Development of an Oxygen Pressure Estimator Using the Immersion and Invariance Method for a Particular PEMFC System

Development of an Oxygen Pressure Estimator Using the Immersion and Invariance Method for a Particular PEMFC System

The fault detection method has been used usually to give a diagnosis of the performance and efficiency in the proton exchange membrane fuel cell (PEMFC) systems. To be able to use this method a lot of sensors are implemented in the PEMFC to measure different parameters like pressure, temperature, vo...

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Main Authors: Ángel Hernández-Gómez, Victor Ramirez, Belem Saldivar
Format: Article
Language:English
Published: MDPI AG 2020-09-01
Series:Processes
Subjects:
estimator development
Lyapunov’s Theorem application
non-linear system
PEMFC system
sensor replacement
Online Access:https://www.mdpi.com/2227-9717/8/9/1095
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spelling doaj-705da9dcadff4fa39106490aef2fd4be2020-11-25T02:30:49ZengMDPI AGProcesses2227-97172020-09-0181095109510.3390/pr8091095Development of an Oxygen Pressure Estimator Using the Immersion and Invariance Method for a Particular PEMFC SystemÁngel Hernández-Gómez0Victor Ramirez1Belem Saldivar2Department of Renewable Energy, Centro de Investigación Científica de Yucatán (CICY), Yucatán P.C. 97205, MexicoDepartment of Renewable Energy, Centro de Investigación Científica de Yucatán (CICY), Yucatán P.C. 97205, MexicoCátedras CONACYT, Ciudad de México P.C. 03940, MexicoThe fault detection method has been used usually to give a diagnosis of the performance and efficiency in the proton exchange membrane fuel cell (PEMFC) systems. To be able to use this method a lot of sensors are implemented in the PEMFC to measure different parameters like pressure, temperature, voltage, and electrical current. However, despite the high reliability of the sensors, they can fail or give erroneous measurements. To address this problem, an efficient solution to replace the sensors must be found. For this reason, in this work, the immersion and invariance method is proposed to develop an oxygen pressure estimator based on the voltage, electrical current density, and temperature measurements. The estimator stability region is calculated by applying Lyapunov’s Theorem and constraints to achieve stability are established for the oxygen pressure, electrical current density, and temperature. Under these estimator requirements, oxygen pressure measurements of high reliability are obtained to fault diagnosis without the need to use an oxygen sensor.https://www.mdpi.com/2227-9717/8/9/1095estimator developmentLyapunov’s Theorem applicationnon-linear systemPEMFC systemsensor replacement
collection DOAJ
language English
format Article
sources DOAJ
author Ángel Hernández-Gómez
Victor Ramirez
Belem Saldivar
spellingShingle Ángel Hernández-Gómez
Victor Ramirez
Belem Saldivar
Development of an Oxygen Pressure Estimator Using the Immersion and Invariance Method for a Particular PEMFC System
Processes
estimator development
Lyapunov’s Theorem application
non-linear system
PEMFC system
sensor replacement
author_facet Ángel Hernández-Gómez
Victor Ramirez
Belem Saldivar
author_sort Ángel Hernández-Gómez
title Development of an Oxygen Pressure Estimator Using the Immersion and Invariance Method for a Particular PEMFC System
title_short Development of an Oxygen Pressure Estimator Using the Immersion and Invariance Method for a Particular PEMFC System
title_full Development of an Oxygen Pressure Estimator Using the Immersion and Invariance Method for a Particular PEMFC System
title_fullStr Development of an Oxygen Pressure Estimator Using the Immersion and Invariance Method for a Particular PEMFC System
title_full_unstemmed Development of an Oxygen Pressure Estimator Using the Immersion and Invariance Method for a Particular PEMFC System
title_sort development of an oxygen pressure estimator using the immersion and invariance method for a particular pemfc system
publisher MDPI AG
series Processes
issn 2227-9717
publishDate 2020-09-01
description The fault detection method has been used usually to give a diagnosis of the performance and efficiency in the proton exchange membrane fuel cell (PEMFC) systems. To be able to use this method a lot of sensors are implemented in the PEMFC to measure different parameters like pressure, temperature, voltage, and electrical current. However, despite the high reliability of the sensors, they can fail or give erroneous measurements. To address this problem, an efficient solution to replace the sensors must be found. For this reason, in this work, the immersion and invariance method is proposed to develop an oxygen pressure estimator based on the voltage, electrical current density, and temperature measurements. The estimator stability region is calculated by applying Lyapunov’s Theorem and constraints to achieve stability are established for the oxygen pressure, electrical current density, and temperature. Under these estimator requirements, oxygen pressure measurements of high reliability are obtained to fault diagnosis without the need to use an oxygen sensor.
topic estimator development
Lyapunov’s Theorem application
non-linear system
PEMFC system
sensor replacement
url https://www.mdpi.com/2227-9717/8/9/1095
work_keys_str_mv AT angelhernandezgomez developmentofanoxygenpressureestimatorusingtheimmersionandinvariancemethodforaparticularpemfcsystem
AT victorramirez developmentofanoxygenpressureestimatorusingtheimmersionandinvariancemethodforaparticularpemfcsystem
AT belemsaldivar developmentofanoxygenpressureestimatorusingtheimmersionandinvariancemethodforaparticularpemfcsystem
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