| Title | A critical review on CO 2 sequestration using construction and demolition waste: Future scope and perspective |
|---|---|
| ID_Doc | 9980 |
| Authors | Tiwari, SK; Kim, KH; Singh, RS; Lee, JC; Kim, T; Mahlknecht, J; Giri, BS; Kumar, M |
| Title | A critical review on CO 2 sequestration using construction and demolition waste: Future scope and perspective |
| Year | 2024 |
| Published | Environmental Engineering Research, 29.0, 3 |
| Abstract | In recent years, the building industry has looked for technological ways to protect the environment and preserve natural resources. Since the COVID-19 epidemic, there has been a shortage of building materials, which has caused construction costs to go up. This has made it more important for sustainable development to be based on the principles of the circular economy. This gives an opportunity to utilise various reliable materials as substitutes, like construction and demolition (C&D) waste. (C&D) wastes are made up of a large chunk of all solid waste, which causes many environmental problems. The most important factor in the struggle against climate change is the reduction of CO 2 emissions from the construction sector. At the same time, globally, climate change caused in part by carbon dioxide (CO 2 ) emissions is an important problem that requires innovative carbon sequestration strategies. Because C&D waste is alkaline -rich (e.g., calcium hydroxide and calcium -silicate -hydrate (C -S -H)), it can be used to sequester CO 2 by converting it into thermodynamically stable carbonates. Temperature, partial pressure of CO 2 , time, process route, humidity, and the water -to -solid ratio (w/s) can affect the CO 2 sequestration over the C&D wastes. |
| https://doi.org/10.4491/eer.2023.256 |
Similar Articles
| ID | Score | Article |
|---|---|---|
19784
|
Zhang, N; Xi, B; Li, JB; Liu, L; Song, GH Utilization of CO2 into recycled construction materials: A systematic literature review(2022)Journal Of Material Cycles And Waste Management, 24.0, 6 | |
| 19685
|
Shivaprasad, KN; Yang, HM; Singh, JK A path to carbon neutrality in construction: An overview of recent progress in recycled cement usage(2024) | |
| 8875
|
Di Maria, A; Snellings, R; Alaerts, L; Quaghebeur, M; Van Acker, K Environmental assessment of CO2 mineralisation for sustainable construction materials(2020) | |
| 64143
|
Rylko-Polak, I; Komala, W; Bialowiec, A The Reuse of Biomass and Industrial Waste in Biocomposite Construction Materials for Decreasing Natural Resource Use and Mitigating the Environmental Impact of the Construction Industry: A Review(2022)Materials, 15, 12 | |
| 64355
|
Sanjuán, MA; Argiz, C; Mora, P; Zaragoza, A Carbon Dioxide Uptake in the Roadmap 2050 of the Spanish Cement Industry(2020)Energies, 13, 13 | |
| 13755
|
Melella, R; Di Ruocco, G; Sorvillo, A Circular Construction Process: Method for Developing a Selective, Low CO2eq Disassembly and Demolition Plan(2021)Sustainability, 13, 16 | |
| 10039
|
Mejía-de-Gutiérrez, R; Robayo-Salazar, R; Valencia-Saavedra, W Construction and demolition waste as raw material for concrete and construction elements obtained through alkaline activation(2023)Revista De La Academia Colombiana De Ciencias Exactas Fisicas Y Naturales, 47.0, 184 | |
| 14750
|
Kravchenko, E; Sauerwein, M; Besklubova, S; Ng, CWW A comparative life cycle assessment of recycling waste concrete powder into CO2-Capture products(2024) | |
| 21210
|
Antunes, A; Silvestre, J; Costa, H; do Carmo, R; Júlio, E Reducing the environmental impact of the end-of-life of buildings depending on interrelated demolition strategies, transport distances and disposal scenarios(2024) | |
| 14507
|
Baggio, TF; Possan, E; Andrade, JJD Physical-chemical characterization of construction and demolition waste powder with thermomechanical activation for use as supplementary cementitious material(2024) |