Effects of carbon dioxide and liquified petroleum gas mixture on minimummiscibility pressure for carbon dioxide storage and enhanced oil recovery
The increase in carbon dioxide (CO2) and other greenhouse gases emission into the atmosphere has resulted in global warming and climate change. CO2 capture and storage are viable option to mitigate against this problem. Hence, in this study the potential of CO2 storage in the Malay Basin for enhance...
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my.utm.1084382024-11-05T06:15:15Z http://eprints.utm.my/108438/ Effects of carbon dioxide and liquified petroleum gas mixture on minimummiscibility pressure for carbon dioxide storage and enhanced oil recovery Al_Ani, Muhanad Muhamad Sidek, Mohd. Akhmal Jaafar, Mohd. Zaidi Augustine Aja Agi, Augustine Aja Agi Gbonhinbor, Jeffrey M. Ridzuan, Norida A. Mahat, Siti Qurratu’ Aini Yakassai, F. Ngouangna, Eugene Ngwana Oseh, Jeffrey Onuoma Q Science (General) The increase in carbon dioxide (CO2) and other greenhouse gases emission into the atmosphere has resulted in global warming and climate change. CO2 capture and storage are viable option to mitigate against this problem. Hence, in this study the potential of CO2 storage in the Malay Basin for enhanced oil recovery (EOR) was evaluated using Eclipse. Likewise, the effect of the synergy between CO2 ratio and liquefied petroleum gas (LPG) mixture on optimum miscible pressure (MMP) for CO2 storage and CO2-EOR process was investigated. The results indicate that 137 MMSCF of CO2 can be stored through this process. Consequently, the total amount of oil production was within range of 190 MMSTB to 230 MMSTB.Besides, the volume of oil production through the process of CO2-EOR increased with increase in injection of CO2. Injection of CO2 and LPG mixture show that MMP decreased from 1,910 psi to 1,700 psi. Therefore, it can be concluded from this study that CO2-EOR process followed the multiple contact miscibility scheme whereby the residual oil was swept towards the producing wells. 2023 Conference or Workshop Item PeerReviewed Al_Ani, Muhanad and Muhamad Sidek, Mohd. Akhmal and Jaafar, Mohd. Zaidi and Augustine Aja Agi, Augustine Aja Agi and Gbonhinbor, Jeffrey and M. Ridzuan, Norida A. and Mahat, Siti Qurratu’ Aini and Yakassai, F. and Ngouangna, Eugene Ngwana and Oseh, Jeffrey Onuoma (2023) Effects of carbon dioxide and liquified petroleum gas mixture on minimummiscibility pressure for carbon dioxide storage and enhanced oil recovery. In: SPE Nigeria Annual International Conference and Exhibition, NAIC 2023, 31 July 2023 - 2 August 2023, Lagos, Nigeria. http://dx.doi.org/10.2118/217123-MS |
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Q Science (General) Al_Ani, Muhanad Muhamad Sidek, Mohd. Akhmal Jaafar, Mohd. Zaidi Augustine Aja Agi, Augustine Aja Agi Gbonhinbor, Jeffrey M. Ridzuan, Norida A. Mahat, Siti Qurratu’ Aini Yakassai, F. Ngouangna, Eugene Ngwana Oseh, Jeffrey Onuoma Effects of carbon dioxide and liquified petroleum gas mixture on minimummiscibility pressure for carbon dioxide storage and enhanced oil recovery |
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The increase in carbon dioxide (CO2) and other greenhouse gases emission into the atmosphere has resulted in global warming and climate change. CO2 capture and storage are viable option to mitigate against this problem. Hence, in this study the potential of CO2 storage in the Malay Basin for enhanced oil recovery (EOR) was evaluated using Eclipse. Likewise, the effect of the synergy between CO2 ratio and liquefied petroleum gas (LPG) mixture on optimum miscible pressure (MMP) for CO2 storage and CO2-EOR process was investigated. The results indicate that 137 MMSCF of CO2 can be stored through this process. Consequently, the total amount of oil production was within range of 190 MMSTB to 230 MMSTB.Besides, the volume of oil production through the process of CO2-EOR increased with increase in injection of CO2. Injection of CO2 and LPG mixture show that MMP decreased from 1,910 psi to 1,700 psi. Therefore, it can be concluded from this study that CO2-EOR process followed the multiple contact miscibility scheme whereby the residual oil was swept towards the producing wells. |
| format |
Conference or Workshop Item |
| author |
Al_Ani, Muhanad Muhamad Sidek, Mohd. Akhmal Jaafar, Mohd. Zaidi Augustine Aja Agi, Augustine Aja Agi Gbonhinbor, Jeffrey M. Ridzuan, Norida A. Mahat, Siti Qurratu’ Aini Yakassai, F. Ngouangna, Eugene Ngwana Oseh, Jeffrey Onuoma |
| author_facet |
Al_Ani, Muhanad Muhamad Sidek, Mohd. Akhmal Jaafar, Mohd. Zaidi Augustine Aja Agi, Augustine Aja Agi Gbonhinbor, Jeffrey M. Ridzuan, Norida A. Mahat, Siti Qurratu’ Aini Yakassai, F. Ngouangna, Eugene Ngwana Oseh, Jeffrey Onuoma |
| author_sort |
Al_Ani, Muhanad |
| title |
Effects of carbon dioxide and liquified petroleum gas mixture on minimummiscibility pressure for carbon dioxide storage and enhanced oil recovery |
| title_short |
Effects of carbon dioxide and liquified petroleum gas mixture on minimummiscibility pressure for carbon dioxide storage and enhanced oil recovery |
| title_full |
Effects of carbon dioxide and liquified petroleum gas mixture on minimummiscibility pressure for carbon dioxide storage and enhanced oil recovery |
| title_fullStr |
Effects of carbon dioxide and liquified petroleum gas mixture on minimummiscibility pressure for carbon dioxide storage and enhanced oil recovery |
| title_full_unstemmed |
Effects of carbon dioxide and liquified petroleum gas mixture on minimummiscibility pressure for carbon dioxide storage and enhanced oil recovery |
| title_sort |
effects of carbon dioxide and liquified petroleum gas mixture on minimummiscibility pressure for carbon dioxide storage and enhanced oil recovery |
| publishDate |
2023 |
| url |
http://eprints.utm.my/108438/ http://dx.doi.org/10.2118/217123-MS |
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1814932890686849024 |
| score |
13.211869 |