Sustainable valorisation of food waste into engineered biochars for CO capture towards a circular economy

• Published in: Green chemistry : an international journal and green chemistry resource : GC Vol. 26; no. 4; pp. 179 - 185
• Main Authors: Jia, Wenhui, Li, Shuangjun, Wang, Junyao, Lee, Jonathan T. E, Lin, Carol Sze Ki, Mašek, Ond ej, Zhang, Huiyan, Yuan, Xiangzhou
• Format: Journal Article
• Published: 19.02.2024
• ISSN: 1463-9262; 1463-9270
• DOI: 10.1039/d3gc04138g

The large amount of food waste generated worldwidely has significant adverse environmental impacts to our entire ecosystem, highlighting the urgent need for a historic resolution to achieve sustainable managment of food waste as well as its circular economy. In this regard, preparation of engineered biochars from food waste has garnered significant attention for CO 2 capture, as this upcycling potential could play a significant role in advancing the concept of a negative carbon circular economy. Hence, this review holistically explores the potential of food waste-derived engineered biochars as CO 2 adsorbents, not only from sample-level to process-level CO 2 adsorption, but also from a life-cycle perspective. Sample-level CO 2 adsorption is examined in terms of synthetic methods and procedures, focusing on application and optimisation of carbonisation, activation, and surface modification processes. The application of machine learning for guiding syntheses of high-performance CO 2 adsorbents derived from food waste is also dicussed. Process-level CO 2 adsorption is examined in terms of two primary cycling configurations, namely pressure swing adsorption and temperature swing adsorption, whose efficiency is critical for commercialisation. In addition, a comprehensive life-cycle assessment is performed to provide a novel and timely overview of the environmental impacts of CO 2 adsorption using food waste-derived engineered biochars. This review demonstrates the viability and potential of integrating food waste-derived engineered biochars with carbon capture technologies to afford an environmentally friendly innovation for sustainable food waste management and climate change mitigation, which is benefical to achieving UN Sustainable Development Goals including Goals 11-13. The large amount of food waste generated globally has significant adverse environmental impacts, highlighting the need for a historic resolution to achieve sustainable managment of food waste as well as its circular economy.