Standard

Alkali-activated materials made of construction and demolition waste as precursors: A review. / Kravchenko, Ekaterina; Lazorenko, Georgy; Jiang, Xi и др.

в: Sustainable Materials and Technologies, Том 39, e00829, 09.03.2024.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

Harvard

Kravchenko, E, Lazorenko, G, Jiang, X & Leng, Z 2024, 'Alkali-activated materials made of construction and demolition waste as precursors: A review', Sustainable Materials and Technologies, Том. 39, e00829. https://doi.org/10.1016/j.susmat.2024.e00829

APA

Kravchenko, E., Lazorenko, G., Jiang, X., & Leng, Z. (2024). Alkali-activated materials made of construction and demolition waste as precursors: A review. Sustainable Materials and Technologies, 39, [ e00829]. https://doi.org/10.1016/j.susmat.2024.e00829

Vancouver

Kravchenko E, Lazorenko G, Jiang X, Leng Z. Alkali-activated materials made of construction and demolition waste as precursors: A review. Sustainable Materials and Technologies. 2024 март 9;39: e00829. doi: 10.1016/j.susmat.2024.e00829

Author

Kravchenko, Ekaterina ; Lazorenko, Georgy ; Jiang, Xi и др. / Alkali-activated materials made of construction and demolition waste as precursors: A review. в: Sustainable Materials and Technologies. 2024 ; Том 39.

BibTeX

@article{cde924d79e1944debb0ff49f1bebd489,
title = "Alkali-activated materials made of construction and demolition waste as precursors: A review",
abstract = "In recent years, researchers have expressed growing concern regarding the environmental impact of traditional binders such as lime and cement. This has led to an increased focus on finding alternative materials that not only meet the demands of modern construction but also align with international initiatives for eco-friendly building practices. In response to this need, alkali-activated materials have emerged as a promising substitute for conventional binders. However, the current production processes for alkali-activated materials involve substantial energy consumption and carbon emissions, presenting a global challenge in the quest for sustainable construction practices. This paper aims to present a novel proposition: utilizing construction and demolition waste as a potential precursor for manufacturing alkali-activated materials. Drawing upon a comprehensive survey and analysis of pertinent literature from diverse sources, this paper synthesizes a wealth of knowledge. The extensive review encompasses a thorough analysis of existing research findings, allowing for a nuanced exploration of the utilization of construction and demolition waste as a viable precursor in the manufacturing process of alkali-activated materials. Construction and demolition waste typically contains significant amounts of silica and alumina, making it an attractive and sustainable alternative for alkali-activated materials production. Moreover, this approach offers the additional benefit of mitigating the environmental repercussions associated with waste disposal. By providing an extensive overview of existing literature on the use of construction and demolition waste as a precursor for alkali-activated materials production, this paper also identifies crucial areas that warrant further research in this field.",
keywords = "Construction and demolition wastes, Environmental impact, Precursor, Waste management, Waste solids recycling",
author = "Ekaterina Kravchenko and Georgy Lazorenko and Xi Jiang and Zhen Leng",
note = "This work was supported by the Russian Science Foundation (Grant No. 19-79-10266).",
year = "2024",
month = mar,
day = "9",
doi = "10.1016/j.susmat.2024.e00829",
language = "English",
volume = "39",
journal = "Sustainable Materials and Technologies",
issn = "2214-9937",
publisher = "Elsevier B.V.",

}

RIS

TY - JOUR

T1 - Alkali-activated materials made of construction and demolition waste as precursors: A review

AU - Kravchenko, Ekaterina

AU - Lazorenko, Georgy

AU - Jiang, Xi

AU - Leng, Zhen

N1 - This work was supported by the Russian Science Foundation (Grant No. 19-79-10266).

PY - 2024/3/9

Y1 - 2024/3/9

N2 - In recent years, researchers have expressed growing concern regarding the environmental impact of traditional binders such as lime and cement. This has led to an increased focus on finding alternative materials that not only meet the demands of modern construction but also align with international initiatives for eco-friendly building practices. In response to this need, alkali-activated materials have emerged as a promising substitute for conventional binders. However, the current production processes for alkali-activated materials involve substantial energy consumption and carbon emissions, presenting a global challenge in the quest for sustainable construction practices. This paper aims to present a novel proposition: utilizing construction and demolition waste as a potential precursor for manufacturing alkali-activated materials. Drawing upon a comprehensive survey and analysis of pertinent literature from diverse sources, this paper synthesizes a wealth of knowledge. The extensive review encompasses a thorough analysis of existing research findings, allowing for a nuanced exploration of the utilization of construction and demolition waste as a viable precursor in the manufacturing process of alkali-activated materials. Construction and demolition waste typically contains significant amounts of silica and alumina, making it an attractive and sustainable alternative for alkali-activated materials production. Moreover, this approach offers the additional benefit of mitigating the environmental repercussions associated with waste disposal. By providing an extensive overview of existing literature on the use of construction and demolition waste as a precursor for alkali-activated materials production, this paper also identifies crucial areas that warrant further research in this field.

AB - In recent years, researchers have expressed growing concern regarding the environmental impact of traditional binders such as lime and cement. This has led to an increased focus on finding alternative materials that not only meet the demands of modern construction but also align with international initiatives for eco-friendly building practices. In response to this need, alkali-activated materials have emerged as a promising substitute for conventional binders. However, the current production processes for alkali-activated materials involve substantial energy consumption and carbon emissions, presenting a global challenge in the quest for sustainable construction practices. This paper aims to present a novel proposition: utilizing construction and demolition waste as a potential precursor for manufacturing alkali-activated materials. Drawing upon a comprehensive survey and analysis of pertinent literature from diverse sources, this paper synthesizes a wealth of knowledge. The extensive review encompasses a thorough analysis of existing research findings, allowing for a nuanced exploration of the utilization of construction and demolition waste as a viable precursor in the manufacturing process of alkali-activated materials. Construction and demolition waste typically contains significant amounts of silica and alumina, making it an attractive and sustainable alternative for alkali-activated materials production. Moreover, this approach offers the additional benefit of mitigating the environmental repercussions associated with waste disposal. By providing an extensive overview of existing literature on the use of construction and demolition waste as a precursor for alkali-activated materials production, this paper also identifies crucial areas that warrant further research in this field.

KW - Construction and demolition wastes

KW - Environmental impact

KW - Precursor

KW - Waste management

KW - Waste solids recycling

UR - https://www.webofscience.com/wos/woscc/full-record/WOS:001174015500001

UR - https://www.mendeley.com/catalogue/bc5c1ef1-e467-306e-a125-2fbfa57e337d/

U2 - 10.1016/j.susmat.2024.e00829

DO - 10.1016/j.susmat.2024.e00829

M3 - Article

VL - 39

JO - Sustainable Materials and Technologies

JF - Sustainable Materials and Technologies

SN - 2214-9937

M1 - e00829

ER -

ID: 61244457