Gas adsorption and Surface Diffusion on 5Å Microporous Adsorbent in Transition and Turbulent Flow Region
The flow of O2, H2 and CO2 was in transition regime at relatively lower ΔT and then became turbulent at relatively higher ΔT when passed through the 5Å microporous zeolite adsorbent. Adsorption and surface diffusivity of all the gases that are being studied in these regimes increased with increa...
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IIUM Press, International Islamic University Malaysia
2010-09-01
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| Series: | International Islamic University Malaysia Engineering Journal |
| Online Access: | http://journals.iium.edu.my/ejournal/index.php/iiumej/article/view/72 |
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doaj-d262b079c1374e56b4bf6c3c481c2e3c2020-11-25T03:26:09ZengIIUM Press, International Islamic University MalaysiaInternational Islamic University Malaysia Engineering Journal1511-788X2289-78602010-09-017110.31436/iiumej.v7i1.72Gas adsorption and Surface Diffusion on 5Å Microporous Adsorbent in Transition and Turbulent Flow RegionM.R OTHMANO E LEEW.J.N FERNANDOThe flow of O2, H2 and CO2 was in transition regime at relatively lower ΔT and then became turbulent at relatively higher ΔT when passed through the 5Å microporous zeolite adsorbent. Adsorption and surface diffusivity of all the gases that are being studied in these regimes increased with increase in ΔT. For the temperature difference from 5 to 115 K, the range of adsorption of O2 was between 6.319?10-12 and 5.762?10-11 kg/s. The adsorption of H2 was between 4.4?10-13 and 3.88?10-12 kg/s for the temperature difference ranging from 1 to 20 K. The adsorption of CO2 was between 5.3?10-12 and 4.9?10-11 kg/s for the temperature difference ranging from 5 to 100 K. At pressure of 1 bar, CO2 adsorption was the highest at all ΔT, followed by O2 and H2. The surface diffusivity increases with increase in ΔT. At a particular ΔT, the diffusivity increases asymptotically regardless of the flow regions.http://journals.iium.edu.my/ejournal/index.php/iiumej/article/view/72 |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
M.R OTHMAN O E LEE W.J.N FERNANDO |
| spellingShingle |
M.R OTHMAN O E LEE W.J.N FERNANDO Gas adsorption and Surface Diffusion on 5Å Microporous Adsorbent in Transition and Turbulent Flow Region International Islamic University Malaysia Engineering Journal |
| author_facet |
M.R OTHMAN O E LEE W.J.N FERNANDO |
| author_sort |
M.R OTHMAN |
| title |
Gas adsorption and Surface Diffusion on 5Å Microporous Adsorbent in Transition and Turbulent Flow Region |
| title_short |
Gas adsorption and Surface Diffusion on 5Å Microporous Adsorbent in Transition and Turbulent Flow Region |
| title_full |
Gas adsorption and Surface Diffusion on 5Å Microporous Adsorbent in Transition and Turbulent Flow Region |
| title_fullStr |
Gas adsorption and Surface Diffusion on 5Å Microporous Adsorbent in Transition and Turbulent Flow Region |
| title_full_unstemmed |
Gas adsorption and Surface Diffusion on 5Å Microporous Adsorbent in Transition and Turbulent Flow Region |
| title_sort |
gas adsorption and surface diffusion on 5å microporous adsorbent in transition and turbulent flow region |
| publisher |
IIUM Press, International Islamic University Malaysia |
| series |
International Islamic University Malaysia Engineering Journal |
| issn |
1511-788X 2289-7860 |
| publishDate |
2010-09-01 |
| description |
The flow of O2, H2 and CO2 was in transition regime at relatively lower ΔT and then became turbulent at relatively higher ΔT when passed through the 5Å microporous zeolite adsorbent. Adsorption and surface diffusivity of all the gases that are being studied in these regimes increased with increase in ΔT. For the temperature difference from 5 to 115 K, the range of adsorption of O2 was between 6.319?10-12 and 5.762?10-11 kg/s. The adsorption of H2 was between 4.4?10-13 and 3.88?10-12 kg/s for the temperature difference ranging from 1 to 20 K. The adsorption of CO2 was between 5.3?10-12 and 4.9?10-11 kg/s for the temperature difference ranging from 5 to 100 K. At pressure of 1 bar, CO2 adsorption was the highest at all ΔT, followed by O2 and H2. The surface diffusivity increases with increase in ΔT. At a particular ΔT, the diffusivity increases asymptotically regardless of the flow regions. |
| url |
http://journals.iium.edu.my/ejournal/index.php/iiumej/article/view/72 |
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