A holistic framework of biochar-augmented cementitious products and general applications: Technical, environmental, and economic evaluation

Claudia Labianca, Xiaohong Zhu, Carmen Ferrara, Yuying Zhang, Giovanni De Feo, Shu Chien Hsu, Daniel C.W. Tsang

Research output: Journal article publicationJournal articleAcademic researchpeer-review

4 Citations (Scopus)

Abstract

In the context of the circular economy, the development of innovative and low-carbon concrete that incorporates different kinds of waste materials is gaining attention among the research community, regulatory agencies, and policymakers. These materials can be incorporated into concrete mixtures as aggregates or as fillers for improvement of product properties. This study aims to identify reliable designs for biochar-augmented cementitious products and general applications through technical, environmental, and economic assessments. The outcomes demonstrate that 5 wt% biochar addition could enhance the compressive strength of the final products. Using biochar, together with other recycled materials, can enormously reduce the environmental impacts, especially for global warming, enabling biochar-augmented cementitious products and general application as carbon-negative resources. The highest GWP reduction reached −720 kg CO2/tonne, equal to a 200% saving. A high quantity of biochar could be included in several specific applications (up to 60 wt%). The economic assessment highlights that the proposed designs are cost-effective and carbon tax can be significantly reduced. Carbon credits can also be earned for some carbon-negative designs. These findings can serve to mitigate GHG emissions and provide decision-makers with a reliable and holistic framework towards the goal of carbon neutrality.

Original languageEnglish
Article number118026
JournalEnvironmental Research
Volume245
DOIs
Publication statusPublished - 15 Mar 2024

Keywords

  • Circular economy
  • Engineering biochar
  • Low-carbon concrete
  • Multi-criteria decision analysis
  • Sustainable construction materials
  • Wood waste pyrolysis

ASJC Scopus subject areas

  • Biochemistry
  • General Environmental Science

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