A Comprehensive Review of Sustainable Geopolymer Concrete Using Palm Oil Clinker: Environmental and Engineering Aspects

Journal article

Abdulhaleem, Khamees N., Hamada, H., Osman, A., Yousif, Salim T., Humada, Ali M. and Majdi, Ali 2025. A Comprehensive Review of Sustainable Geopolymer Concrete Using Palm Oil Clinker: Environmental and Engineering Aspects. Energy Science and Engineering. 13 (3), pp. 958-979. https://doi.org/10.1002/ese3.1977

Publication dates
Authors	Abdulhaleem, Khamees N., Hamada, H., Osman, A., Yousif, Salim T., Humada, Ali M. and Majdi, Ali
Abstract	ABSTRACTAmidst the dual challenges of aggregate scarcity and the environmental impact of carbon dioxide (CO2) emissions from cement production, this study investigates the viability of palm oil clinker (POC) as a sustainable aggregate in geopolymer concrete (GPC). The lack of appropriate alternative coarse and fine aggregates essential in concrete production is one of the critical issues faced by the construction industry. This review evaluates its environmental benefits, chemical and physical attributes, and influence on GPC's microstructure. Previous studies have shown that incorporating POC in GPC significantly reduces density from 2345 to 1821 kg/m3 while maintaining competitive compressive strength, thus proving its applicability in various structural and nonstructural contexts. Moreover, GPC with POC demonstrates enhanced resistance to aggressive environmental conditions such as water absorption and resistance against acid and sulfate environments. Geopolymer mortar (GPM) exposed to sulfate attack recorded the lowest decrease in strength than GPM containing POC fine aggregates by about 20%. The use of 100% POC aggregates in GPC mix has a 3.2% water absorption, which is lower than the limit for high‐performance concrete. The results advocate for the development of POC‐aggregate GPC as an environmentally friendly construction material, contributing to the sustainable advancement of the building industry.
Year	2025
Journal	Energy Science and Engineering
Journal citation	13 (3), pp. 958-979
Publisher	Wiley
ISSN	2050-0505
Digital Object Identifier (DOI)	https://doi.org/10.1002/ese3.1977
Official URL	https://scijournals.onlinelibrary.wiley.com/doi/10.1002/ese3.1977
Online	09 Feb 2025
Publication process dates
Deposited	24 Feb 2025
Accepted	03 Sep 2024
Publisher's version	Energy Science Engineering - 2025 - Abdulhaleem - A Comprehensive Review of Sustainable Geopolymer Concrete Using Palm.pdf File Access Level Open
Output status	Published
Additional information	Publications router: Date 2024-09-03 of type 'accepted_date' included in notification. Publications router: Date 2025-02-09 of type 'publication_date' with format 'electronic' included in notification Publications router: Date 2025-02-09 of type 'epub' included in notification Publications router: Date 2025-02-09 of type 'issued' included in notification Publications router: Date 2024-03-24 of type 'received' included in notification Publications router: Date 2024-09-03 of type 'accepted' included in notification Publications router: Date 2025-02-09 of type 'published' included in notification
	Publications router: License for VOR version of this article starting on 2025-02-09: http://creativecommons.org/licenses/by/4.0/ included in notification
License	http://creativecommons.org/licenses/by/4.0/

Permalink -

https://repository.canterbury.ac.uk/item/9q645/a-comprehensive-review-of-sustainable-geopolymer-concrete-using-palm-oil-clinker-environmental-and-engineering-aspects

Download files

Publisher's version

	Energy Science Engineering - 2025 - Abdulhaleem - A Comprehensive Review of Sustainable Geopolymer Concrete Using Palm.pdf
File access level: Open

13
total views
5
total downloads
3
views this month
1
downloads this month

Export as

Related outputs

Ca-, Mg-, Sc-, and Y-stabilized zirconia: High-performance support material for dry reforming of methane and solid-electrolyte material for fuel cell

Al-Zahrani, Salma A., Rajput, Yuvrajsinh, Chaudhary, K., Al-Fatesh, A., Ali, Fekri Abdulraqeb Ahmed, El-Toni, Ahmed Mohamed, Abahussain, A., Alshareef, R., Kumar, R. and Osman, A. 2025. Ca-, Mg-, Sc-, and Y-stabilized zirconia: High-performance support material for dry reforming of methane and solid-electrolyte material for fuel cell. Catalysts. 15 (4), p. 300. https://doi.org/10.3390/catal15040300

Catalytic production of aviation jet biofuels from biomass: a review

Mansy, A. E., Daniel, S., Monguen, C. K. F., Wang, H., Osman, A. I. and Tian, Z.-Y. 2025. Catalytic production of aviation jet biofuels from biomass: a review. Environmental Chemistry Letters. https://doi.org/10.1007/s10311-024-01806-3

Assessing rice straw availability and associated carbon footprint for methanol production: A case study in India

Deka, T. J., Budhiraja, B., Osman, A., Baruah, D. C. and Rooney, D. W. 2025. Assessing rice straw availability and associated carbon footprint for methanol production: A case study in India. Biomass and Bioenergy. 194. https://doi.org/10.1016/j.biombioe.2024.107580