Carbon membranes from cellulose and metal loaded cellulose |
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Authors: | Jon Arvid Lie |
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Affiliation: | Department of Chemical Engineering, Norwegian University of Science and Technology, N-7491 Trondheim, Norway |
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Abstract: | The focus of this work was to find a low-cost precursor for carbon molecular sieve (CMS) membranes, and a simple way of producing them. In addition, several ways of modifying a carbon material are described. The modification method used in this study was metal doping of carbon. CMS membranes were formed by vacuum carbonization of cellulose and metal loaded cellulose. Metal additives include oxides of Ca, Mg, Fe(III) and Si, and nitrates of Ag, Cu and Fe(III).The carbon membrane containing Fe-nitrate has promising separation performance for the gas pairs O2/N2 and CO2/CH4. Carbon containing nitrates of Cu or Ag show high selectivity, but reduced O2 and CO2 permeability compared to carbon with Fe-nitrate. Element analysis indicates that Cu migrates to the carbon surface, creating an extra layer resistance to gas transport. A silver mirror is also seen on the surface of Ag-nitrate-containing carbon. However, the Ag- and Cu-containing membranes show a high H2 permeability. Adding metal oxides makes the carbon membranes retard the transport of easily condensable gases (e.g. CO2). This can be exploited for enhanced H2/CO2 separation efficiency. |
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Keywords: | Molecular sieves Carbonization Doping Scanning electron microscopy Transport properties |
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