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Advancing Sustainable Concrete Using Biochar: Experimental and Modelling Study for Mechanical Strength Evaluation

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Listed:
  • Waqas Ahmad

    (Department of Civil, Structural and Environmental Engineering, School of Transport and Civil Engineering, Technological University Dublin, D01 K822 Dublin, Ireland)

  • Venkata Satya Sai Chandra Sekhar Veeraghantla

    (Department of Civil, Structural and Environmental Engineering, School of Transport and Civil Engineering, Technological University Dublin, D01 K822 Dublin, Ireland)

  • Aimee Byrne

    (Office of the Vice President for Sustainability, Technological University Dublin, Grangegorman Campus, Clock Tower CT101, Grangegorman, D07 XT95 Dublin, Ireland)

Abstract

Innovative and creative solutions are needed to reduce the substantial carbon footprint of the concrete industry using low-carbon materials. Biochar has been recognised as an environmentally efficient material for concrete production. Also, it is required to build interpretable predictive models to advance modelling-based mix design optimisation. This study uses biochar as a cement substitute in concrete and assesses the mechanical strength using lab tests followed by predictive modelling approaches. Two types of biochar derived from olive pits and wood were used in 2.5 and 5 wt.% of cement. Cubes, cylinders, and beams were cast to test biochar concrete’s compressive, tensile, and flexural strength. The test data were used to develop and validate prediction models for the compressive strength (CS) using linear regression and gene expression programming (GEP) techniques. Moreover, SHapley Additive exPlanation (SHAP) analysis was performed to evaluate the influence of parameters on the CS. The results showed that olive pit biochar was more effective in enhancing the concrete strength than wood biochar due to the reduced particle size. The optimal replacement levels for olive pit biochar were 2.5 wt.% for the CS and 5 wt.% for the split tensile and flexural strength. The GEP model effectively captured the non-linear behaviour of biochar concrete and was more accurate than the linear regression model for the CS. The approach adopted in this study can be used to optimise mix design formulations for biochar concrete. These findings highlight the potential of biochar as a sustainable and effective cement substitute, contributing to the development of greener concrete with improved mechanical performance. Integrating biochar into concrete production can significantly lower the industry’s carbon footprint, promoting environmentally responsible construction practices while maintaining structural integrity.

Suggested Citation

  • Waqas Ahmad & Venkata Satya Sai Chandra Sekhar Veeraghantla & Aimee Byrne, 2025. "Advancing Sustainable Concrete Using Biochar: Experimental and Modelling Study for Mechanical Strength Evaluation," Sustainability, MDPI, vol. 17(6), pages 1-20, March.
    • Handle: RePEc:gam:jsusta:v:17:y:2025:i:6:p:2516-:d:1611282
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    References listed on IDEAS

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    3. Daniel Rose & Sharareh Shirzad, 2024. "Innovations in Green Concrete: Combining Metakaolin and Arundo Grass Biochar for Enhanced Sustainability," Sustainability, MDPI, vol. 16(24), pages 1-16, December.
    4. Dahl Winters & Kwaku Boakye & Steven Simske, 2022. "Toward Carbon-Neutral Concrete through Biochar–Cement–Calcium Carbonate Composites: A Critical Review," Sustainability, MDPI, vol. 14(8), pages 1-25, April.
    5. Ahmad Khalil Mohammed & A. M. T. Hassan & Ahmed Salih Mohammed, 2023. "Predicting the Compressive Strength of Green Concrete at Various Temperature Ranges Using Different Soft Computing Techniques," Sustainability, MDPI, vol. 15(15), pages 1-22, August.
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