Determination of CO2diffusivity in subsurface systems using molecular dynamics simulation
The urgency in demand for global warming alleviation has necessitated more research into carbon-dioxide diffusion (CO2) both for sequestration and enhanced oil recovery. Captured atmospheric CO2 can be stored underground to leave a haven for the populace. CO2 diffusivity in oil-brine-rock systems at...
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American Institute of Physics Inc.
2020
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my.utp.eprints.298732022-03-25T03:05:10Z Determination of CO2diffusivity in subsurface systems using molecular dynamics simulation Aliu, O. Sakidin, H. Foroozesh, J. Sikiru, S. The urgency in demand for global warming alleviation has necessitated more research into carbon-dioxide diffusion (CO2) both for sequestration and enhanced oil recovery. Captured atmospheric CO2 can be stored underground to leave a haven for the populace. CO2 diffusivity in oil-brine-rock systems at various pressures and temperatures and also solely in brine with different ions but at a fixed temperature and pressure are studied. Increases in pressure and temperature leads to increase in diffusion coefficient of CO2 in oil-brine-rock systems. On the other hand, in CO2-brine system, the variations of ions affect CO2 diffusion while Ca ion appears to result in the highest diffusivity of CO2 in brine thereby, suggesting saline aquifers with Ca ion as the best choice for CO2 sequestration. © 2020 Author(s). American Institute of Physics Inc. 2020 Conference or Workshop Item NonPeerReviewed https://www.scopus.com/inward/record.uri?eid=2-s2.0-85094604624&doi=10.1063%2f5.0018070&partnerID=40&md5=2e51d7fe30cd097284343a85ee2089aa Aliu, O. and Sakidin, H. and Foroozesh, J. and Sikiru, S. (2020) Determination of CO2diffusivity in subsurface systems using molecular dynamics simulation. In: UNSPECIFIED. http://eprints.utp.edu.my/29873/ |
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The urgency in demand for global warming alleviation has necessitated more research into carbon-dioxide diffusion (CO2) both for sequestration and enhanced oil recovery. Captured atmospheric CO2 can be stored underground to leave a haven for the populace. CO2 diffusivity in oil-brine-rock systems at various pressures and temperatures and also solely in brine with different ions but at a fixed temperature and pressure are studied. Increases in pressure and temperature leads to increase in diffusion coefficient of CO2 in oil-brine-rock systems. On the other hand, in CO2-brine system, the variations of ions affect CO2 diffusion while Ca ion appears to result in the highest diffusivity of CO2 in brine thereby, suggesting saline aquifers with Ca ion as the best choice for CO2 sequestration. © 2020 Author(s). |
format |
Conference or Workshop Item |
author |
Aliu, O. Sakidin, H. Foroozesh, J. Sikiru, S. |
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Aliu, O. Sakidin, H. Foroozesh, J. Sikiru, S. Determination of CO2diffusivity in subsurface systems using molecular dynamics simulation |
author_facet |
Aliu, O. Sakidin, H. Foroozesh, J. Sikiru, S. |
author_sort |
Aliu, O. |
title |
Determination of CO2diffusivity in subsurface systems using molecular dynamics simulation |
title_short |
Determination of CO2diffusivity in subsurface systems using molecular dynamics simulation |
title_full |
Determination of CO2diffusivity in subsurface systems using molecular dynamics simulation |
title_fullStr |
Determination of CO2diffusivity in subsurface systems using molecular dynamics simulation |
title_full_unstemmed |
Determination of CO2diffusivity in subsurface systems using molecular dynamics simulation |
title_sort |
determination of co2diffusivity in subsurface systems using molecular dynamics simulation |
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American Institute of Physics Inc. |
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2020 |
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https://www.scopus.com/inward/record.uri?eid=2-s2.0-85094604624&doi=10.1063%2f5.0018070&partnerID=40&md5=2e51d7fe30cd097284343a85ee2089aa http://eprints.utp.edu.my/29873/ |
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