Thermodynamic Modeling of Binary Binders with Agricultural Residues for Hydration Analysis

Ajeesh Kumar, N. S.; Radhika, K. L.

doi:10.15255/CABEQ.2024.2339

Chemical and Biochemical Engineering Quarterly, Vol. 39 No. 1, 2025.

Original scientific paper

https://doi.org/10.15255/CABEQ.2024.2339

Thermodynamic Modeling of Binary Binders with Agricultural Residues for Hydration Analysis

N. S. Ajeesh Kumar orcid.org/0009-0005-5885-904X ; Department of Civil Engineering, University College of Engineering, Osmania University, Hyderabad, Telangana, India
K. L. Radhika ; Department of Civil Engineering, University College of Engineering, Osmania University, Hyderabad, Telangana, India

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APA 6th Edition

Ajeesh Kumar, N.S. & Radhika, K.L. (2025). Thermodynamic Modeling of Binary Binders with Agricultural Residues for Hydration Analysis. Chemical and Biochemical Engineering Quarterly, 39 (1), 29-36. https://doi.org/10.15255/CABEQ.2024.2339

MLA 8th Edition

Ajeesh Kumar, N. S. and K. L. Radhika. "Thermodynamic Modeling of Binary Binders with Agricultural Residues for Hydration Analysis." Chemical and Biochemical Engineering Quarterly, vol. 39, no. 1, 2025, pp. 29-36. https://doi.org/10.15255/CABEQ.2024.2339. Accessed 5 Dec. 2025.

Chicago 17th Edition

Ajeesh Kumar, N. S. and K. L. Radhika. "Thermodynamic Modeling of Binary Binders with Agricultural Residues for Hydration Analysis." Chemical and Biochemical Engineering Quarterly 39, no. 1 (2025): 29-36. https://doi.org/10.15255/CABEQ.2024.2339

Harvard

Ajeesh Kumar, N.S., and Radhika, K.L. (2025). 'Thermodynamic Modeling of Binary Binders with Agricultural Residues for Hydration Analysis', Chemical and Biochemical Engineering Quarterly, 39(1), pp. 29-36. https://doi.org/10.15255/CABEQ.2024.2339

Vancouver

Ajeesh Kumar NS, Radhika KL. Thermodynamic Modeling of Binary Binders with Agricultural Residues for Hydration Analysis. Chemical and Biochemical Engineering Quarterly [Internet]. 2025 [cited 2025 December 05];39(1):29-36. https://doi.org/10.15255/CABEQ.2024.2339

IEEE

N.S. Ajeesh Kumar and K.L. Radhika, "Thermodynamic Modeling of Binary Binders with Agricultural Residues for Hydration Analysis", Chemical and Biochemical Engineering Quarterly, vol.39, no. 1, pp. 29-36, 2025. [Online]. https://doi.org/10.15255/CABEQ.2024.2339

Abstract

Supplementary cementitious materials (SCMs), such as fly ash, blast furnace slag, rice husk ash (RHA), and sugarcane bagasse ash (SBA), are increasingly used to promote sustainable construction practices. However, understanding how the chemical composition, fineness, reactive phases, and pore solution content of SCMs affect the reaction process and hydration of cement is challenging. Researchers are developing models, including thermodynamic modelling (TDM), to better understand these effects. TDM is a useful tool for predicting the composition of pore solution and understanding the composition of hydrated cement and SCMs. This study investigates two types of ordinary Portland cement (OPC1 and OPC II) with varying chemical and mineral compositions mixed with two SCMs (RHA and SBA). Using TDM, the impact of cement content on hydrate generation in binary mixes is studied. The results revealed that OPC l and OPC ll hydration models predicted CSH gel, ettringite, hydrotalcite, calcite, and portlandite. In comparison to OPC1, OPC II predicts 21 % more CSH gel and 25 % less hydrogarnet. The study also found that jennite-like CSH transforms into tobermorite-like CSH with an in crease in RHA, and a decrease in portlandite was observed in SBA blended systems. The TDM results were validated using experimental data, providing valuable insights into the type and composition of hydrates that develop during cement hydration and its blends with SCMs.

This work is licensed under a Creative Commons Attribution 4.0 International License.

Keywords

cement; hydration; modelling; sustainable concrete-making materials

Hrčak ID:

330494

URI

https://hrcak.srce.hr/330494

Publication date:

29.4.2025.

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Chemical and Biochemical Engineering Quarterly, Vol. 39 No. 1, 2025.

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