Potential of carbon dioxide spraying on the properties of 3D concrete printed structures
Achieving net carbon neutrality is a global goal toward mitigating climate change presumed consequences. The building and construction sector, responsible for approximately 40 % of greenhouse gas emissions, requires innovative zero-carbon technologies. This paper investigates the synergistic potenti...
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sg-ntu-dr.10356-1803892024-10-12T16:48:43Z Potential of carbon dioxide spraying on the properties of 3D concrete printed structures Tay, Daniel Yi Wei Lim, Sean Gip Fadhel, Bandar A. Amr, Issam T. Bamagain, Rami A. Al-Hunaidy, Ali S. Paul, Suvash Chandra Tan, Ming Jen School of Mechanical and Aerospace Engineering Singapore Centre for 3D Printing Engineering Carbon capture and sequestration Carbon neutrality Achieving net carbon neutrality is a global goal toward mitigating climate change presumed consequences. The building and construction sector, responsible for approximately 40 % of greenhouse gas emissions, requires innovative zero-carbon technologies. This paper investigates the synergistic potential of combining 3D concrete printing (3DCP) and carbon capture and sequestration (CCS) to advance net carbon neutrality in construction. By implementing different CO2 spraying regimes, this study demonstrates improved carbon dioxide (CO2) uptake and the crystallinity of precipitated calcium carbonate (CaCO3). The findings indicate that the method's effectiveness heavily relies on appropriate printing parameters and curing conditions. Chamber-cured samples exhibit the highest CO2 uptake but the lowest mechanical strength, while ambient-cured samples show the opposite trend. It is also important to note that the duration of CO2 exposure in this study was relatively short, resulting in limitations in both CO2 uptake and strength gain. Nevertheless, this study highlights the potential of synergistically combining 3DCP and CCS technologies for net carbon neutrality, emphasizing the critical role of the construction sector in achieving global emission reduction targets. National Research Foundation (NRF) Published version This research is supported by Saudi Aramco Technologies Company, and National Research Foundation, Prime Minister’s Office, Singapore under its Medium-Sized Centre funding scheme for the Singapore Centre for 3D Printing. 2024-10-07T01:25:22Z 2024-10-07T01:25:22Z 2024 Journal Article Tay, D. Y. W., Lim, S. G., Fadhel, B. A., Amr, I. T., Bamagain, R. A., Al-Hunaidy, A. S., Paul, S. C. & Tan, M. J. (2024). Potential of carbon dioxide spraying on the properties of 3D concrete printed structures. Carbon Capture Science and Technology, 13, 100256-. https://dx.doi.org/10.1016/j.ccst.2024.100256 2772-6568 https://hdl.handle.net/10356/180389 10.1016/j.ccst.2024.100256 2-s2.0-85200227829 13 100256 en Carbon Capture Science and Technology © 2024 The Author(s). Published by Elsevier Ltd on behalf of Institution of Chemical Engineers (IChemE). This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/) application/pdf |
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Engineering Carbon capture and sequestration Carbon neutrality |
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Engineering Carbon capture and sequestration Carbon neutrality Tay, Daniel Yi Wei Lim, Sean Gip Fadhel, Bandar A. Amr, Issam T. Bamagain, Rami A. Al-Hunaidy, Ali S. Paul, Suvash Chandra Tan, Ming Jen Potential of carbon dioxide spraying on the properties of 3D concrete printed structures |
| description |
Achieving net carbon neutrality is a global goal toward mitigating climate change presumed consequences. The building and construction sector, responsible for approximately 40 % of greenhouse gas emissions, requires innovative zero-carbon technologies. This paper investigates the synergistic potential of combining 3D concrete printing (3DCP) and carbon capture and sequestration (CCS) to advance net carbon neutrality in construction. By implementing different CO2 spraying regimes, this study demonstrates improved carbon dioxide (CO2) uptake and the crystallinity of precipitated calcium carbonate (CaCO3). The findings indicate that the method's effectiveness heavily relies on appropriate printing parameters and curing conditions. Chamber-cured samples exhibit the highest CO2 uptake but the lowest mechanical strength, while ambient-cured samples show the opposite trend. It is also important to note that the duration of CO2 exposure in this study was relatively short, resulting in limitations in both CO2 uptake and strength gain. Nevertheless, this study highlights the potential of synergistically combining 3DCP and CCS technologies for net carbon neutrality, emphasizing the critical role of the construction sector in achieving global emission reduction targets. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Tay, Daniel Yi Wei Lim, Sean Gip Fadhel, Bandar A. Amr, Issam T. Bamagain, Rami A. Al-Hunaidy, Ali S. Paul, Suvash Chandra Tan, Ming Jen |
| format |
Article |
| author |
Tay, Daniel Yi Wei Lim, Sean Gip Fadhel, Bandar A. Amr, Issam T. Bamagain, Rami A. Al-Hunaidy, Ali S. Paul, Suvash Chandra Tan, Ming Jen |
| author_sort |
Tay, Daniel Yi Wei |
| title |
Potential of carbon dioxide spraying on the properties of 3D concrete printed structures |
| title_short |
Potential of carbon dioxide spraying on the properties of 3D concrete printed structures |
| title_full |
Potential of carbon dioxide spraying on the properties of 3D concrete printed structures |
| title_fullStr |
Potential of carbon dioxide spraying on the properties of 3D concrete printed structures |
| title_full_unstemmed |
Potential of carbon dioxide spraying on the properties of 3D concrete printed structures |
| title_sort |
potential of carbon dioxide spraying on the properties of 3d concrete printed structures |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/180389 |
| _version_ |
1814047355925692416 |