Life Cycle Carbon Assessment of Reinforced Concrete (RC) Buildings using Optimised Structural Design Alternatives: A Case Study of 2-Storey Residential Building

Authors

Nur Izzati binti Mohd Marzuki

Faculty of Civil Engineering and Technology, University Malaysia Perlis, Arau, 02600 Perlis (Malaysia)

Wan Mohd Sabki Wan Omar

Faculty of Civil Engineering and Technology, University Malaysia Perlis, Arau, 02600 Perlis (Malaysia)

Article Information

DOI: 10.47772/IJRISS.2025.91200178

Subject Category: Engineering & Technology

Volume/Issue: 9/12 | Page No: 2343-2353

Publication Timeline

Submitted: 2025-12-11

Accepted: 2025-12-18

Published: 2026-01-06

Abstract

A life cycle carbon assessment of reinforced concrete buildings involves evaluating the carbon emissions related with the entire life cycle of the building. The assessment aims to create model of two-storey residential buildings with optimized structural design alternatives using Esteem software. It also seeks to compute the embodied energy (EE) and embodied carbon (EC) emissions for the building and reduce them by using optimized structural solutions in a real building scenario. Esteem software is used to create a life cycle carbon assessment of reinforced concrete buildings. The assessment aims to create a 2-D model of two-storey residential buildings with optimized structural design alternatives, calculating embodied energy (EE) and embodied carbon (EC) emissions. Esteem Software's material take-off features were used to calculate EC emissions and EE of building parts. Two models were developed by using concrete grade 35, aluminium for formwork, steel, and clay for the roof, and the other using steel, concrete grade 30, plywood, and metal for the roof. The bill of quantity generated by Esteem software and manual estimation of clay and metal roofs were used in the study. The results showed that building 1 had more EE and EC emissions, while building 2 had less. Building 2 had 73% less total EE and produced 64% less EC than building 1, suggesting that replacing grade concrete, formwork, and roof type can reduce EE and EC emissions.

Keywords

Esteem Software, Embodied Energy, Embodied Carbon, Life Cycle Assessment, Reinforced Concrete

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References

1. M. Adiyanto and T. Majid, "Seismic design of two storey reinforced concrete building in Malaysia with low class ductility," Journal of Engineering Science and Technology, vol. 9, pp. 27-46, 2014. [Google Scholar] [Crossref]

2. R. A. Salgado, D. Apul, and S. Guner, "Life cycle assessment of seismic retrofit alternatives for reinforced concrete frame buildings," Journal of Building Engineering, vol. 28, p. 101064, 2020/03/01/ 2020. [Google Scholar] [Crossref]

3. M. Afzal, Y. Liu, J. C. P. Cheng, and V. J. L. Gan, "Reinforced concrete structural design optimization: A critical review," Journal of Cleaner Production, vol. 260, p. 120623, 2020/07/01/ 2020. [Google Scholar] [Crossref]

4. S. Seyis, "Mixed method review for integrating building information modeling and life-cycle assessments," Building and Environment, vol. 173, p. 106703, 2020/04/15/ 2020. [Google Scholar] [Crossref]

5. S. Eleftheriadis, P. Duffour, P. Greening, J. James, B. Stephenson, and D. Mumovic, "Investigating relationships between cost and CO2 emissions in reinforced concrete structures using a BIM-based design optimisation approach," Energy and Buildings, vol. 166, pp. 330-346, 2018/05/01/ 2018. [Google Scholar] [Crossref]

6. A. Sabnis, P. Mysore, and S. Anant, Construction Materials-Embodied Energy Footprint-Global Warming; Interaction, 2015. [Google Scholar] [Crossref]

7. K. Amoah, "Optimizing Building Information Modeling and Value Engineering Synergy for Construction Schedule and Cost Worth," Journal of Civil Engineering Research, vol. 13, pp. 12-23, 2023. [Google Scholar] [Crossref]

8. D. Chang, C. K. M. Lee, and C.-H. Chen, "Review of life cycle assessment towards sustainable product development," Journal of Cleaner Production, vol. 83, pp. 48-60, 2014/11/15/ 2014. [Google Scholar] [Crossref]

9. Y. Teng, J. Xu, W. Pan, and Y. Zhang, "A systematic review of the integration of building information modeling into life cycle assessment," Building and Environment, vol. 221, p. 109260, 2022/08/01/ 2022. [Google Scholar] [Crossref]

10. M. Lotteau, P. Loubet, and G. Sonnemann, "An analysis to understand how the shape of a concrete residential building influences its embodied energy and embodied carbon," Energy and Buildings, vol. 154, pp. 1-11, 2017/11/01/ 2017. [Google Scholar] [Crossref]

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