| Title | CO2 capture materials: a review of current trends and future challenges |
|---|---|
| ID_Doc | 14011 |
| Authors | Dziejarski, B; Serafin, J; Andersson, K; Krzyzynska, R |
| Title | CO2 capture materials: a review of current trends and future challenges |
| Year | 2023 |
| Published | |
| Abstract | Over the last decade, CO2 adsorption technology has quickly gained popularity and is now widely applied in global CCUS projects due to playing an important role in achieving net-zero emissions by 2050. As a result, novel materials, or post-modification methods of those already available have been successively reported to enhance the efficiency of CO2 capture from flue gases. This paper discusses a systematic understanding of fundamental aspects of current research trends in terms of developing selected solid CO2 adsorbent, with a particular emphasis on the upcoming challenges. The candidates are reviewed considering the practical drawbacks of imposed by industrial scale and economics, including carbonbased materials, metal-organic frameworks (MOFs), polymers, zeolites, silica, alumina, metal oxides, amine-based adsorbents, and other composite porous materials. Sustainable sorbents derived from biomass and industrial residues are also studied due to the high need for cost-effective raw materials and their crucial role in the circular economy. Lastly, a techno-economic analysis (TEA) is included to provide the most important criteria that should be considered when adsorbents are implemented on an industrial scale. Consequently, the review is summarized, and recommendations are offered for future research in the advancement of CO2 capture materials. The paper aims to establish a comprehensive theoretical basis of adsorption technologies currently progressed to reduce CO2 emissions, along with highlighting the identification and precise articulation of the most important future research paths that could be beneficial to address over the next years. (c) 2023 The Author(s). Published by Elsevier Ltd. This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/). |
| https://doi.org/10.1016/j.mtsust.2023.100483 |
Similar Articles
| ID | Score | Article |
|---|---|---|
23963
|
Mankar, JS; Rayalu, SS; Balasubramanian, R; Krupadam, RJ High performance CO2 capture at elevated temperatures by using cenospheres prepared from solid waste, fly ash(2021) | |
| 6340
|
Bernardo, M; Lapa, N; Fonseca, I; Esteves, IAAC Biomass Valorization to Produce Porous Carbons: Applications in CO2 Capture and Biogas Upgrading to Biomethane-A Mini-Review(2021) | |
| 9474
|
Akdag, AS; Durán, I; Gullu, G; Pevida, C Performance of TSA and VSA post-combustion CO2 capture processes with a biomass waste-based adsorbent(2022)Journal Of Environmental Chemical Engineering, 10.0, 6 | |
| 13490
|
Merkouri, LP; Reina, TR; Duyar, MS Closing the Carbon Cycle with Dual Function Materials(2021)Energy & Fuels, 35, 24 | |
| 15357
|
Yu, JM; Xie, LH; Li, JR; Ma, YG; Seminario, JM; Balbuena, PB CO2 Capture and Separations Using MOFs: Computational and Experimental Studies(2017)Chemical Reviews, 117, 14 | |
| 21281
|
López, LR; Dessi, P; Cabrera-Codony, A; Rocha-Melogno, L; Kraakman, NJR; Balaguer, MD; Puig, S Indoor CO 2 direct air capture and utilization: Key strategies towards carbon neutrality(2024) | |
| 5468
|
Huang, TT; Rahmadiawan, D; Shi, SC Synthesis and characterization of porous silica and composite films for enhanced CO2 adsorption: A circular economy approach(2024) | |
| 9298
|
Liu, YJ; Biswas, B; Hassan, M; Naidu, R Green Adsorbents for Environmental Remediation: Synthesis Methods, Ecotoxicity, and Reusability Prospects(2024)Processes, 12.0, 6 | |
| 12907
|
Foong, SY; Chan, YH; Yiin, CL; Lock, SSM; Loy, ACM; Lim, JY; Yek, PNY; Mahari, WAW; Liew, RK; Peng, WX; Tabatabaei, M; Aghbashlo, M; Lam, SS Sustainable CO2 capture via adsorption by chitosan-based functional biomaterial: A review on recent advances, challenges, and future directions(2023) | |
| 4798
|
Sakiewicz, P; Lutynski, M; Sobieraj, J; Piotrowski, K; Miccio, F; Kalisz, S Adsorption of CO2 on In Situ Functionalized Straw Burning Ashes-An Innovative, Circular Economy-Based Concept for Limitation of Industrial-Scale Greenhouse Gas Emission(2022)Energies, 15, 4 |