Author
Listed:
- Gehad E. Nagi
(Soil and Water Department, Faculty of Environmental Agricultural Sciences, Arish University, North Sinai, Al-Arish 45516, Egypt)
- Dena Z. Khater
(Chemical Engineering Department, Engineering Research and Renewable Energy Institute, National Research Centre, 33 El Buhouth St., Dokki, Cairo 12622, Egypt)
- Amro Hassanein
(Yokogawa Corporation of America, Sugar Land, TX 77478, USA)
- Youssry I. Abdallah
(Soil and Water Department, Faculty of Environmental Agricultural Sciences, Arish University, North Sinai, Al-Arish 45516, Egypt)
- Ezzat R. Marzouk
(Soil and Water Department, Faculty of Environmental Agricultural Sciences, Arish University, North Sinai, Al-Arish 45516, Egypt
Agricultural Research Department, Ministry of Municipality, Doha 200022, Qatar)
- Kamel M. El-Khatib
(Chemical Engineering Department, Engineering Research and Renewable Energy Institute, National Research Centre, 33 El Buhouth St., Dokki, Cairo 12622, Egypt)
Abstract
The increasing demand for sustainable energy and efficient wastewater treatment has driven interest in single-chamber microbial fuel cells (SCMFCs) as integrated systems for bioelectricity generation and waste remediation. This study evaluates untreated agro-industrial byproduct olive mill wastewater (OMW) as a substrate in SCMFCs. It investigates the performance of activated biochar derived from olive pomace coated on stainless-steel mesh (ACB/SSM) as a low-cost cathode material. A synthetic media was used as a control. Electrochemical performance was assessed using voltage profiles, polarization analysis, power density, chemical oxygen demand (COD%) removal, and coulombic efficiency (CE%). The synthetic media achieved higher peak voltage (0.647 ± 0.026 V) and power density (46.05 mW m −2 ), whereas OMW showed more stable voltage output and lower internal resistance. OMW exhibited superior initial COD removal (74%) and a gradual increase in CE% up to 63% over successive cycles. In contrast, synthetic media exhibited a consistent COD% of 64%; its CE% removal improved to 61%. These results demonstrate that, despite lower peak power, OMW provides a more stable and sustainable substrate for long-term SCMFC operation. The use of waste-derived biochar cathodes further enhances system feasibility by reducing cost and supporting circular economy principles. This study highlights the potential of OMW-based SCMFCs as a practical approach for simultaneous wastewater treatment and renewable energy recovery.
Suggested Citation
Gehad E. Nagi & Dena Z. Khater & Amro Hassanein & Youssry I. Abdallah & Ezzat R. Marzouk & Kamel M. El-Khatib, 2026.
"From Olive Waste to Bioelectricity: Integrated Substrate Recovery and Biochar Cathode Engineering for Advanced Microbial Fuel Cells,"
Sustainability, MDPI, vol. 18(12), pages 1-18, June.
Handle:
RePEc:gam:jsusta:v:18:y:2026:i:12:p:6125-:d:1967421
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