Search results for "Polymer electrolyte membrane electrolysis"

showing 6 items of 6 documents

PEM electrolyzer characterization with carbon-based hardware and material sets

2021

Abstract The research and development of proton exchange membrane water electrolysis (PEMWE) is an upcoming and growing area due to a rising interest in hydrogen as an energy carrier. Operating conditions are harsher than in a fuel cell system, particularly because the potentials required for the oxygen evolution reaction are significantly higher. In commercial water electrolysis systems, this is compensated by typically using titanium material sets that are often protected against oxidation through coating processes. Such material choices make small scale research hardware and porous transport layers expensive and difficult to source. In this work, we show that the stability of traditional…

Materials scienceCarbonorrosionProton exchange membrane fuel cell02 engineering and technologyengineering.material010402 general chemistry01 natural scienceslaw.inventionlcsh:ChemistryCoatinglawElectrochemistryPolarization (electrochemistry)Energy carrierCarbon paperElectrolysisElectrolysis of waterbusiness.industryInitial performanceIn situ characterizationOxygen evolutionWater electrolysisPEMWE021001 nanoscience & nanotechnology0104 chemical scienceslcsh:Industrial electrochemistrylcsh:QD1-999engineering0210 nano-technologybusinessPolymer electrolyte membrane electrolysisComputer hardwarelcsh:TP250-261Electrochemistry Communications
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Design of a LLC Resonant Converter for Powering a PEM Electrolyzer

2021

International audience; This paper proposes the design of a LLC resonant converter to supply a proton exchange membrane (PEM) electrolyzer. The PEM requires a low voltage with high current, a reduced output voltage ripple, and an overdamped dynamic behavior of the converter to avoid voltage overshoots. The designed converter allows satisfying the design constraints, minimizing switching and reverse recovery losses; the efficiency is influenced mainly by the output rectifier's conduction losses.

ElectrolysisMaterials scienceRenewable Energy Sustainability and the Environmentbusiness.industryPEM electrolyzer; LLC converterRipple[SPI.NRJ]Engineering Sciences [physics]/Electric powerElectrical engineeringEnergy Engineering and Power TechnologyProton exchange membrane fuel cellThermal conduction7. Clean energylaw.inventionRectifierlawZero Voltage SwitchingHardware_INTEGRATEDCIRCUITSElectrical and Electronic EngineeringbusinessLow voltagePolymer electrolyte membrane electrolysisenergy efficiencyVoltage
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A stacked interleaved DC-DC buck converter for proton exchange membrane electrolyzer applications: Design and experimental validation

2019

Abstract Since the two last decades, hydrogen production has been attracting the attention of the scientific community thanks to its inherent very low pollution when energy coming from renewable energy sources (RESs) are used. However, it implies the use of DC/DC converters to interface source and load. These conversion systems must meet several requirements from current ripple point of view, energy efficiency, and performance to preserve the sustainability of hydrogen production. This article proposes the design and realization of a stacked interleaved buck converter to supply a proton exchange membrane electrolyzer. The converter is designed to ensure a low output current ripple and a sui…

Computer scienceRippleCurrent rippleEnergy Engineering and Power Technology02 engineering and technology010402 general chemistry7. Clean energy01 natural sciencesAutomotive engineeringReliability (semiconductor)Power electronicsControl11. SustainabilityComputingMilieux_MISCELLANEOUSStacked interleaved DC/DC converterRenewable Energy Sustainability and the EnvironmentBuck converter[SPI.NRJ]Engineering Sciences [physics]/Electric powerFeed forwardConverters021001 nanoscience & nanotechnologyCondensed Matter PhysicsProton exchange membrane electrolyzer0104 chemical sciencesFuel TechnologyControl systemWind turbine conversion system0210 nano-technologyPolymer electrolyte membrane electrolysisEfficient energy use
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Hydrogen from The Sea: The Challenge of the Future. Present and Future Developments

