Pressure modification index based on hydrodynamics and mass transfer effects for modeling of CO2 removal from natural gas via absorption at high pressures
In this paper, experimental works involving high concentration CO2 removal at elevated pressures are conducted using a high pressure CO2 pilot plant and the result is used to validate a simulation model based on established models in the literature. A rate based non-equilibrium model using 20 wt% aq...
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my.unimas.ir.149562017-01-24T01:08:17Z http://ir.unimas.my/id/eprint/14956/ Pressure modification index based on hydrodynamics and mass transfer effects for modeling of CO2 removal from natural gas via absorption at high pressures Isa, F. Haslinda, Zabiri Ramasamy, Marappagounder Lemma Dendena, Tufa Shariff, A. M. Shanti Faridah, Saleh TP Chemical technology In this paper, experimental works involving high concentration CO2 removal at elevated pressures are conducted using a high pressure CO2 pilot plant and the result is used to validate a simulation model based on established models in the literature. A rate based non-equilibrium model using 20 wt% aqueous monoethanolamine (MEA) is developed based on the work of Pandya (1983). The model considers reaction kinetics, mass transfer rate and heat transfer. Since the condition of CO2 removal at atmospheric and high pressure are different, a pressure modification index is proposed and incorporated in the mass transfer flux equation to account for the non-idealities. Comparative study involving the modified model with index-f, original rate-based non-equilibrium model, Aspen Plus equilibrium and non-equilibrium models has also been carried out for the CO2 loading at the top column exit of 1.505 m. It is found that the introduction of the proposed pressure modification index together with proper selection of mass transfer and effective interfacial area correlations results in an improvement in the average error from more than 100% to as low as 18% between the estimated and the pilot plant data. Elsevier Ltd 2017-01-01 E-Article PeerReviewed text en http://ir.unimas.my/id/eprint/14956/1/Pressure-modification-index-based-on-hydrodynamics-and-mass-transfer-effects-for-modeling-of-COinf2inf-removal-from-natural-gas-via-absorption-at-high-pressures_2017_International-Journal-of-Greenhouse-Gas-Control.html Isa, F. and Haslinda, Zabiri and Ramasamy, Marappagounder and Lemma Dendena, Tufa and Shariff, A. M. and Shanti Faridah, Saleh (2017) Pressure modification index based on hydrodynamics and mass transfer effects for modeling of CO2 removal from natural gas via absorption at high pressures. International Journal of Greenhouse Gas Control, 56. pp. 173-186. ISSN 17505836 https://www.scopus.com/inward/record.uri?eid=2-s2.0-84999788864&doi=10.1016%2fj.ijggc.2016.11.024&partnerID=40&md5=26d4f94043bd4e525910fd674089c769 DOI: 10.1016/j.ijggc.2016.11.024 |
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TP Chemical technology Isa, F. Haslinda, Zabiri Ramasamy, Marappagounder Lemma Dendena, Tufa Shariff, A. M. Shanti Faridah, Saleh Pressure modification index based on hydrodynamics and mass transfer effects for modeling of CO2 removal from natural gas via absorption at high pressures |
| description |
In this paper, experimental works involving high concentration CO2 removal at elevated pressures are conducted using a high pressure CO2 pilot plant and the result is used to validate a simulation model based on established models in the literature. A rate based non-equilibrium model using 20 wt% aqueous monoethanolamine (MEA) is developed based on the work of Pandya (1983). The model considers reaction kinetics, mass transfer rate and heat transfer. Since the condition of CO2 removal at atmospheric and high pressure are different, a pressure modification index is proposed and incorporated in the mass transfer flux equation to account for the non-idealities. Comparative study involving the modified model with index-f, original rate-based non-equilibrium model, Aspen Plus equilibrium and non-equilibrium models has also been carried out for the CO2 loading at the top column exit of 1.505 m. It is found that the introduction of the proposed pressure modification index together with proper selection of mass transfer and effective interfacial area correlations results in an improvement in the average error from more than 100% to as low as 18% between the estimated and the pilot plant data. |
| format |
E-Article |
| author |
Isa, F. Haslinda, Zabiri Ramasamy, Marappagounder Lemma Dendena, Tufa Shariff, A. M. Shanti Faridah, Saleh |
| author_facet |
Isa, F. Haslinda, Zabiri Ramasamy, Marappagounder Lemma Dendena, Tufa Shariff, A. M. Shanti Faridah, Saleh |
| author_sort |
Isa, F. |
| title |
Pressure modification index based on hydrodynamics and mass transfer effects for modeling of CO2 removal from natural gas via absorption at high pressures |
| title_short |
Pressure modification index based on hydrodynamics and mass transfer effects for modeling of CO2 removal from natural gas via absorption at high pressures |
| title_full |
Pressure modification index based on hydrodynamics and mass transfer effects for modeling of CO2 removal from natural gas via absorption at high pressures |
| title_fullStr |
Pressure modification index based on hydrodynamics and mass transfer effects for modeling of CO2 removal from natural gas via absorption at high pressures |
| title_full_unstemmed |
Pressure modification index based on hydrodynamics and mass transfer effects for modeling of CO2 removal from natural gas via absorption at high pressures |
| title_sort |
pressure modification index based on hydrodynamics and mass transfer effects for modeling of co2 removal from natural gas via absorption at high pressures |
| publisher |
Elsevier Ltd |
| publishDate |
2017 |
| url |
http://ir.unimas.my/id/eprint/14956/1/Pressure-modification-index-based-on-hydrodynamics-and-mass-transfer-effects-for-modeling-of-COinf2inf-removal-from-natural-gas-via-absorption-at-high-pressures_2017_International-Journal-of-Greenhouse-Gas-Control.html http://ir.unimas.my/id/eprint/14956/ https://www.scopus.com/inward/record.uri?eid=2-s2.0-84999788864&doi=10.1016%2fj.ijggc.2016.11.024&partnerID=40&md5=26d4f94043bd4e525910fd674089c769 |
| _version_ |
1644512032079216640 |
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13.160551 |