Fuente: Sustainability - Revista científica (MDPI) Sustainability, Vol. 18, Pages 638: Recent Advances in Scaling Up Microbial Fuel Cell Systems for Wastewater Treatment, Energy Recovery, and Environmental Sustainability
Sustainability doi: 10.3390/su18020638
Authors:
Tahereh Jafary
Ali Mousavi
Anteneh Mesfin Yeneneh
Mohammed Saif Al-Kalbani
Buthaina Mahfoud Al-Wahaibi

Microbial fuel cells (MFCs) are a promising technology for simultaneously treating wastewater and recovering energy, yet scaling them from lab prototypes to practical systems poses persistent challenges. This review addresses the scale-up gap by systematically examining recent pilot-scale MFC studies from multiple perspectives, including reactor design configurations, materials innovations, treatment performance, energy recovery, and environmental impact. The findings show that pilot MFCs reliably achieve significant chemical oxygen demand (COD) removal (often 50–90%), but power densities remain modest (typically 0.1–10 W m−3)—far below levels needed for major energy generation. Key engineering advances have improved performance; modular stacking maintains higher power output, low-cost electrodes and membranes reduce costs (with some efficiency trade-offs), and power-management strategies mitigate issues like cell reversal. Life cycle assessments indicate that while MFC systems can outperform conventional treatment in specific scenarios, overall sustainability gains depend on boosting energy yields and optimizing materials. The findings highlight common trade-offs and emerging strategies. By consolidating recent insights, a roadmap of design principles and research directions to advance MFC technology toward sustainable, energy-positive wastewater treatment was outlined.