A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Simulation and parametric analysis of CO2 capture from natural gas using diglycolamine
HighlightsModeling and simulation of CO2 capture process using diglycolamine solvent.Validation of simulation model with industrially operational plant data.Parametric analysis performed to give insight of operational parameters.
AbstractConventional natural gas sweetening processes are mainly focused on the H2S removal with the bulk removal of CO2. However, the placement of natural gas processes within the carbon capture and storage (CCS) framework provides an opportunity to achieve the synergies between the two technologies. The purpose of this paper is to investigate the CO2 capture process from the natural gas processing plants. In this study, a steady-state model has been developed that can reasonably predict the CO2 capture mechanism from the natural gas using diglycolamine (DGA) solvent. The developed model is first validated against a commercial operating plant using the required data and operating conditions. The results show that the developed model is in good agreement with the operational data. The model is then tested for all the possible key parameters that can affect the performance of the process. Since, achieving the product specification with minimum possible energy requirement is the goal of any process plant, hence, the effect of operational parameters is investigated in terms of CO2 content in the sweet gas and reboiler duty.
Simulation and parametric analysis of CO2 capture from natural gas using diglycolamine
HighlightsModeling and simulation of CO2 capture process using diglycolamine solvent.Validation of simulation model with industrially operational plant data.Parametric analysis performed to give insight of operational parameters.
AbstractConventional natural gas sweetening processes are mainly focused on the H2S removal with the bulk removal of CO2. However, the placement of natural gas processes within the carbon capture and storage (CCS) framework provides an opportunity to achieve the synergies between the two technologies. The purpose of this paper is to investigate the CO2 capture process from the natural gas processing plants. In this study, a steady-state model has been developed that can reasonably predict the CO2 capture mechanism from the natural gas using diglycolamine (DGA) solvent. The developed model is first validated against a commercial operating plant using the required data and operating conditions. The results show that the developed model is in good agreement with the operational data. The model is then tested for all the possible key parameters that can affect the performance of the process. Since, achieving the product specification with minimum possible energy requirement is the goal of any process plant, hence, the effect of operational parameters is investigated in terms of CO2 content in the sweet gas and reboiler duty.
Simulation and parametric analysis of CO2 capture from natural gas using diglycolamine
Zahid, Umer (author) / Al Rowaili, Fayez Nasir (author) / Ayodeji, Mohammed Kazeem (author) / Ahmed, Usama (author)
International Journal of Greenhouse Gas Control ; 57 ; 42-51
2016-12-19
10 pages
Article (Journal)
Electronic Resource
English
Preparation method and application of N, N-dihydroxyalkyl diglycolamine
| European Patent Office | 2021
| British Library Online Contents | 2009
Electrochemical Behavior of Carbon Steel in Carbon Dioxide-Saturated Diglycolamine Solutions
| British Library Online Contents | 1998
Unusual Corrosion in CO~2 Removal Plants Operated with 65 wt% Diglycolamine Aqueous Solution
| British Library Online Contents | 1994