Improving energy efficiency for a low-temperature CO2 separation process in natural gas processing

Conventional amine sweetening process is limited to treating gas with high content of CO2, due to significant energy demand for the regeneration of solvent and the compression of CO2 product for Enhanced Oil Recovery (EOR) or sequestration. Although distillation processes operating at sub-ambient co...

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Bibliographic Details
Published in:Energy (Oxford) 2021-01, Vol.214, p.118844, Article 118844
Main Authors: Park, Jongseong, Yoon, Sekwang, Oh, Se-Young, Kim, Yoori, Kim, Jin-Kuk
Format: Article
Language:English
Subjects:
Alternative energy sources
Carbon dioxide
CO2 separation
Compression
Configurations
Distillation
Economic conditions
Energy costs
Energy demand
Energy efficiency
Enhanced oil recovery
Low temperature
Natural gas
Oil recovery
Process design
Process simulation
Regeneration
Separation
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Summary:Conventional amine sweetening process is limited to treating gas with high content of CO2, due to significant energy demand for the regeneration of solvent and the compression of CO2 product for Enhanced Oil Recovery (EOR) or sequestration. Although distillation processes operating at sub-ambient conditions have been regarded as an economic and energy-efficient alternative to amine sweetening process, it is not straightforward to materialize the full benefits of the low temperature distillation process in practice because of complex design interactions existed. The distillation process for carbon dioxide separation operated at sub-ambient conditions are modeled with commercial simulator Aspen HYSYS®. A range of thermodynamic packages are screened for the selection of the most appropriate one to be used, while the validation of the process modeling is made with reference data. Understanding on the dependence of energy cost on the key design and operating variables is obtained with sensitivity studies, with which energy-efficient selection of column configurations and operating conditions throughout the process is made. Suggestion is also made for improving energy efficiency for the process without compromising separation process, by setting different operating pressure and introducing new configuration involving stream splitting and merging. •Process modeling of low temperature CO2 separation process in natural gas processing.•Sensitivity analysis about key design variables to understand complex design interactions.•Techno-economic analysis for obtaining conceptual design guidelines.•Suggesting new configuration by introducing additional separator and turbo-expander.
ISSN:0360-5442
1873-6785
DOI:10.1016/j.energy.2020.118844