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2024 | OriginalPaper | Buchkapitel

Utilization of Waste Byproducts in the Production of Green Geopolymer Concrete

verfasst von : S. Arathi, Kadarkarai Arunkumar, Anila Mary Jacob, A. Suresh Kumar, S. Pream Kumar

Erschienen in: Environmental Engineering for Ecosystem Restoration

Verlag: Springer Nature Singapore

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Abstract

The demand for cementless concrete in the construction sector is increasing by every day due to the global warming scenario of the world. In this study, industrial waste named GGBS along with Metakaolin has been utilized as the binders for the production of geopolymer concrete at varying proportions ranging from 0 to 100%. Another crisis that the world faces is the scarcity of river sand. To overcome the scarcity, the river sand is substituted with M-sand and Silica fume in various proportions. The optimum ratio of M-sand and SF was found to be 60:40, due to the performance in mechanical properties. The results show that the geopolymer concrete mix with 70% GGBS and 30% metakaolin has attained good mechanical properties when compared with conventional geopolymer concrete. The addition of metakaolin resulted in the acceleration in fresh concrete properties at a rate of 0.5% and 1% in workability and initial setting time, respectively.

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Vorheriges Kapitel Green Steel: A Sustainable Solution for Low-Carbon Building Construction

Nächstes Kapitel Effective Utilization of Eco-Friendly Industrial Waste and Byproducts in Ferrocement Slab Panels

Suresh Kumar A, Muthukannan M, Arunkumar K, Chithambar Ganesh A, Kanniga Devi R (2022) Influence of incinerated biomedical waste ash and waste glass powder on the mechanical and flexural properties of reinforced geopolymer concrete. Aust J Struct Eng 23:254–268. https://doi.org/10.1080/13287982.2022.2044613CrossRef

ArunKumar K, Muthukannan M, Raja Abinaya R, Suresh Kumar A (2022) Structural behaviour of green geopolymer concrete beams and columns made with waste wood ash a partial substitution binder. Mater Sci Forum 1048:333–344. https://doi.org/10.4028/www.scientific.net/MSF.1048.333CrossRef

Arunkumar K, Muthukannan M, Sureshkumar K, Chithambar Ganesh A, Kanniga Devi R (2021) Mathematical formulation for prediction of structural performance of green geopolymer concrete beams and columns. Turkish J Comput Math Educ 12:3806–3815

Huntzinger DN, Eatmon TD (2009) A life-cycle assessment of Portland cement manufacturing: comparing the traditional process with alternative technologies. J Clean Prod 17:668–675. https://doi.org/10.1016/j.jclepro.2008.04.007CrossRef

Suresh Kumar A, Muthukannan M, Arunkumar K, Sriram M, Vigneshwar R, Gulshan Sikkandar A (2022) Development of eco-friendly geopolymer concrete by utilizing hazardous industrial waste materials. Mater Today Proc. https://doi.org/10.1016/j.matpr.2022.06.039CrossRef

Arunkumar K, Muthukannan M, Sureshkumar A, Chithambarganesh A, Rangaswamy Kanniga Devi R (2022) Mechanical and durability characterization of hybrid fibre reinforced green geopolymer concrete. Res Eng Struct Mater 8:19–43. https://doi.org/10.17515/resm2021.280ma1604

Suresh Kumar A, Muthukannan M, Kanniga Devi R, Arunkumar K, Chithambar Ganesh A (2021) Reduction of hazardous incinerated bio-medical waste ash and its environmental strain by utilizing in green concrete. Water Sci Technol. https://doi.org/10.2166/wst.2021.239CrossRef

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Suresh Kumar A, Muthukannan M, Irene ADKB, Arunkumar K, Chithambar Ganesh A (2022) Flexural behaviour of reinforced geopolymer concrete incorporated with hazardous heavy metal waste ash and glass powder. Mater Sci Forum 1048:345–358. https://doi.org/10.4028/www.scientific.net/MSF.1048.345

10.

Arunkumar K, Muthukannan M, Sureh Kumar A, Ganesh AC (Accepted) Mechanical characterisation of waste wood ash-based green geopolymer concrete incorporated with waste rubber and polypropylene fibre. Int J Environ Waste Manag XX

11.

