[PDF][PDF] Influence of Substrate and Salinity on Electricity Production by Deep-Sea Strain Shewanella sp DS1
BA Wang, XH Chen, FC Xu, W Wang… - Power and Energy …, 2010 - file.scirp.org
The influences of substrate, concentration and salinity on electricity production in MFCs
were investigated. Deep-sea exoelectrogenic bacterium Shewanella sp. DS1 could not …
were investigated. Deep-sea exoelectrogenic bacterium Shewanella sp. DS1 could not …
Current Production by a Deep-Sea Strain Shewanella sp. DS1
D Wei, X Zhang - Current microbiology, 2007 - Springer
Electricity-generating bacteria have attracted intensive studies in recent years as an
important resource for energy generation. In this investigation, a bacterial isolate capable of …
important resource for energy generation. In this investigation, a bacterial isolate capable of …
[HTML][HTML] Electricity production in two-chamber microbial fuel cells using exoelectrogenic Shewanella sp. isolated from sediments of the Caspian Sea
M Mohseni - Cellular and Molecular Research (Iranian Journal of …, 2017 - cell.ijbio.ir
A microbial fuel cell is a bioelectrochemical system that converts chemical energy in organic
compounds to electrical energy through catalytic reactions of microorganisms under …
compounds to electrical energy through catalytic reactions of microorganisms under …
Influence of environmental factors on electricity production by microbial fuel cell inoculation Shewanella baltica
The influences of the anodic substance, concentration, pH and temperature on the electricity
production by MFCs were discussed. The lactic sodium was better than acetic sodium or …
production by MFCs were discussed. The lactic sodium was better than acetic sodium or …
[HTML][HTML] Simultaneous Desalination of Sea Water and Electricity Production with New Membrane Technology, Air-Cathode Microbial Desalination Cells
MAD ASADi-GhAlhAri, N Mehrdadi… - Current World …, 2015 - cwejournal.org
Water and energy shortages, has increased the need for methods that can provide low
energy for desalination of sea water. Microbial desalination cell is one of the most important …
energy for desalination of sea water. Microbial desalination cell is one of the most important …
[PDF][PDF] Bioelectricity production and simultaneous bio-desalination of seawater with marine bacteria
E Kokabi, E Asgarani - Desalination and Water Treatment, 2023 - researchgate.net
abstract The idea of using marine bacteria to desalinate seawater and simultaneously
generate electricity from it as a sustainable resource has been investigated. To obtain …
generate electricity from it as a sustainable resource has been investigated. To obtain …
Microbial desalination cell: a sustainable approach for brackish water desalination and wastewater treatment with bioelectricity generation
S Sevda, Z He, I Abureesh - Qatar Foundation Annual Research …, 2014 - qscience.com
MICROBIAL DESALINATION CELL: A SUSTAINABLE APPROACH FOR BRACKISH
WATER DESALINATION AND WASTEWATER TREATMENT WITH BIOELECTRICITY …
WATER DESALINATION AND WASTEWATER TREATMENT WITH BIOELECTRICITY …
Bioelectricity generation from treatment of petroleum refinery wastewater with simultaneous seawater desalination in microbial desalination cells
Petroleum refinery wastewater (PRW) contains a high concentration of pollutants and may
pose serious environmental risks. Conventional treatment methods of PRW are energy …
pose serious environmental risks. Conventional treatment methods of PRW are energy …
Evolution of Seawater Desalination and Petroleum Refinery Wastewater Treatment in a Microbial Desalination Cell
IM Abu Reesh, S Sevda, Z He - Qatar Foundation Annual Research …, 2016 - qscience.com
Petroleum refining, not only consumes large quantities of water but also generates large
quantities of wastewater. Large quantities of petroleum refinery wastewater are generated …
quantities of wastewater. Large quantities of petroleum refinery wastewater are generated …
Electricity generation at high ionic strength in microbial fuel cell by a newly isolated Shewanella marisflavi EP1
J Huang, B Sun, X Zhang - Applied microbiology and biotechnology, 2010 - Springer
Increasing the ionic strength of the electrolyte in a microbial fuel cell (MFC) can remarkably
increase power output due to the reduction of internal resistance. However, only a few …
increase power output due to the reduction of internal resistance. However, only a few …