Influence of Hydrogen Sulfide and Redox Reactions on the Surface Properties and Hydrogen Permeability of Pd Membranes

Influence of Hydrogen Sulfide and Redox Reactions on the Surface Properties and Hydrogen Permeability of Pd Membranes

Although hydrogen sulfide (H2S) was always a negative factor leading to the reduction of hydrogen permeability of palladium (Pd) membranes, its proper application could result in a positive effect. In this study, pure Pd membranes were firstly reacted with H2S at 23–450 °C, and the...

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Main Authors: Wei Feng, Qingyuan Wang, Xiaodong Zhu, Qingquan Kong, Jiejie Wu, Peipei Tu
Format: Article
Language:English
Published: MDPI AG 2018-05-01
Series:Energies
Subjects:
Pd membrane
hydrogen
permeability
surface
redoxreaction
Online Access:http://www.mdpi.com/1996-1073/11/5/1127
id doaj-f9fa6b8fed064686afb70b5dbf6e62d9
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spelling doaj-f9fa6b8fed064686afb70b5dbf6e62d92020-11-24T21:17:44ZengMDPI AGEnergies1996-10732018-05-01115112710.3390/en11051127en11051127Influence of Hydrogen Sulfide and Redox Reactions on the Surface Properties and Hydrogen Permeability of Pd MembranesWei Feng0Qingyuan Wang1Xiaodong Zhu2Qingquan Kong3Jiejie Wu4Peipei Tu5Advanced Research Institute, Chengdu University, Chengdu 610106, ChinaAdvanced Research Institute, Chengdu University, Chengdu 610106, ChinaAdvanced Research Institute, Chengdu University, Chengdu 610106, ChinaAdvanced Research Institute, Chengdu University, Chengdu 610106, ChinaSchool of Materials Science and Engineering, Beihang University, Beijing 100083, ChinaAdvanced Research Institute, Chengdu University, Chengdu 610106, ChinaAlthough hydrogen sulfide (H2S) was always a negative factor leading to the reduction of hydrogen permeability of palladium (Pd) membranes, its proper application could result in a positive effect. In this study, pure Pd membranes were firstly reacted with H2S at 23–450 °C, and then treated by redox reactions. Afterwards, the hydrogen permeability was tested under different reaction conditions using a hydrogen penetrant testing device. Moreover, both products and morphology changes occurred on the Pd membrane surface were analyzed using XRD, XPS and SEM. The results showed that H2S was dissociated to produce sulfides at 23 °C. With a rise of temperature, a regular change took place in the reaction products, morphology of the Pd membrane surface and hydrogen permeability. Adsorbed impurities such as sulfides and free carbon on the Pd membrane surface were removed by the redox treatment. The hydrogen permeability was improved by about 80% for the Pd membrane material subjected to the treatment method stated the above against the untreated one.http://www.mdpi.com/1996-1073/11/5/1127Pd membranehydrogenpermeabilitysurfaceredoxreaction
collection DOAJ
language English
format Article
sources DOAJ
author Wei Feng
Qingyuan Wang
Xiaodong Zhu
Qingquan Kong
Jiejie Wu
Peipei Tu
spellingShingle Wei Feng
Qingyuan Wang
Xiaodong Zhu
Qingquan Kong
Jiejie Wu
Peipei Tu
Influence of Hydrogen Sulfide and Redox Reactions on the Surface Properties and Hydrogen Permeability of Pd Membranes
Energies
Pd membrane
hydrogen
permeability
surface
redoxreaction
author_facet Wei Feng
Qingyuan Wang
Xiaodong Zhu
Qingquan Kong
Jiejie Wu
Peipei Tu
author_sort Wei Feng
title Influence of Hydrogen Sulfide and Redox Reactions on the Surface Properties and Hydrogen Permeability of Pd Membranes
title_short Influence of Hydrogen Sulfide and Redox Reactions on the Surface Properties and Hydrogen Permeability of Pd Membranes
title_full Influence of Hydrogen Sulfide and Redox Reactions on the Surface Properties and Hydrogen Permeability of Pd Membranes
title_fullStr Influence of Hydrogen Sulfide and Redox Reactions on the Surface Properties and Hydrogen Permeability of Pd Membranes
title_full_unstemmed Influence of Hydrogen Sulfide and Redox Reactions on the Surface Properties and Hydrogen Permeability of Pd Membranes
title_sort influence of hydrogen sulfide and redox reactions on the surface properties and hydrogen permeability of pd membranes
publisher MDPI AG
series Energies
issn 1996-1073
publishDate 2018-05-01
description Although hydrogen sulfide (H2S) was always a negative factor leading to the reduction of hydrogen permeability of palladium (Pd) membranes, its proper application could result in a positive effect. In this study, pure Pd membranes were firstly reacted with H2S at 23–450 °C, and then treated by redox reactions. Afterwards, the hydrogen permeability was tested under different reaction conditions using a hydrogen penetrant testing device. Moreover, both products and morphology changes occurred on the Pd membrane surface were analyzed using XRD, XPS and SEM. The results showed that H2S was dissociated to produce sulfides at 23 °C. With a rise of temperature, a regular change took place in the reaction products, morphology of the Pd membrane surface and hydrogen permeability. Adsorbed impurities such as sulfides and free carbon on the Pd membrane surface were removed by the redox treatment. The hydrogen permeability was improved by about 80% for the Pd membrane material subjected to the treatment method stated the above against the untreated one.
topic Pd membrane
hydrogen
permeability
surface
redoxreaction
url http://www.mdpi.com/1996-1073/11/5/1127
work_keys_str_mv AT weifeng influenceofhydrogensulfideandredoxreactionsonthesurfacepropertiesandhydrogenpermeabilityofpdmembranes
AT qingyuanwang influenceofhydrogensulfideandredoxreactionsonthesurfacepropertiesandhydrogenpermeabilityofpdmembranes
AT xiaodongzhu influenceofhydrogensulfideandredoxreactionsonthesurfacepropertiesandhydrogenpermeabilityofpdmembranes
AT qingquankong influenceofhydrogensulfideandredoxreactionsonthesurfacepropertiesandhydrogenpermeabilityofpdmembranes
AT jiejiewu influenceofhydrogensulfideandredoxreactionsonthesurfacepropertiesandhydrogenpermeabilityofpdmembranes
AT peipeitu influenceofhydrogensulfideandredoxreactionsonthesurfacepropertiesandhydrogenpermeabilityofpdmembranes
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