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A platform for research: civil engineering, architecture and urbanism
Microbial Fuel Cell: An Application for Dairy Wastewater Treatment and Electricity Generation
Microbial Fuel Cell (MFC) is an alternative to convent Victorian wastewater treatment approach. This case study work shows the MFC as an appreciable approach in the treatment of dairy waste effluent and electricity generation. The better design results are calculated by appraising the practical by taking distinct electrodes, with different electrodes, and their surface area with separate detention time. MFC in graphite, carbon rods, aluminum rod, and stainless steel are used as electrode, and Agar + Sodium Chloride salt bridge issued as protonex change membrane bridge and established as the better design at 10 days of detention time and generated energy of 359 mV to 1106 mV, respectively. The amount of removal efficiencies accomplished in this case study experimental setup for different wastewater parameters which are COD, BOD, and TDS are 93.98%, 90.63%, and 57.52%, respectively. Finally, the result is concluded that “Microbial Fuel Cell Technology” is good alternative for dairy wastewater treatment and simultaneous energy production.
Microbial Fuel Cell: An Application for Dairy Wastewater Treatment and Electricity Generation
Microbial Fuel Cell (MFC) is an alternative to convent Victorian wastewater treatment approach. This case study work shows the MFC as an appreciable approach in the treatment of dairy waste effluent and electricity generation. The better design results are calculated by appraising the practical by taking distinct electrodes, with different electrodes, and their surface area with separate detention time. MFC in graphite, carbon rods, aluminum rod, and stainless steel are used as electrode, and Agar + Sodium Chloride salt bridge issued as protonex change membrane bridge and established as the better design at 10 days of detention time and generated energy of 359 mV to 1106 mV, respectively. The amount of removal efficiencies accomplished in this case study experimental setup for different wastewater parameters which are COD, BOD, and TDS are 93.98%, 90.63%, and 57.52%, respectively. Finally, the result is concluded that “Microbial Fuel Cell Technology” is good alternative for dairy wastewater treatment and simultaneous energy production.
Microbial Fuel Cell: An Application for Dairy Wastewater Treatment and Electricity Generation
Lecture Notes in Civil Engineering
Pathak, K. K. (editor) / Bandara, J. M. S. J. (editor) / Agrawal, Ramakant (editor) / Jyotishi, Prateek (author) / Rahi, Dal Chand (author)
2020-09-28
7 pages
Article/Chapter (Book)
Electronic Resource
English
Total dissolved solid , Chemical oxygen demand , Biochemical oxygen demand , Microbial fuel cell Engineering , Building Construction and Design , Geotechnical Engineering & Applied Earth Sciences , Transportation Technology and Traffic Engineering , Geoengineering, Foundations, Hydraulics , Construction Management , Remote Sensing/Photogrammetry
Sustainable Approach for Leachate Treatment: Electricity Generation in Microbial Fuel Cell
| Online Contents | 2006