Advanced oxidation processes for in-situ production of hydrogen peroxide/hydroxyl radical for textile wastewater treatment: a review
Fenton Process, a type of Advanced Oxidation Processes is an efficient method for treating
textile wastewaters. However, excessive use of hydrogen peroxide and catalyst has made …
textile wastewaters. However, excessive use of hydrogen peroxide and catalyst has made …
Microbial electrochemical technologies with the perspective of harnessing bioenergy: maneuvering towards upscaling
Microbial electrochemical technologies have gained much attention in the recent years
during which basic research has been carried out to provide proof of concept by utilizing …
during which basic research has been carried out to provide proof of concept by utilizing …
Performance and inorganic fouling of a submergible 255 L prototype microbial fuel cell module during continuous long-term operation with real municipal wastewater …
H Hiegemann, T Littfinski, S Krimmler, M Lübken… - Bioresource …, 2019 - Elsevier
Abstract A submergible 255 L prototype MFC module was operated under practical
conditions with municipal wastewater having a large share in industrial discharges for 98 …
conditions with municipal wastewater having a large share in industrial discharges for 98 …
[HTML][HTML] The electrochemical perspective of bioelectrocatalytic activities in microbial electrolysis and microbial fuel cells
Transforming organic waste directly into electricity or indirectly into sources of hydrogen fuel
is credible through exoelectrogen microorganisms grown on the anode or cathode that …
is credible through exoelectrogen microorganisms grown on the anode or cathode that …
Scaling-up of membraneless microbial electrolysis cells (MECs) for domestic wastewater treatment: Bottlenecks and limitations
Microbial electrolysis cells (MECs) have the potential to become a sustainable domestic
wastewater (dWW) treatment system. However, new scale-up experiences are required to …
wastewater (dWW) treatment system. However, new scale-up experiences are required to …
Electricity generation from food wastes and microbial community structure in microbial fuel cells
J Jia, Y Tang, B Liu, D Wu, N Ren, D Xing - Bioresource technology, 2013 - Elsevier
Microbial fuel cell (MFC) was studied as an alternate and a novel way to dispose food
wastes (FWs) in a waste-to-energy form. Different organic loading rate obviously affected the …
wastes (FWs) in a waste-to-energy form. Different organic loading rate obviously affected the …
Metal-free activated biochar as an oxygen reduction reaction catalyst in single chamber microbial fuel cells
TP Sciarria, MAC de Oliveira, B Mecheri… - Journal of Power …, 2020 - Elsevier
Metal-free catalysts are promising candidates for Bio-electrochemical Systems (BESs) due
to their high surface area, chemical stability, good electrical conductivity, and enhanced …
to their high surface area, chemical stability, good electrical conductivity, and enhanced …
Substrate salinity: A critical factor regulating the performance of microbial fuel cells, a review
F Guo, H Luo, Z Shi, Y Wu, H Liu - Science of The Total Environment, 2021 - Elsevier
Substrate salinity is a critical factor influencing microbial fuel cells (MFCs) performance and
various studies have suggested that increasing substrate salinity first improves MFC …
various studies have suggested that increasing substrate salinity first improves MFC …
A review of the operating parameters on the microbial fuel cell for wastewater treatment and electricity generation
S Malekmohammadi… - Water Science and …, 2021 - iwaponline.com
Environmental and economic considerations suggest a more efficient and comprehensive
use of biomass for bioenergy production. One of the most attractive technologies is the …
use of biomass for bioenergy production. One of the most attractive technologies is the …
Enhanced electricity generation performance and dye wastewater degradation of microbial fuel cell by using a petaline NiO@ polyaniline-carbon felt anode
D Zhong, X Liao, Y Liu, N Zhong, Y Xu - Bioresource technology, 2018 - Elsevier
A new electrode which embedded polyaniline (PANI) in petaline NiO (NiO@ PANI-CF) was
prepared through in-situ growth and in-situ polymerization. The NiO@ PANI-CF integrated …
prepared through in-situ growth and in-situ polymerization. The NiO@ PANI-CF integrated …