Physico-Mathematical Simulation of a Homogeneous Thermal Field of Multichannel Raster Matrixes for Sensors of Oxygen

Physico-Mathematical Simulation of a Homogeneous Thermal Field of Multichannel Raster Matrixes for Sensors of Oxygen

In the paper, an opportunity for the development of multichannel transcutaneous raster matrixes for sensors of oxygen on the basis of an electrochemical cell sensor is described. An analysis of the influence of heat sources on the distribution of the temperature pattern of a raster matrix for sensor...

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Main Authors: Vitalij Kotovskyi, Yurii Dzhezherya, Aleksandr Dovzhenko, Nikolaj Višniakov, Andžela Šešok
Format: Article
Language:English
Published: MDPI AG 2015-01-01
Series:Sensors
Subjects:
oxygenometry
electrochemical cell sensor
Online Access:http://www.mdpi.com/1424-8220/15/1/1404
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spelling doaj-8d97a06a27094bd1b7a15bfe238cefc42020-11-24T21:06:41ZengMDPI AGSensors1424-82202015-01-011511404141610.3390/s150101404s150101404Physico-Mathematical Simulation of a Homogeneous Thermal Field of Multichannel Raster Matrixes for Sensors of OxygenVitalij Kotovskyi0Yurii Dzhezherya1Aleksandr Dovzhenko2Nikolaj Višniakov3Andžela Šešok4Department of Applied Physics, National Technical University of Ukraine "KPI", Peremogy av. 37, 03224 Kiev, UkraineDepartment of Applied Physics, National Technical University of Ukraine "KPI", Peremogy av. 37, 03224 Kiev, UkraineDepartment of Applied Physics, National Technical University of Ukraine "KPI", Peremogy av. 37, 03224 Kiev, UkraineDepartment of Materials Science and Welding, Vilnius Gediminas Technical University, J. Basanavičiaus str. 28, LT-03221 Vilnius, LithuaniaDepartment of Biomechanics, Vilnius Gediminas Technical University, J. Basanavičiaus str. 28, LT-03221 Vilnius, LithuaniaIn the paper, an opportunity for the development of multichannel transcutaneous raster matrixes for sensors of oxygen on the basis of an electrochemical cell sensor is described. An analysis of the influence of heat sources on the distribution of the temperature pattern of a raster matrix for sensors of oxygen had been carried out, and their optimum configuration had been found. The application of such matrixes will enable one to obtain information about the distribution of the partial pressure of oxygen from the skin cover of the object of research in dynamics, to assess its functional health pattern in a more comprehensive way and to control the effect of possible remedial actions.http://www.mdpi.com/1424-8220/15/1/1404oxygenometryelectrochemical cell sensor
collection DOAJ
language English
format Article
sources DOAJ
author Vitalij Kotovskyi
Yurii Dzhezherya
Aleksandr Dovzhenko
Nikolaj Višniakov
Andžela Šešok
spellingShingle Vitalij Kotovskyi
Yurii Dzhezherya
Aleksandr Dovzhenko
Nikolaj Višniakov
Andžela Šešok
Physico-Mathematical Simulation of a Homogeneous Thermal Field of Multichannel Raster Matrixes for Sensors of Oxygen
Sensors
oxygenometry
electrochemical cell sensor
author_facet Vitalij Kotovskyi
Yurii Dzhezherya
Aleksandr Dovzhenko
Nikolaj Višniakov
Andžela Šešok
author_sort Vitalij Kotovskyi
title Physico-Mathematical Simulation of a Homogeneous Thermal Field of Multichannel Raster Matrixes for Sensors of Oxygen
title_short Physico-Mathematical Simulation of a Homogeneous Thermal Field of Multichannel Raster Matrixes for Sensors of Oxygen
title_full Physico-Mathematical Simulation of a Homogeneous Thermal Field of Multichannel Raster Matrixes for Sensors of Oxygen
title_fullStr Physico-Mathematical Simulation of a Homogeneous Thermal Field of Multichannel Raster Matrixes for Sensors of Oxygen
title_full_unstemmed Physico-Mathematical Simulation of a Homogeneous Thermal Field of Multichannel Raster Matrixes for Sensors of Oxygen
title_sort physico-mathematical simulation of a homogeneous thermal field of multichannel raster matrixes for sensors of oxygen
publisher MDPI AG
series Sensors
issn 1424-8220
publishDate 2015-01-01
description In the paper, an opportunity for the development of multichannel transcutaneous raster matrixes for sensors of oxygen on the basis of an electrochemical cell sensor is described. An analysis of the influence of heat sources on the distribution of the temperature pattern of a raster matrix for sensors of oxygen had been carried out, and their optimum configuration had been found. The application of such matrixes will enable one to obtain information about the distribution of the partial pressure of oxygen from the skin cover of the object of research in dynamics, to assess its functional health pattern in a more comprehensive way and to control the effect of possible remedial actions.
topic oxygenometry
electrochemical cell sensor
url http://www.mdpi.com/1424-8220/15/1/1404
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