GX & Decarbonization Research

Kwangbum Kim, Wonhyeong Lee, Jeongwoo Lee +4

Fazal Um Min Allah, Rodrigo Nogueira De Sousa, Elena Trim +2

This study performs a techno-economic assessment of BECCS for Brazilian thermoelectric power plants, analyzing costs and CO2 reduction potential.

Emel V. Kurian, Pavitra Sandilya

This study parametrically investigates continuous desublimation-based cryogenic carbon capture in a cryogenically cooled cyclone separator, analyzing the effects of operating parameters on capture efficiency and energy consumption. It provi…

M. Emborg, L. Kisieliene, N. Thonemann +2

This paper systematically and critically reviews life cycle assessment (LCA) studies on carbon capture and storage (CCS) value chains. It identifies methodological challenges and data gaps, offering directions for improving the reliability …

Aseel Hussein Alwan, Ali Can

This study evaluates a post-combustion amine-based carbon capture unit (90% capture efficiency) for a 4500 MW gas combined cycle plant in Baghdad, Iraq. It finds a 14% efficiency penalty and 13.6% net power reduction, but specific emissions…

Yasin Naghizadeh, Amir Ebrahimi-Moghadam, Mohammad Sardarabadi +1

This study analyzes the water-energy-carbon nexus in a novel hybrid system driven by waste-to-energy biomass, integrated with a carbon capture and utilization (CCU) unit. It demonstrates potential for improving overall system efficiency and…

Zizhuo Xiang, Simon Holford, Rosalind King +3

For upscaling CCS, geomechanical derisking is essential. This paper shows that cold CO2 injection causes thermal contraction, stressing faults asymmetrically. The authors introduce a pressure-temperature stability diagram to visualize safe …

Rached Ben-Mansour

This paper presents mathematical modeling and simulation of oxy-combustion carbon capture using ion-transport membranes. The model is validated against experimental data, showing good agreement. It explores efficiency improvements for oxyge…

Liew Zheng Liang, Josephine Hannah Macdonald, Nursyuhada Kamaruzaman +5

This paper provides operational data and insights from a biomass gasification system integrated with carbon capture, evaluating its effectiveness as a CO2 removal technology. It covers efficiency, challenges, and scalability.

(著者不明)

This review summarizes advances in electrochemical carbon capture, focusing on integrated CO2 absorption and regeneration for efficient and stable operation.

Joo-Sung Lee, Seung-Kwon Seo, Chul-Jin Lee

This paper proposes an AI-enhanced method for designing carbon capture and utilization (CCU) networks using surrogate-based superstructure optimization. The approach efficiently explores optimal network configurations, reducing costs and en…

Jianhua Ma, Yongzhang Zhou, Luhao He +3

This paper discusses the application of artificial intelligence (AI) and system integration in geological carbon capture, utilization, and storage (CCUS). AI-driven optimization and prediction enhance efficiency and reduce costs, advancing …

Qiang Zheng, Qiong Sun, Fuxin Yang +2

This study achieves high-efficiency CO2 capture using superbase-based deep eutectic solvents. Characterization provides insights into reaction mechanisms, advancing CCUS technology.

Kubilay Bayramoğlu

This study performs multi-parameter optimization and energy assessment of a ship-based MEA (monoethanolamine) carbon capture system, aiming for efficient design under space and energy constraints.

Y.X. Zhu, J.K. Wu, Y. Huang +3

This paper proposes a heat pump assisted absorption carbon capture system with mechanical vapor recompression for biogas purification. The combination improves energy efficiency and reduces costs, advancing CCUS technology.

Eduardo Nobre Rodrigues, Nuno Baía Saraiva, José B. Ribeiro +2

This review provides a comprehensive overview and critical assessment of deep dehumidification techniques in cryogenic carbon capture systems. It identifies key challenges and research gaps, offering insights for future development.

Jørgen Finstad, Allan Dahl Andersen

This paper analyzes how multi-purpose technological innovation systems expand, using carbon capture technology as a case study. It focuses on the interaction between policy and industry to reveal drivers of system expansion, offering insigh…

Yingying Li, Weichen Shi, Caoxiong Zhuang +7

This study develops novel composites combining wood and metal-organic frameworks (MOFs) with hierarchical porosity for optimized CO2 adsorption. The tunable multiscale structure enables efficient carbon capture, offering a renewable and cos…

Antoine Verhaeghe, Lionel Dubois, Guy De Weireld +1

This paper presents a validated rate-based model for the CESAR1 solvent carbon capture process, enabling more efficient design of next-generation carbon capture systems.

Anwar Ahmad, Abdullah A. Almayeef, Mohammed Alsuwaylih +2

This paper reviews the opportunities and technical challenges of carbon capture and utilization for producing next-generation e-fuels. It focuses on the intersection of carbon recycling and synthetic fuels, discussing the potential and limi…