Electro-composting: an emerging technology

The present study focuses on electrical stimulation for composting. Using the PSALSAR method, a systematic review resulted in 24 relevant articles. For each system, the review describes key materials, composter design, operating conditions, temperature evolution, compost maturity, microbial community, and outcome. The examined studies fall into four main systems: electric field-assisted aerobic composting (EAAC), electrolytic oxygen aerobic composting (EOAC), microbial fuel cells (MFC), and thermoelectric generators (TEG). Apart from the main systems highlighted above, there is a rare case, which remains hardly studied. This includes bioelectrochemically assisted anaerobic composting (AnCBE, III). EAAC and EOAC systems biologically balance microbial activity and organic matter decomposition, whereas MFC and TEG systems have dual functioning due to energy generated alongside waste degradation. These innovative systems significantly improve composting efficiency by speeding up organic matter breakdown, increasing oxygen supply, and facilitating energy recovery. Together, they overcome the drawbacks of conventional composting systems and promote more environmentally friendly waste management solutions.