Optimization of Agro-Industrial Waste Bioconversion into Bioelectricity
Tammam, A., Mohamed, M., Moubasher, H. (2025). Optimization of Agro-Industrial Waste Bioconversion into Bioelectricity. EKB Journal Management System, 68(1), 457-462. doi: 10.21608/ejchem.2024.284772.9629
Abdelrahman Mohamed Tammam; Mahmoud Saleh Mohamed; Hani Moubasher. "Optimization of Agro-Industrial Waste Bioconversion into Bioelectricity". EKB Journal Management System, 68, 1, 2025, 457-462. doi: 10.21608/ejchem.2024.284772.9629
Tammam, A., Mohamed, M., Moubasher, H. (2025). 'Optimization of Agro-Industrial Waste Bioconversion into Bioelectricity', EKB Journal Management System, 68(1), pp. 457-462. doi: 10.21608/ejchem.2024.284772.9629
Tammam, A., Mohamed, M., Moubasher, H. Optimization of Agro-Industrial Waste Bioconversion into Bioelectricity. EKB Journal Management System, 2025; 68(1): 457-462. doi: 10.21608/ejchem.2024.284772.9629

Optimization of Agro-Industrial Waste Bioconversion into Bioelectricity

Egyptian Journal of Chemistry
Volume 68, Issue 1, January 2025, Page 457-462  XML PDF (1.4 MB)
Document Type: Original Article
DOI: 10.21608/ejchem.2024.284772.9629
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Authors
Abdelrahman Mohamed Tammam email 1; Mahmoud Saleh Mohamedorcid 2; Hani Moubasher3
1Microbiology and Botany department, Faculty of Science,Cairo University, Cairo, Egypt
2Faculty of Science, Cairo University
3Microbiology, Faculty of Science, Cairo University
Abstract
Bioelectricity is considered one of the most important sources of clean green energy that has attracted the attention of many scientists to try to discover some of its secrets. Agro-industrial waste is widely used in the production of alternative energy in general and electricity in particular. There is an important agro-industrial waste produced during the molasses (black honey) industry in Upper Egypt, this waste called (El-ghasheem). In the present work, El-ghasheem was used in an economical-designed microbial fuel cell (MFC) to obtain cheap green electricity. The ’H’-type MFC was operated with a capacity of 600 ml in each chamber, and copper wire was used to link the two graphite rod electrodes. Lamp wicks that had been soaked in a 1M KCl solution were used to create an inexpensive salt bridge. Factors affecting the production of bioelectricity from this MFC were optimized to get the optimum power. Bioelectricity production was enhanced using crude microbial laccase as a cathodic reaction biocatalyst. Laccase produced from Penicillium chrysogenum was used to increase voltage and current from 0.40±0.011 V, 0.02±0.002 A to 0.608±0.002 V and 0.05±0.003 A, respectively at 37 °C, anolyte pH 6, and catholyte pH 5 for a 10-day incubation period.
Keywords
Microbial fuel cell; Bioelectricity; Bioconversion; Agro-industrial waste; Laccase
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