A Design for Controllability Methodology for PEM Fuel Cells including the effect of Material Surface Defects on the Dynamic System Performance

Electric power has become indispensable for the development of society. Our quality of life is entirely dependent on the availability of electric energy in the industrial, commercial, and residential sectors. Most of this energy is currently obtained from non-renewable sources (oil, natural gas, and...

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Autores:: Fontalvo Morales, Víctor Manuel

Tipo de recurso:

Fecha de publicación:: 2019

Institución:: Universidad del Norte

Repositorio:: Repositorio Uninorte

Idioma:: eng

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spelling	Gómez Vega, HumbertoSanjuán Mejía, Marco EnriqueFontalvo Morales, Víctor ManuelDoctor en Ingeniería Mecánica2019-07-25T15:39:00Z2019-07-25T15:39:00Z2019http://hdl.handle.net/10584/8602Electric power has become indispensable for the development of society. Our quality of life is entirely dependent on the availability of electric energy in the industrial, commercial, and residential sectors. Most of this energy is currently obtained from non-renewable sources (oil, natural gas, and coal mainly). Unfortunately, the continuous combustion of these fuels has severely impacted the environment due to the continuous emissions of greenhouse gases. Therefore, the need to explore alternative energy sources in a wide array of applications is essential for the sustainability of our way of life. Hydrogen is one of the promising fuels of the future, which would allow a transition to a cleaner generation matrix. Although hydrogen is mostly obtained from reforming of natural gas, different pathways from renewable resources are developed and being researched. Therefore, the study of devices operating with hydrogen contributes to the construction of a sustainable future. Fuel cells are one of the most effective ways to transform hydrogen into electrical power. By definition, a fuel cell is an electrochemical device capable of producing electrical energy from a fuel and an oxidant. For Proton Exchange Membrane (PEM) fuel cells the fuel is hydrogen, which is supplied to the anode, and the oxidant agent is oxygen (or air) supplied to the cathode. In this research, a methodology is developed for the selection of fuel cells materials, considering how their properties influence the cell dynamic response. To achieve this, a test bench was designed and constructed to characterize the PEM fuel cells dynamic response, and laboratory tests were developed to perform defect characterization. Different membrane assemblies were tested to analyze the impact of their properties on the cell settling time, and therefore, determine its effect on the controllability of the system.application/pdfengUniversidad del NorteDoctorado en Ingeniería MecánicaDepartamento de Ingeniería MecánicaProducción de energía eléctricaHidrógeno como combustibleCeldas de combustibleA Design for Controllability Methodology for PEM Fuel Cells including the effect of Material Surface Defects on the Dynamic System PerformancedoctoralThesisacceptedVersionhttp://purl.org/coar/resource_type/c_db06http://purl.org/coar/access_right/c_abf2ORIGINAL136526.pdf136526.pdfapplication/pdf39338315http://172.16.14.36:8080/bitstream/10584/8602/1/136526.pdfe0dd6e51386bf16cf0adac199ecf221dMD51LICENSElicense.txtlicense.txttext/plain; charset=utf-81748http://172.16.14.36:8080/bitstream/10584/8602/2/license.txt8a4605be74aa9ea9d79846c1fba20a33MD5210584/8602oai:172.16.14.36:10584/86022019-07-25 10:39:00.922Repositorio Digital de la Universidad del Nortemauribe@uninorte.edu.co
dc.title.es_ES.fl_str_mv	A Design for Controllability Methodology for PEM Fuel Cells including the effect of Material Surface Defects on the Dynamic System Performance
title	A Design for Controllability Methodology for PEM Fuel Cells including the effect of Material Surface Defects on the Dynamic System Performance
spellingShingle	A Design for Controllability Methodology for PEM Fuel Cells including the effect of Material Surface Defects on the Dynamic System Performance Producción de energía eléctrica Hidrógeno como combustible Celdas de combustible
title_short	A Design for Controllability Methodology for PEM Fuel Cells including the effect of Material Surface Defects on the Dynamic System Performance
title_full	A Design for Controllability Methodology for PEM Fuel Cells including the effect of Material Surface Defects on the Dynamic System Performance
title_fullStr	A Design for Controllability Methodology for PEM Fuel Cells including the effect of Material Surface Defects on the Dynamic System Performance
title_full_unstemmed	A Design for Controllability Methodology for PEM Fuel Cells including the effect of Material Surface Defects on the Dynamic System Performance
title_sort	A Design for Controllability Methodology for PEM Fuel Cells including the effect of Material Surface Defects on the Dynamic System Performance
dc.creator.fl_str_mv	Fontalvo Morales, Víctor Manuel
dc.contributor.advisor.none.fl_str_mv	Gómez Vega, Humberto Sanjuán Mejía, Marco Enrique
dc.contributor.author.none.fl_str_mv	Fontalvo Morales, Víctor Manuel
dc.subject.es_ES.fl_str_mv	Producción de energía eléctrica Hidrógeno como combustible Celdas de combustible
topic	Producción de energía eléctrica Hidrógeno como combustible Celdas de combustible
description	Electric power has become indispensable for the development of society. Our quality of life is entirely dependent on the availability of electric energy in the industrial, commercial, and residential sectors. Most of this energy is currently obtained from non-renewable sources (oil, natural gas, and coal mainly). Unfortunately, the continuous combustion of these fuels has severely impacted the environment due to the continuous emissions of greenhouse gases. Therefore, the need to explore alternative energy sources in a wide array of applications is essential for the sustainability of our way of life. Hydrogen is one of the promising fuels of the future, which would allow a transition to a cleaner generation matrix. Although hydrogen is mostly obtained from reforming of natural gas, different pathways from renewable resources are developed and being researched. Therefore, the study of devices operating with hydrogen contributes to the construction of a sustainable future. Fuel cells are one of the most effective ways to transform hydrogen into electrical power. By definition, a fuel cell is an electrochemical device capable of producing electrical energy from a fuel and an oxidant. For Proton Exchange Membrane (PEM) fuel cells the fuel is hydrogen, which is supplied to the anode, and the oxidant agent is oxygen (or air) supplied to the cathode. In this research, a methodology is developed for the selection of fuel cells materials, considering how their properties influence the cell dynamic response. To achieve this, a test bench was designed and constructed to characterize the PEM fuel cells dynamic response, and laboratory tests were developed to perform defect characterization. Different membrane assemblies were tested to analyze the impact of their properties on the cell settling time, and therefore, determine its effect on the controllability of the system.
publishDate	2019
dc.date.accessioned.none.fl_str_mv	2019-07-25T15:39:00Z
dc.date.available.none.fl_str_mv	2019-07-25T15:39:00Z
dc.date.issued.none.fl_str_mv	2019
dc.type.es_ES.fl_str_mv	doctoralThesis
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dc.type.hasVersion.es_ES.fl_str_mv	acceptedVersion
dc.identifier.uri.none.fl_str_mv	http://hdl.handle.net/10584/8602
url	http://hdl.handle.net/10584/8602
dc.language.iso.es_ES.fl_str_mv	eng
language	eng
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dc.format.es_ES.fl_str_mv	application/pdf
dc.publisher.es_ES.fl_str_mv	Universidad del Norte
dc.publisher.program.es_ES.fl_str_mv	Doctorado en Ingeniería Mecánica
dc.publisher.department.es_ES.fl_str_mv	Departamento de Ingeniería Mecánica
institution	Universidad del Norte
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A Design for Controllability Methodology for PEM Fuel Cells including the effect of Material Surface Defects on the Dynamic System Performance

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