{"title":"Investigation of Novel Membrane Technologies for Hydrogen Separation","authors":"W. V. Cleave","doi":"10.13016/M29G5GD9P","DOIUrl":null,"url":null,"abstract":"Title of document: INVESTIGATION OF NOVEL MEMBRANE TECHNOLOGIES FOR HYDROGEN SEPARATION William M. Van Cleave, Master of Science, 2017 Thesis directed by: Professor Ashwani K. Gupta Department of Mechanical Engineering The production of hydrogen gas via its separation from multicomponent syngas derived from biomass is an important process in the burgeoning carbon-neutral hydrogen economy. Current methods utilize membranes made from expensive materials such as palladium or bulky pressure vessels that use adsorption properties. Holey graphene and doped perovskite ceramics are alternative membrane materials that are relatively inexpensive and easily produced. A range of holey graphene membranes was produced using dry pressing and other techniques, including high temperature reduction, to examine the efficiency of this material. Experimental results using these holey graphene membranes are presented from a lab-scale facility designed to test various membrane types. These results showed decreasing flux and increasing selectivity as membrane thickness increased. Comparison with results from literature indicate these membranes exhibit higher overall flux but lower selectivity when compared to palladium-based membrane technologies. INVESTIGATION OF NOVEL MEMBRANE TECHNOLOGIES FOR HYDROGEN SEPARATION","PeriodicalId":22842,"journal":{"name":"Theory of Computing Systems \\/ Mathematical Systems Theory","volume":"53 76 1","pages":"12"},"PeriodicalIF":0.0000,"publicationDate":"2017-01-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Theory of Computing Systems \\/ Mathematical Systems Theory","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.13016/M29G5GD9P","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 0
Abstract
Title of document: INVESTIGATION OF NOVEL MEMBRANE TECHNOLOGIES FOR HYDROGEN SEPARATION William M. Van Cleave, Master of Science, 2017 Thesis directed by: Professor Ashwani K. Gupta Department of Mechanical Engineering The production of hydrogen gas via its separation from multicomponent syngas derived from biomass is an important process in the burgeoning carbon-neutral hydrogen economy. Current methods utilize membranes made from expensive materials such as palladium or bulky pressure vessels that use adsorption properties. Holey graphene and doped perovskite ceramics are alternative membrane materials that are relatively inexpensive and easily produced. A range of holey graphene membranes was produced using dry pressing and other techniques, including high temperature reduction, to examine the efficiency of this material. Experimental results using these holey graphene membranes are presented from a lab-scale facility designed to test various membrane types. These results showed decreasing flux and increasing selectivity as membrane thickness increased. Comparison with results from literature indicate these membranes exhibit higher overall flux but lower selectivity when compared to palladium-based membrane technologies. INVESTIGATION OF NOVEL MEMBRANE TECHNOLOGIES FOR HYDROGEN SEPARATION
William M. Van Cleave,科学硕士,2017论文指导:Ashwani K. Gupta教授机械工程系通过分离来自生物质的多组分合成气来生产氢气是新兴的碳中性氢经济中的一个重要过程。目前的方法使用昂贵材料制成的膜,如钯或使用吸附特性的笨重压力容器。多孔石墨烯和掺杂钙钛矿陶瓷是相对便宜且易于生产的替代膜材料。使用干压和其他技术(包括高温还原)生产了一系列有孔的石墨烯膜,以检验这种材料的效率。使用这些多孔石墨烯膜的实验结果来自实验室规模的设备,旨在测试各种膜类型。结果表明,随着膜厚度的增加,通量降低,选择性增加。与文献结果的比较表明,与钯基膜技术相比,这些膜具有更高的总通量,但选择性较低。新型膜分离氢技术的研究
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