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Authors
Lu, Shijian
Yang, Fei
Wang, Feng
Chen, Junlong
Liu, Ling
Kang, Guojun
Hou, Menghan
Yu, Xulin
Wu, Tingyou
Huang, Song
Niu, Hao
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Funding
Funding for this research was provided by:
the National Key Research and Development Program (2022YFE0115800, 2022YFE0115800, 2022YFE0115800)
Design and molecular mechanism of CO2 phase change absorption-catalytic desorption coupling system (2023KYJD1004, 2023KYJD1004, 2023KYJD1004, 2023KYJD1004, 2023KYJD1004)
The Special Fund of Jiangsu Province for Scientific and Technological Innovation for Carbon Peak and Neutralit (BE2023852, BE2022613, BE2023852, BE2022613, BE2023852, BE2022613, BE2023852, BE2022613, BE2023852, BE2022613)
the Zhejiang Province Scientific and Technological Projects (2023C03156, 2023C03156, 2023C03156, 2023C03156, 2023C03156)
the Ningbo City Scientific and Technological Projects (2022Z163, 2022Z163, 2022Z163)
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Article History
Received: 15 November 2024
Accepted: 8 July 2025
First Online: 9 August 2025
Declarations
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: The authors declare no competing interests.
: Shijian Lu and Fei Yang are Co-author and contributed equally to this work. Qilu Petrochemical-Shengli Oilfield is the first million-ton carbon capture, utilization, and storage (CCUS) project in China; This project used two new energy-saving processes to generate electricity, a lithium bromide cooling water unit to recover waste heat for cooling and an expansion generator unit to recover tail gas pressure energy; Low-energy consumption for CO2 capture, with a comprehensive capture energy consumption ≤ 2.649 GJ/t CO2. The project will have significant direct economic, indirect economic, social, and environmental benefits after completion.
