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- Title
Scale up of Microbial Fuel Cell Stack System for Residential Wastewater Treatment in Continuous Mode Operation.
- Authors
Valladares Linares, Rodrigo; Domínguez-Maldonado, Jorge; Rodríguez-Leal, Ernesto; Patrón, Gabriel; Castillo-Hernández, Alfonso; Miranda, Alfredo; Diaz Romero, Diana; Moreno-Cervera, Rodrigo; Camara-chale, Gerardo; Borroto, Carlos G.; Alzate-Gaviria, Liliana
- Abstract
The most important operational expense during wastewater treatment is electricity for pumping and aeration. Therefore, this work evaluated operational parameters and contaminant removal efficiency of a microbial fuel cell stack system (MFCSS) that uses no electricity. This system consists of (i) septic tank primary treatment, (ii) chamber for secondary treatment containing 18 MFCs, coupled to an energy-harvesting circuit (EHC) that stores the electrons produced by anaerobic respiration, and (iii) gravity-driven disinfection (sodium hypochlorite 5%). The MFCSS operated during 60 days (after stabilization period) and it was gravity-fed with real domestic wastewater from a house (5 inhabitants). The flow rate was 600 ± 100 L∙d−1. The chemical oxygen demand, biological oxygen demand, total nitrogen and total phosphorous were measured in effluent, with values of 100 ± 10; 12 ± 2; 9.6 ± 0.5 and 4 ± 0.2 mg∙L−1, and removal values of 86%, 87%, 84% and 64%, respectively. Likewise, an EHC (ultra-low energy consumption) was built with 6.3 V UCC® 4700 µF capacitors that harvested and stored energy from MFCs in parallel. Energy management was programmed on a microcontroller Atmega 328PB®. The water quality of the treated effluent complied with the maximum levels set by the Mexican Official Standard NOM-001-SEMARNAT-1996-C. A cost analysis showed that MFCSS could be competitive as a sustainable and energy-efficient technology for real domestic wastewater treatment.
- Subjects
WASTEWATER treatment; ELECTRICITY; WATER aeration; SODIUM hypochlorite; BIOCHEMICAL oxygen demand
- Publication
Water (20734441), 2019, Vol 11, Issue 2, p217
- ISSN
2073-4441
- Publication type
Article
- DOI
10.3390/w11020217