., Nikolić Maria Vesna, Luković Miloljub D., Aleksić S., Nikolić Pantelija M., "Analysis and optimization of a thermal sensor system for measuring water flow" 201 (2013):371-376,
https://doi.org/10.1016/j.sna.2013.07.035 .