Corn waste-derived biochar as a sustainable fine aggregate in pervious concrete for climate-resilient urban pavement applications
Thanon Bualuang, Peerapong Jitsangiam, Nutchapon Chusai, Kritsadaporn Porninta, Ubolluk Rattanasak, Harn Wei Kua
Abstract
This study introduces a novel pervious concrete incorporating corn waste-derived biochar as a partial replacement for natural fine aggregate. Unlike prior work that substitutes biochar for cement, this design uses biochar as a sustainable bio-fine aggregate, replacing 7.5–12 % of fine sand. The optimized mix (BPC3) achieved a 28-day compressive strength of 14.7 MPa, a total porosity of 27.3 %, and a water permeability of 4.21 mm/s. These values meet the functional requirements for permeable pavements. A cradle-to-gate life cycle assessment revealed a 21.6 % reduction in greenhouse gas emissions compared to conventional pervious concrete. This environmental benefit arises from carbon sequestration in biochar and avoided CO 2 emissions from the open-field burning of corn residues. These results demonstrate that corn-biochar pervious concrete can deliver the necessary mechanical and hydraulic performance while substantially reducing embodied carbon, offering a low-carbon solution for sustainable pavement construction. • Corn waste biochar was used as a sustainable fine aggregate in pervious concrete. • The optimized mix achieved 15.1 MPa strength and 4.21 mm/s permeability. • Life cycle assessment showed a 26 % reduction in GHG emissions. • The field pilot project demonstrated suitability for urban permeable parking lots. • This approach supports the circular economy and a climate-resilient built environment.