Global Journal of Engineering and Technology Research (GJETR)
Life-Cycle Based Evaluation of Organic Waste Valorization for Low-Carbon Construction Materials in the United States
Gate, Casper Uyapo, Oduor, Wycliff, Dauda, Mariam
2 July 2026 · Vol. 2, Issue 7, pp. 269-277
DOI: 10.65150/EP-gjetr/V2E7/2026-02
Abstract
The construction industry is a major contributor to global greenhouse gas emissions, largely driven by the carbon-intensive production of Portland cement. At the same time, the United States generates substantial volumes of organic waste from agricultural, forestry, and municipal systems, much of which remains underutilized. Integrating life-cycle assessment (LCA) with organic waste valorization presents a promising pathway for reducing the embodied carbon of construction materials while advancing circular economy objectives.This narrative review synthesizes recent literature on the use of organic waste-derived materials in construction, including agricultural residue-based supplementary cementitious materials (SCMs), biochar-enhanced concrete, sewage sludge ash (SSA), and geopolymer or alkali-activated binders. Comparative analysis is conducted using a common reference system based on conventional Portland cement concrete representative of U.S. practice. Reported reductions in embodied carbon vary across pathways: agricultural ash SCMs achieve 15–35%, biochar concrete 10–30%, SSA 10–25%, and geopolymer systems range from –20% to +50%, depending on methodological assumptions. Results indicate that direct material substitution pathways generally provide greater carbon reduction benefits than waste-to-energy alternatives. However, significant methodological inconsistencies particularly in system boundaries, functional units, and allocation methods, limit cross-study comparability.The study proposes a pathway suitability framework to guide context-specific material selection. Achieving large-scale implementation will require regulatory alignment, durability validation, and targeted infrastructure investment to fully realize the decarbonization potential of organic waste valorization in construction.
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Cite this article
Gate, Casper Uyapo, Oduor, Wycliff, Dauda, & Mariam (2026). Life-Cycle Based Evaluation of Organic Waste Valorization for Low-Carbon Construction Materials in the United States. Global Journal of Engineering and Technology Research, 2(7), 269-277. https://doi.org/10.65150/EP-gjetr/V2E7/2026-02
@article{Gate2026,
title = {Life-Cycle Based Evaluation of Organic Waste Valorization for Low-Carbon Construction Materials in the United States},
author = {Gate and Casper Uyapo and Oduor and Wycliff and Dauda and Mariam},
journal = {Global Journal of Engineering and Technology Research},
year = {2026},
volume = {2},
number = {7},
pages = {269-277},
doi = {10.65150/EP-gjetr/V2E7/2026-02},
url = {https://doi.org/10.65150/EP-gjetr/V2E7/2026-02}
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