2014

In this paper we proposed the use of saline water to product hydrogen. As far as using saline water, can be proposed two different scheme and technology. The aim of this work is to design an electrolyze system capable of utilizing sea water for direct electrolysis. It is probable that these systems would operate at a low power density and electrolyze only a small portion of the water in contact with electrodes. In particular, we present the results obtained by two different prototype of electrolyzer: one with steel electrodes and the second electrodes with titanium. Further experiments were carried out by changing the electrolytic solution of water and sodium chloride in real seawater. Fina…

ElectrolysisSettore ING-IND/11 - Fisica Tecnica AmbientaleElectrical loadElectrolysis of waterbusiness.industryMetallurgyHigh-pressure electrolysisAlkaline water electrolysisSettore ING-IND/32 - Convertitori Macchine E Azionamenti Elettricilaw.inventionlawEnvironmental scienceWater splittingSeawaterProcess engineeringbusinessPolymer electrolyte membrane electrolysisSea water electrolysis hydrogen new fuel
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Evaluation of a new Cr-free alloy as interconnect material for hydrogen production by high temperature water vapour electrolysis: Study in cathode at…

2012

International audience; For economic and ecological reasons, hydrogen is considered as a major energetic vector for the future. Hydrogen production via high temperature water vapour electrolysis (HTE) is a promising technology. A major technical difficulty related to high temperature water vapour electrolysis is the development of interconnects working efficiently for a long period. Working temperature of 800 degrees C enables the use of metallic materials as interconnects. High temperature corrosion behaviour and electrical conductivity of a new Cr-free Fe-Ni-Co alloy were tested in cathode atmosphere (H-2/H2O) at 800 degrees C. The alloy exhibits a poor oxidation resistance but an excelle…

Materials scienceHydrogen020209 energyAlloyEnergy Engineering and Power Technologychemistry.chemical_element02 engineering and technologyengineering.material7. Clean energylaw.inventionELECTRICAL-CONDUCTIVITYlawCHROMIUMSOFCS0202 electrical engineering electronic engineering information engineering[CHIM]Chemical SciencesDEPOSITIONOXIDATION-KINETICSHydrogen productionOXIDE FUEL-CELLSElectrolysisRenewable Energy Sustainability and the EnvironmentMetallurgy021001 nanoscience & nanotechnologyCondensed Matter PhysicsCathodeDIFFUSIONFuel TechnologyMETALLIC INTERCONNECTchemistryHigh-temperature electrolysisengineeringTHERMAL-EXPANSION0210 nano-technologyPolymer electrolyte membrane electrolysisWater vaporRESISTANCE
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Optimisation of metallic interconnects for hydrogen production by high temperature water vapour electrolysis

2012

For economical and environmental reasons, hydrogen is considered as a major energetic vector for the future. Hydrogen production via high temperature water vapour electrolysis (HTE) is a promising technology. A major technical difficulty related to high temperature water vapour electrolysis is the development of interconnects working efficiently for a long period. Working temperature of 800°C enables the use of metallic materials as interconnects. Chromia forming alloys are among the best candidates. The interconnect material chosen in the present study is a ferritic stainless steel with 18% chromium content. High temperature corrosion resistance and electrical conductivity of the alloy was…

Materials scienceHydrogenALLOYS020209 energychemistry.chemical_element02 engineering and technology7. Clean energyCorrosionlaw.inventionELECTRICAL-CONDUCTIVITYlawCHROMIUM0202 electrical engineering electronic engineering information engineeringSCALE ADHERENCEGeneral Materials ScienceOXIDATION-KINETICSHydrogen productionOXIDE FUEL-CELLSElectrolysisRadiationHigh-temperature corrosionMetallurgy021001 nanoscience & nanotechnologyCondensed Matter PhysicsAnodechemistryHigh-temperature electrolysisCR2O30210 nano-technologyGROWTH MECHANISMSCRPolymer electrolyte membrane electrolysis
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