Chithambar Ganesh A, Vinod Kumar M, Mukilan K, Suresh Kumar A, Arun Kumar K (2023) Investigation on the effect of ultra fine rice husk ash over slag based geopolymer concrete. Res Eng Struct Mater 9:67–81. https://doi.org/10.17515/resm2022.501ma0814

12.

Suresh kumar A, Muthukannan M, Kanniga Devi R, Arunkumar K, Chithambar Ganesh A (2022) Improving the performance of structural members by incorporating incinerated bio-medical waste ash in reinforced geopolymer concrete. Mater Sci Forum 1048:321–332. https://doi.org/10.4028/www.scientific.net/MSF.1048.321

13.

Al-Oran AAA, Safiee NA, Nasir NAM (2022) Fresh and hardened properties of self-compacting concrete using metakaolin and GGBS as cement replacement. Eur J Environ Civ Eng 26:379–392. https://doi.org/10.1080/19648189.2019.1663268CrossRef

14.

Chithambar Ganesh A, Muthukannan M, Malathy R, Ramesh Babu C (2019) An experimental study on effects of bacterial strain combination in fibre concrete and self-healing efficiency. KSCE J Civ Eng 23:4368–4377. https://doi.org/10.1007/s12205-019-1661-2CrossRef

15.

Arunkumar K, Muthukannan M, Dinesh Babu A, Hariharan AL, Muthuramalingam T (2020) Effect on addition of polypropylene fibers in wood ash-fly ash based geopolymer concrete. IOP Conf Ser Mater Sci Eng 872:12162. https://doi.org/10.1088/1757-899X/872/1/012162CrossRef

16.

Suresh Kumar A, Muthukannan M, Arun Kumar K, Chithambar Ganesh A, Kanniga Devi R (2021) Mathematical prediction on the strength and behaviour of structural member by incorporating incinerated bio-medical waste ash in ground granulated blast furnace slag based geopolymer concrete. Turkish J Comput Math Educ 12:4070–4079

17.

Arunkumar K, Muthukannan M, Suresh Kumar A, Ganesh AC, Devi RK (2022) Hybrid fibre reinforced eco-friendly geopolymer concrete made with waste wood ash: a mechanical characterization study. Eng Appl Sci Res 49:235–247. https://doi.org/10.14456/easr.2022.26

18.

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19.

Arunkumar K, Muthukannan M, Suresh Kumar A, Ganesh AC, Devi RK (2023) Incorporation of waste wood ash and polypropylene fibre on the production of sustainable GPC. In: Lecture notes in civil engineering, pp 693–707. https://doi.org/10.1007/978-981-19-4040-8

20.

Arunkumar K, Muthukannan M, Suresh Kumar A, Ganesh AC, Devi RK (2021) Production of eco-friendly geopolymer concrete by using waste wood ash for a sustainable environment. Pollution 7:993–1006. https://doi.org/10.22059/POLL.2021.320857.1039

21.

Arunkumar K, Muthukannan M, Kumar AS, Ganesh AC, Devi RK (2021) Invention of sustainable geopolymer concrete made with low calcium waste wood ash. World J Eng. https://doi.org/10.1108/WJE-03-2021-0162CrossRef

22.

Arunkumar K, Muthukannan M, Kumar AS, Ganesh AC, Devi RK (2022) Cleaner environment approach by the utilization of low calcium wood ash in geopolymer concrete. Appl Sci Eng Prog 15:1–13. https://doi.org/10.14416/j.asep.2021.06.005

23.

Hwang CL, Huynh T-P (2015) Effect of alkali-activator and rice husk ash content on strength development of fly ash and residual rice husk ash-based geopolymers. Constr Build Mater 101:1–9. https://doi.org/10.1016/j.conbuildmat.2015.10.025CrossRef

Titel: Utilization of Waste Byproducts in the Production of Green Geopolymer Concrete
verfasst von: S. Arathi
Kadarkarai Arunkumar
Anila Mary Jacob
A. Suresh Kumar
S. Pream Kumar
Verlag: Springer Nature Singapore
Buch: Environmental Engineering for Ecosystem Restoration
Print ISBN: 978-981-9709-09-0

Electronic ISBN: 978-981-9709-10-6

Copyright-Jahr: 2024
DOI: https://doi.org/10.1007/978-981-97-0910-6_26

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