The aim of this work theoretical study is to theoretically investigate a inorganic membrane assisted purification process of an H2-rich stream derived from a conventional methanol steam reforming stage. In particular, a black-box model for multicomponent gas mixture purification is developed to evaluate the H2 separation performance of such non-palladium based membranes such as silica, polymeric and carbon membranes, by varying design and processing variables such as stage cut and feed pressure. The most significant modeling result is achieved by using a silica membrane based separation module in which 98% of H2 purity and 0.3% of carbon monoxide in the permeate side are reached, operating with a transmembrane pressure of 4.0 bar.
Theoretical performance evaluation of not Pd-based membranes for hydrogen separation
Adolfo Iulianelli;
2018
Abstract
The aim of this work theoretical study is to theoretically investigate a inorganic membrane assisted purification process of an H2-rich stream derived from a conventional methanol steam reforming stage. In particular, a black-box model for multicomponent gas mixture purification is developed to evaluate the H2 separation performance of such non-palladium based membranes such as silica, polymeric and carbon membranes, by varying design and processing variables such as stage cut and feed pressure. The most significant modeling result is achieved by using a silica membrane based separation module in which 98% of H2 purity and 0.3% of carbon monoxide in the permeate side are reached, operating with a transmembrane pressure of 4.0 bar.| File | Dimensione | Formato | |
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prod_396915-doc_137401.pdf
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Descrizione: Ghasemzadeh et al. - Journal of Membrane Science and Research 4 (2018) 198-203
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