Effect of submerged and floating cathodes on sustainable bioelectricity generation and benthic nutrient removal in sediment microbial fuel cells-Reference-Cited by-同舟云学术

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Effect of submerged and floating cathodes on sustainable bioelectricity generation and benthic nutrient removal in sediment microbial fuel cells

Published:2024-07 Issue: Volume:367 Page:131438
ISSN:0016-2361
Container-title:Fuel
language:en
Short-container-title:Fuel

Author:

Mohd Noor Nurfarhana Nabila,Oktavitri Nur Indradewi,Kim Kyunghoi

Funder

National Research Foundation of Korea

Ministry of Education

Publisher

Elsevier BV

Reference80 articles.

1. Intelligent energy harvesting scheme for microbial fuel cells: maximum power point tracking and voltage overshoot avoidance;Alaraj;J Power Sources,2017

2. Floating-type microbial fuel cell (FT-MFC) for treating organic-contaminated water;An;Environ Sci Tech,2009

3. Determination of effects of turbulence flow in a cathode environment on electricity generation using a tidal mud-based cylindrical-type sediment microbial fuel cell;An;J Environ Manage,2010

4. A review of role of cathodes in the performance of microbial fuel cells;Anjum;J Electroanal Chem,2021

5. Platinum group metal-free catalysts for oxygen reduction reaction: applications in microbial fuel cells;Aysla Costa De Oliveira;Catalysts,2020

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1. PTFE-based hydrophobic layers influence bioelectrical performance of sediment microbial fuel cells with floating air-cathode;International Journal of Hydrogen Energy;2024-10

2. Optimizing microbial fuel cells with multiple-objectives PSO and type-2 fuzzy neural networks;Fuel;2024-09

3. The impact of bottom water light exposure on electrical and sediment remediation performance of sediment microbial fuel cells;Chemosphere;2024-08

4. Statistical modelling of microbial fuel cells for optimization of maximum power generation efficiency using wastewater as substrate;Emergent Materials;2024-07-16

5. Analyzing microbial communities and metabolic functions in estuaries affected by human activity to uncover bioelectrochemical system potential;Environmental Advances;2024-07

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