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Integration of direct air capture with Allam cycle: innovative pathway in negative emission technologies
Ghorbani, Alireza Gharehghani, Ayat Saray, Jabraeil Ahbabi Andwari, Amin Mahmoudzadeh
Ghorbani, Alireza
Gharehghani, Ayat
Saray, Jabraeil Ahbabi
Andwari, Amin Mahmoudzadeh
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2025-03-22
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Abstract
The advancement of negative emission technologies (NETs) is crucial for addressing climate change by reducing atmospheric carbon dioxide levels. This study presents a comprehensive evaluation of a High Temperature Direct Air Capture (HT-DAC) system integrated with a supercritical CO₂ (S-CO₂) cycle, representing a significant advancement in carbon capture, energy optimization, and NET systems. Given to significant energy demands of HT-DAC, the primary objective of this research is to address the process's energy intensity by focusing on the development of a more efficient power island. Specifically, this study investigates the energy demands of the Air Separation Unit (ASU) to minimize energy consumption and improve the overall efficiency of the Allam cycle when coupled with the ASU. Additionally, the study examines the thermal integration of the system using pinch analysis to assess the impact of this innovative power island on energy efficiency. Key results indicate that the proposed system is capable of capturing 0.99 million tons of CO₂ per year directly from the air, achieving a capture efficiency of 75 %. The specific energy requirement for the process is initially 3.19 kWh per kg of captured CO₂, which is reduced to 2.21 kWh/kgCO₂ following process optimization and heat integration. Through this optimization, hot and cold utility demands are reduced by 69.7 % and 36.9 %, respectively, while 110.1 MW of heat is recovered through the design of heat exchangers network, resulting in an 9.66 % reduction in overall energy demand compared to the base case. Furthermore, the integration of captured and regenerated CO₂ (135.1 tons per hour with a purity of 98.1 mol%) offers substantial potential for synthetic fuel production and underground storage.
Citation
Ghorbani, A., Gharehghani, A., Saray, J.A., Andwari, A.M., Borhani, T.N. (2025) Integration of direct air capture with Allam cycle: innovative pathway in negative emission technologies. Energy Conversion and Management, 332, 119746.
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Journal article
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en
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This is an author's accepted manuscript of an article published by Elsevier on 22/03/2025, available online: https://doi.org/10.1016/j.enconman.2025.119746
The accepted manuscript may differ from the final published version.
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ISSN
0196-8904
EISSN
1879-2227