Integrated simulation system of CO2 gas injection application for enhanced oil recovery in the oil field
Abstract CO2 gas injection is one of the recommended enhanced oil recovery (EOR) methods by injecting CO2 through reservoir pores after the residual saturation is reached, since CO2 dissolves easily in oil phase as confirmed by many other researchers in pertaining field studies. An integrated system...
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doaj-a54580eaf32c46609e2b920fe3ca0e452021-07-18T11:29:08ZengSpringerOpenJournal of Petroleum Exploration and Production Technology2190-05582190-05662020-07-011083917392310.1007/s13202-020-00955-9Integrated simulation system of CO2 gas injection application for enhanced oil recovery in the oil fieldDedy Kristanto0Yulius Deddy Hermawan1Hariyadi2Yusmardhany Yusuf3Department of Petroleum Engineering, Faculty of Mineral Technology, Universitas Pembangunan Nasional “Veteran” YogyakartaDepartment of Chemical Engineering, Faculty of Industrial Engineering, Universitas Pembangunan Nasional “Veteran” YogyakartaDepartment of Petroleum Engineering, Faculty of Mineral Technology, Universitas Pembangunan Nasional “Veteran” YogyakartaDepartment of Chemical Engineering, Faculty of Industrial Engineering, Universitas Pembangunan Nasional “Veteran” YogyakartaAbstract CO2 gas injection is one of the recommended enhanced oil recovery (EOR) methods by injecting CO2 through reservoir pores after the residual saturation is reached, since CO2 dissolves easily in oil phase as confirmed by many other researchers in pertaining field studies. An integrated system is urgently required for assessing CO2-EOR study, covering multi-disciplinary aspects as follows: geology, geophysics, reservoir, production, process and economic. Hence, those systems must be reliable in suggesting final decision for feasibility of CO2-EOR operation program, applicable either for pilot scale or for full scale. This paper is proposing an integrated system evaluation, which has the following features: (1) estimate fraction of dissolved CO2, (2) estimate viscosity reduction, (3) estimate future oil productivity index resulted, (4) forecast incremental oil production, (5) estimate surface facilities equipment design, (6) evaluate economical aspects and (7) generate final decision for feasibility of CO2-EOR operation program. Finally, as the main objective of this program, those systems will present a picture of essential reason why we need to promote or reject CO2-EOR plan program, and also some recommendations will be presented in case the CO2-EOR plan does not perform as expected.https://doi.org/10.1007/s13202-020-00955-9CO2 gas injectionEnhanced oil recovery (EOR)Integrated system |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Dedy Kristanto Yulius Deddy Hermawan Hariyadi Yusmardhany Yusuf |
spellingShingle |
Dedy Kristanto Yulius Deddy Hermawan Hariyadi Yusmardhany Yusuf Integrated simulation system of CO2 gas injection application for enhanced oil recovery in the oil field Journal of Petroleum Exploration and Production Technology CO2 gas injection Enhanced oil recovery (EOR) Integrated system |
author_facet |
Dedy Kristanto Yulius Deddy Hermawan Hariyadi Yusmardhany Yusuf |
author_sort |
Dedy Kristanto |
title |
Integrated simulation system of CO2 gas injection application for enhanced oil recovery in the oil field |
title_short |
Integrated simulation system of CO2 gas injection application for enhanced oil recovery in the oil field |
title_full |
Integrated simulation system of CO2 gas injection application for enhanced oil recovery in the oil field |
title_fullStr |
Integrated simulation system of CO2 gas injection application for enhanced oil recovery in the oil field |
title_full_unstemmed |
Integrated simulation system of CO2 gas injection application for enhanced oil recovery in the oil field |
title_sort |
integrated simulation system of co2 gas injection application for enhanced oil recovery in the oil field |
publisher |
SpringerOpen |
series |
Journal of Petroleum Exploration and Production Technology |
issn |
2190-0558 2190-0566 |
publishDate |
2020-07-01 |
description |
Abstract CO2 gas injection is one of the recommended enhanced oil recovery (EOR) methods by injecting CO2 through reservoir pores after the residual saturation is reached, since CO2 dissolves easily in oil phase as confirmed by many other researchers in pertaining field studies. An integrated system is urgently required for assessing CO2-EOR study, covering multi-disciplinary aspects as follows: geology, geophysics, reservoir, production, process and economic. Hence, those systems must be reliable in suggesting final decision for feasibility of CO2-EOR operation program, applicable either for pilot scale or for full scale. This paper is proposing an integrated system evaluation, which has the following features: (1) estimate fraction of dissolved CO2, (2) estimate viscosity reduction, (3) estimate future oil productivity index resulted, (4) forecast incremental oil production, (5) estimate surface facilities equipment design, (6) evaluate economical aspects and (7) generate final decision for feasibility of CO2-EOR operation program. Finally, as the main objective of this program, those systems will present a picture of essential reason why we need to promote or reject CO2-EOR plan program, and also some recommendations will be presented in case the CO2-EOR plan does not perform as expected. |
topic |
CO2 gas injection Enhanced oil recovery (EOR) Integrated system |
url |
https://doi.org/10.1007/s13202-020-00955-9 |
work_keys_str_mv |
AT dedykristanto integratedsimulationsystemofco2gasinjectionapplicationforenhancedoilrecoveryintheoilfield AT yuliusdeddyhermawan integratedsimulationsystemofco2gasinjectionapplicationforenhancedoilrecoveryintheoilfield AT hariyadi integratedsimulationsystemofco2gasinjectionapplicationforenhancedoilrecoveryintheoilfield AT yusmardhanyyusuf integratedsimulationsystemofco2gasinjectionapplicationforenhancedoilrecoveryintheoilfield |
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1721296148447100928 |