Evaluation of SCBA-replaced cement for carbon credits and reduction in CO2 emissions
Abstract Massive advancement of the infrastructure sector has caused an unforeseen increase in the demand for cement. To accommodate this need, the world expends 30 billion tonnes of cement concrete every year. The rapid growth of cement manufacturing has raised environmental and health concerns due...
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| Format: | Article |
| Language: | English |
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Springer
2025-01-01
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| Series: | Discover Applied Sciences |
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| Online Access: | https://doi.org/10.1007/s42452-025-06487-3 |
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| author | Anusha yarra G. Nakkeeran Dipankar Roy George Uwadiegwu Alaneme |
| author_facet | Anusha yarra G. Nakkeeran Dipankar Roy George Uwadiegwu Alaneme |
| author_sort | Anusha yarra |
| collection | DOAJ |
| description | Abstract Massive advancement of the infrastructure sector has caused an unforeseen increase in the demand for cement. To accommodate this need, the world expends 30 billion tonnes of cement concrete every year. The rapid growth of cement manufacturing has raised environmental and health concerns due to significant carbon dioxide emissions, contributing to global warming and climate change. A study suggests using sugar cane ash residue as a large-scale substitute for cement to reduce emissions. Handling waste goods is a cost-effective way to reduce pollution and promote sustainability. The study proposes replacing cement by 0% to 30% with 5% increment Sugarcane Bagasse Ash, with some investigators replacing up to 50%. The study with the incorporating sugarcane bagasse ash to concrete enhances its chemical, mechanical, and physical characteristics, such as its reduced permeability, increased strength, and low heat of hydration. The article examines the creation of high-quality SCBAs, emphasizing the importance of controlled combustion and the optimal cement replacement ratio of 10 to 20% for mechanical and durability properties. Overall study is examined for construction material development and Environmental Sustainability. Bibliometric analysis (keyword Analysis, Country Analysis) is performed through VOS viewer. |
| format | Article |
| id | doaj-art-6f31be0deaaa48ab866e418e1981da6e |
| institution | Kabale University |
| issn | 3004-9261 |
| language | English |
| publishDate | 2025-01-01 |
| publisher | Springer |
| record_format | Article |
| series | Discover Applied Sciences |
| spelling | doaj-art-6f31be0deaaa48ab866e418e1981da6e2025-02-02T12:36:51ZengSpringerDiscover Applied Sciences3004-92612025-01-017212710.1007/s42452-025-06487-3Evaluation of SCBA-replaced cement for carbon credits and reduction in CO2 emissionsAnusha yarra0G. Nakkeeran1Dipankar Roy2George Uwadiegwu Alaneme3Department of Civil Engineering, Madanapalle Institute of Technology & ScienceDepartment of Civil Engineering, Madanapalle Institute of Technology & ScienceDepartment of Civil Engineering, Madanapalle Institute of Technology & ScienceDepartment of Civil, School of Engineering and Applied Sciences, Kampala International UniversityAbstract Massive advancement of the infrastructure sector has caused an unforeseen increase in the demand for cement. To accommodate this need, the world expends 30 billion tonnes of cement concrete every year. The rapid growth of cement manufacturing has raised environmental and health concerns due to significant carbon dioxide emissions, contributing to global warming and climate change. A study suggests using sugar cane ash residue as a large-scale substitute for cement to reduce emissions. Handling waste goods is a cost-effective way to reduce pollution and promote sustainability. The study proposes replacing cement by 0% to 30% with 5% increment Sugarcane Bagasse Ash, with some investigators replacing up to 50%. The study with the incorporating sugarcane bagasse ash to concrete enhances its chemical, mechanical, and physical characteristics, such as its reduced permeability, increased strength, and low heat of hydration. The article examines the creation of high-quality SCBAs, emphasizing the importance of controlled combustion and the optimal cement replacement ratio of 10 to 20% for mechanical and durability properties. Overall study is examined for construction material development and Environmental Sustainability. Bibliometric analysis (keyword Analysis, Country Analysis) is performed through VOS viewer.https://doi.org/10.1007/s42452-025-06487-3Sugarcane bagasseSugarcane bagasse ashSupplementary cement materialsPozzolanic materialIndustrial wasteSupplementary filler material |
| spellingShingle | Anusha yarra G. Nakkeeran Dipankar Roy George Uwadiegwu Alaneme Evaluation of SCBA-replaced cement for carbon credits and reduction in CO2 emissions Discover Applied Sciences Sugarcane bagasse Sugarcane bagasse ash Supplementary cement materials Pozzolanic material Industrial waste Supplementary filler material |
| title | Evaluation of SCBA-replaced cement for carbon credits and reduction in CO2 emissions |
| title_full | Evaluation of SCBA-replaced cement for carbon credits and reduction in CO2 emissions |
| title_fullStr | Evaluation of SCBA-replaced cement for carbon credits and reduction in CO2 emissions |
| title_full_unstemmed | Evaluation of SCBA-replaced cement for carbon credits and reduction in CO2 emissions |
| title_short | Evaluation of SCBA-replaced cement for carbon credits and reduction in CO2 emissions |
| title_sort | evaluation of scba replaced cement for carbon credits and reduction in co2 emissions |
| topic | Sugarcane bagasse Sugarcane bagasse ash Supplementary cement materials Pozzolanic material Industrial waste Supplementary filler material |
| url | https://doi.org/10.1007/s42452-025-06487-3 |
| work_keys_str_mv | AT anushayarra evaluationofscbareplacedcementforcarboncreditsandreductioninco2emissions AT gnakkeeran evaluationofscbareplacedcementforcarboncreditsandreductioninco2emissions AT dipankarroy evaluationofscbareplacedcementforcarboncreditsandreductioninco2emissions AT georgeuwadiegwualaneme evaluationofscbareplacedcementforcarboncreditsandreductioninco2emissions |