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电化学氢纯化与压缩技术现状及在氢能中的应用
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作者 于广欣 纪钦洪 +4 位作者 徐庆虎 吴青 崔德春 刘强 张一平 《现代化工》 CAS CSCD 北大核心 2023年第5期6-10,共5页
氢能在全球能源结构加速向绿色、低碳转型中将发挥重要、关键作用,氢气的高压输送、提纯和高压加注是氢能发展关键环节,电化学氢压缩技术(EHC)具有压缩能耗低、无动设备、纯化气体杂质等突出优点。通过分析EHC技术原理、国内外专利技术... 氢能在全球能源结构加速向绿色、低碳转型中将发挥重要、关键作用,氢气的高压输送、提纯和高压加注是氢能发展关键环节,电化学氢压缩技术(EHC)具有压缩能耗低、无动设备、纯化气体杂质等突出优点。通过分析EHC技术原理、国内外专利技术现状和趋势,对比分析了EHC与机械压缩、PSA分离纯化等氢气压缩、纯化关键技术特点,结合可再生能源制氢、加氢站加注、输送及天然气掺氢等应用情景,提出了在分布式制氢分离纯化、掺氢天然气分离纯化、加氢站氢气压缩与加注方面EHC具有的优势和发展潜力,为氢能输送、应用提供新的技术解决思路。 展开更多
关键词 电化学氢压缩 气纯化 压缩 气杂质
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Electrochemical hydrogen compression and purification versus competing technologies: Part Ⅱ. Challenges in electrocatalysis 被引量:4
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作者 Marine Trégaro Maha Rhandi +2 位作者 Florence Druart Jonathan Deseure Marian Chatenet 《Chinese Journal of Catalysis》 SCIE EI CAS CSCD 北大核心 2020年第5期770-782,共13页
Hydrogen will be at the basis of the World’s energy policy in forthcoming decades, owing to its decarbonized nature, at least when produced from renewables. For now, hydrogen is still essentially produced from fossil... Hydrogen will be at the basis of the World’s energy policy in forthcoming decades, owing to its decarbonized nature, at least when produced from renewables. For now, hydrogen is still essentially produced from fossil feedstock(and to a minor extent from biomass);in consequence the present hydrogen gas on the market is containing non-negligible amounts of impurities that prevent its immediate usage in specialty chemistry or as an energy carrier in fuel cells, e.g. in transportation applications(cars, buses, trains, boats, etc.) that gradually spread on the planet. For these purposes, hydrogen must be of sufficient purity but also sufficiently compressed(at high pressures, typically 70 MPa), rendering purification and compression steps unavoidable in the hydrogen cycle. As shown in the first part of this contribution "Electrochemical hydrogen compression and purification versus competing technologies: Part I. pros and cons", electrochemical hydrogen compressors(EHCs), which enable both hydrogen purification and compression, exhibit many theoretical(thermodynamic) and practical(kinetics) advantages over their mechanical counterparts. However, in order to be competitive, EHCs must operate in very intensive conditions(high current density and low cell voltage) that can only be reached if their core materials, e.g. the membrane and the electrodes/electrocatalysts, are optimized. This contribution will particularly focus on the properties electrocatalysts must exhibit to be used in EHCs: they shall promote(very) fast hydrogen oxidation reaction(HOR) in presence of impurities, which implies that they are(very) tolerant to poisons as well. This consists of a prerequisite for the operation of the anode of an EHC used for the purification-compression of hydrogen, and the materials developed for poison-tolerance in the vast literature on low-temperature fuel cells, may not always satisfy these two criteria, as this contribution will review. 展开更多
关键词 Electrochemical hydrogen compression Electrochemical hydrogen purification ELECTROCATALYSTS Hydrogen oxidation Poison tolerance
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Electrochemical hydrogen compression and purification versus competing technologies: Part Ⅰ. Pros and cons 被引量:3
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作者 Maha Rhandi Marine Trégaro +2 位作者 Florence Druart Jonathan Deseure Marian Chatenet 《Chinese Journal of Catalysis》 SCIE EI CAS CSCD 北大核心 2020年第5期756-769,共14页
It is undisputed that hydrogen will play a great role in our future energetic mix, because it enables the storage of renewable electricity(power-to-H2) and the reversible conversion into electricity in fuel cell, not ... It is undisputed that hydrogen will play a great role in our future energetic mix, because it enables the storage of renewable electricity(power-to-H2) and the reversible conversion into electricity in fuel cell, not to speak of its wide use in the(petro)chemical industry. Whereas in these applications, pure hydrogen is required, today’s hydrogen production is still largely based on fossil fuels and can therefore not be considered pure. Therefore, purification of hydrogen is mandatory, at a large scale. In addition, hydrogen being the lightest gas, its volumetric energy content is well-below its competing fuels, unless it is compressed at high pressures(typically 70 MPa), making compression unavoidable as well. This contribution will detail the means available today for both purification and for compression of hydrogen. It will show that among the available technologies, the electrochemical hydrogen compressor(EHC), which also enables hydrogen purification, has numerous advantages compared to the classical technologies currently used at the industrial scale. EHC has their thermodynamic and operational advantages, but also their ease of use. However, the deployment of EHCs will be viable only if they reach sufficient performances, which implies some specifications that their base materials should stick to. The present contribution will detail these specifications. 展开更多
关键词 Electrochemical hydrogen compression Hydrogen energy Electrochemical hydrogen purification Thermdynamics EFFICIENCY
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