Effects of supporting electrolytes in treatment of arsenate-containing wastewater with power generation by aluminumair fuel cell electrocoagulation

• Published in: Journal of industrial and engineering chemistry (Seoul, Korea) Vol. 57; pp. 254 - 262
• Main Authors: Maitlo, Hubdar Ali, Kim, Jung Hwan, An, Byung Min, Park, Joo Yang
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 01.01.2018; 한국공업화학회
• Subjects: Aluminum–air fuel cell electrocoagulation; Arsenate removal; Initial pH; Power generation; Supporting electrolyte; 화학공학; Initial pH; Aluminum–air fuel cell electrocoagulation; Supporting electrolyte; Arsenate removal; Power generation
• ISSN: 1226-086X; 1876-794X
• DOI: 10.1016/j.jiec.2017.08.031

[Display omitted] •The aluminum–air fuel cell electrocoagulation was used to treat arsenate.•The 10mM NaCl was an effective anode electrolyte.•The 1mgL−1 arsenate from 1L of wastewater was reduced to 1μgL−1 in 4h.•The maximum power density was 112mW/m2 with 10mM NaCl anolyte.•The maximum power density was 308mW/m2 with 8:10mM of mixed Na2SO4:NaCl anolyte. Aluminum–air fuel cell electrocoagulation was evaluated for arsenate removal during power production. Effects of operational parameters (type and concentration of individual and mixed supporting electrolytes and initial pH) were investigated. 1mgL−1 arsenate in 1L of anolyte (with 10mM NaCl) was reduced to 1μgL−1 in 4h, power density produced was 112mW/m2. 8mM Na2SO4 mixed with 10mM NaCl created optimal conditions as mixed supporting electrolyte. Power density increased to 308mW/m2 and arsenate was reduced to 15μgL−1 after 24h. This indicates aluminum–air fuel cell electrocoagulation is useful treatment process.