Carbon-Negative Construction Material Based on Rice Production Residues
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Date
2025-07-25
Journal Title
Journal ISSN
Volume Title
Publisher
MDPI
Abstract
This study presents a cost-effective, carbon-negative construction material for affordable
housing, developed entirely from locally available agricultural wastes: rice husk ash, wood
ash, and rice straw—materials often problematic to dispose of in many African regions.
Rice husk ash provides high amorphous silica, acting as a strong pozzolanic agent. Wood
ash contributes calcium oxide and alkalis to serve as a reactive binder, while rice straw
functions as a lightweight organic filler, enhancing thermal insulation and indoor climate
comfort. These materials undergo natural pozzolanic reactions with water, eliminating
the need for Portland cement—a major global source of anthropogenic CO2 emissions
(~900 kg CO2/ton cement). This process is inherently carbon-negative, not only avoiding
emissions from cement production but also capturing atmospheric CO2 during lime carbonation in the hardening phase. Field trials in Kenya confirmed the composite’s sufficient
structural strength for low-cost housing, with added benefits including termite resistance
and suitability for unskilled laborers. In a collaboration between the University of Tartu
and Kenyatta University, a semi-automatic mixing and casting system was developed, enabling fast, low-labor construction of full-scale houses. This innovation aligns with Kenya’s
Big Four development agenda and supports sustainable rural development, post-disaster
reconstruction, and climate mitigation through scalable, eco-friendly building solutions.
Description
Research article
Keywords
Citation
Liiv, J.; Githuku, C.R.; Mwai, M.; Mändar, H.; Ritslaid, P.; Shanskiy, M.; Rikmann, E. Carbon-Negative Construction Material Based on Rice Production Residues. Materials 2025, 18, 3534. https://doi.org/10.3390/ ma18153534