High energy consumption in cement production leads to emissions of greenhouse gases, such as carbon dioxide. In this study, palm oil fuel ash (POFA) was utilised as partial cement replacement at 0%, 15%, 25%, and 35% to evaluate compressive strength, water permeability and chloride resistance of concrete up to 90 days. Rapid chloride-ion penetration and chloride diffusion were assessed using standard chloride permeability tests. The compressive strength of POFA concretes ranged from 90–98% of control concrete at 28 days. At 25% POFA, water permeability was lower than that of control concrete, despite slightly lower strength. Chloride resistance improved with higher POFA levels, with 35% POFA reducing charge passed by 73% at 28 days. Empirical models based on power law regression were developed using POFA content, compressive strength and curing age. The models showed high predictive accuracy, particularly for chloride resistance (R2 = 0.98), and revealed key links between transport properties and mixture factors. Ground POFA up to 35% is suitable for marine applications with high chloride exposure. The use of ground POFA as a supplementary cementitious material supports sustainable concrete production by reducing cement consumption and enhancing long-term durability, contributing to UN SDGs 9, 12 and 13.
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3 March 2026
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Research Article|
February 11 2026
Water permeability and chloride-ion penetration resistance of eco-friendly concrete from ground palm oil fuel ash Available to Purchase
Wachirakorn Senawang;
Wachirakorn Senawang
Department of Construction Engineering, Faculty of Engineering and Architecture,
Rajamangala University of Technology Tawan-ok
, Bangkok, Thailand
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Sattawat Haruehansapong;
Department of Civil Engineering, Faculty of Engineering and Architecture,
Rajamangala University of Technology Tawan-ok
, Bangkok, Thailand
Corresponding author Sattawat Haruehansapong (sattawat_ha@rmutto.ac.th)
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Tieng Cheewaket;
Tieng Cheewaket
Department of Civil Engineering, Faculty of Engineering,
Burapha University
, Chonburi, Thailand
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Weerachart Tangchirapat;
Weerachart Tangchirapat
Department of Civil Engineering, Faculty of Engineering,
King Mongkut’s University of Technology Thonburi
, Bangkok, Thailand
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Chai Jaturapitakkul
Chai Jaturapitakkul
Department of Civil Engineering, Faculty of Engineering,
King Mongkut’s University of Technology Thonburi
, Bangkok, Thailand
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Corresponding author Sattawat Haruehansapong (sattawat_ha@rmutto.ac.th)
Declarations of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper.
Publisher: Emerald Publishing
Received:
September 24 2025
Accepted:
December 15 2025
Online ISSN: 1751-763X
Print ISSN: 0024-9831
Funding
Funding Group:
- Award Group:
- Funder(s): Thailand Research Fund (TRF)
- Award Id(s): RTA5380002
- Funder(s):
- Award Group:
- Funder(s): High-Potential Research Team Grant Program
- Award Id(s): N42A680319
- Funder(s):
- Funding Statement(s): The authors gratefully acknowledge financial support from the Thailand Research Fund (TRF) through a TRF senior research scholarship (grant no RTA5380002) and King Mongkut’s University of Technology Thonburi through the National Research University (NRU). In addition, the authors gratefully acknowledge financial support from the National Research Council of Thailand (NRCT), the National Science and Technology Development Agency (NSTDA) and the Department of Civil Engineering, Faculty of Engineering, King Mongkut’s University of Technology Thonburi (KMUTT) through the High-Potential Research Team Grant Program (grant no N42A680319).
© 2025 Emerald Publishing Limited
2025
Emerald Publishing Limited
Licensed re-use rights only
Magazine of Concrete Research (2026) 78 (3-4): 260–278.
Article history
Received:
September 24 2025
Accepted:
December 15 2025
Citation
Senawang W, Haruehansapong S, Cheewaket T, Tangchirapat W, Jaturapitakkul C (2026), "Water permeability and chloride-ion penetration resistance of eco-friendly concrete from ground palm oil fuel ash". Magazine of Concrete Research, Vol. 78 No. 3-4 pp. 260–278, doi: https://doi.org/10.1680/jmacr.25.00397
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