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Separation of CO sub(2) and N sub(2) with a lithium-modified silicalite-1 zeolite membrane
Carbon dioxide capture and storage is gaining attention as a strategy to abate greenhouse gas emissions. However, currently available commercial processes to remove CO sub(2) from flue gas streams, mainly from N sub(2) are costly and energy intensive. A silicalite-1 membrane was prepared on a porous...
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| Published in: | International journal of greenhouse gas control 2012-09, Vol.10, p.494-500 |
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| Main Authors: | , , , |
| Format: | Article |
| Language: | English |
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| container_end_page | 500 |
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| container_start_page | 494 |
| container_title | International journal of greenhouse gas control |
| container_volume | 10 |
| creator | Lara-Medina, J J Torres-Rodriguez, M Gutierrez-Arzaluz, M Mugica-Alvarez, V |
| description | Carbon dioxide capture and storage is gaining attention as a strategy to abate greenhouse gas emissions. However, currently available commercial processes to remove CO sub(2) from flue gas streams, mainly from N sub(2) are costly and energy intensive. A silicalite-1 membrane was prepared on a porous alumina support using hydrothermal synthesis. The resulting silicalite-1 membranes were modified using Li solutions in order to achieve better CO sub(2) separation. SEM micrographs exhibited a thin, uniform and compact silicalite-1 film well adhered to the alumina support. Crystallinity of the membrane was confirmed by XRD. CO sub(2) and N sub(2) permeation experiments were carried out in a stainless steel module. CO sub(2) single gas permeation was measured through a silicalite-1 membrane from room temperature to 400 degree C, having a 25 psi pressure on the feed side. The resulting CO sub(2) permeance measurements indicated molecular sieving as the principal transport mechanism for the unmodified silicalite-1 membrane, whereas surface diffusion is the principal transport mechanism for lithium-modified silicalite-1 membranes. The separation between CO sub(2) and N sub(2) takes place due to preferential CO sub(2) adsorption and diffusion, which in turn hinders N sub(2) permeation through the silicalite-1 pore network. A CO sub(2)/N sub(2) separation factor up to 6 at 25 psi and 400 degree C was obtained using the silicalite-1 modified membrane, whereas this was 1.46 using the unmodified silicalite-1 membrane. |
| doi_str_mv | 10.1016/j.ijggc.2012.07.014 |
| format | article |
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The resulting CO sub(2) permeance measurements indicated molecular sieving as the principal transport mechanism for the unmodified silicalite-1 membrane, whereas surface diffusion is the principal transport mechanism for lithium-modified silicalite-1 membranes. The separation between CO sub(2) and N sub(2) takes place due to preferential CO sub(2) adsorption and diffusion, which in turn hinders N sub(2) permeation through the silicalite-1 pore network. 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| ispartof | International journal of greenhouse gas control, 2012-09, Vol.10, p.494-500 |
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| language | eng |
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| title | Separation of CO sub(2) and N sub(2) with a lithium-modified silicalite-1 zeolite membrane |
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