Sustainable resource recovery and process improvement in anaerobic digesters using hydrochar: A circular bio‐economic perspective

Sadish Oumabady; Sangeetha P. Ramasamy; S. Paul Sebastian; Rajinikanth Rajagopal; Parthiba K. Obulisamy; Rory Doherty; Sree Nanukuttan; Satish K. Bhardwaj; Deepak Kumaresan

doi:10.1002/sae2.12062

Journal of Sustainable Agriculture and Environment (Sep 2023)

Sustainable resource recovery and process improvement in anaerobic digesters using hydrochar: A circular bio‐economic perspective

Sadish Oumabady,
Sangeetha P. Ramasamy,
S. Paul Sebastian,
Rajinikanth Rajagopal,
Parthiba K. Obulisamy,
Rory Doherty,
Sree Nanukuttan,
Satish K. Bhardwaj,
Deepak Kumaresan

Affiliations

Sadish Oumabady: School of Biological Sciences & Institute for Global Food Security Queen's University Belfast Belfast UK
Sangeetha P. Ramasamy: School of Water, Energy and Environment Cranfield University Cranfield UK
S. Paul Sebastian: Agricultural College and Research Institute Tamil Nadu Agricultural University Kudumiyanmalai India
Rajinikanth Rajagopal: Sherbrooke Research and Development Center Agriculture and Agri‐Food Canada Sherbrooke Quebec Canada
Parthiba K. Obulisamy: Institute of Bioresource and Agriculture Hong Kong Baptist University Hong Kong China
Rory Doherty: School of Natural and Built Environment Queen's University Belfast Belfast UK
Sree Nanukuttan: School of Natural and Built Environment Queen's University Belfast Belfast UK
Satish K. Bhardwaj: Department of Environmental Science Dr. Y S Parmar University of Horticulture and Forestry Nauni India
Deepak Kumaresan: School of Biological Sciences & Institute for Global Food Security Queen's University Belfast Belfast UK

DOI: https://doi.org/10.1002/sae2.12062
Journal volume & issue: Vol. 2, no. 3
pp. 328 – 336

Abstract

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Abstract Hydrothermal carbonization (HTC) is a promising technology for waste valorisation and nutrient recovery to achieve sustainability. HTC converts organic waste into hydrochar, a carbon‐rich solid with numerous surface functionalities that can be used for energy and wastewater treatment. In this review, we highlight the potential of hydrochar‐based technology for improving the performance of anaerobic digestion (AD) systems and downstream applications of nutrient‐laden hydrochar. We identify knowledge gaps in hydrochar production, performance in AD systems and nutrient recovery, including the need for larger‐scale production facilities, multielement adsorption studies, and computational modelling. Techno‐economic analysis and life cycle assessment of hydrochar applications are critical to evaluating the commercial viability of this technology. Overall, hydrochar‐based technology offers a sustainable solution for waste management and resource recovery, with potential socioeconomic benefits for developing economies. The deployment of hydrochar‐based technology will directly address key issues highlighted in the United Nations' Sustainable Development Goals such as Clean water and sanitation (SDG 6); Zero hunger (SDG 2); and Climate action (SDG 13) thereby contributing to a more sustainable future.

Published in Journal of Sustainable Agriculture and Environment

ISSN: 2767-035X (Online)
Publisher: Wiley
Country of publisher: Australia
LCC subjects: Agriculture: Agriculture (General); Geography. Anthropology. Recreation: Environmental sciences
Website: https://onlinelibrary.wiley.com/journal/2767035x

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