Title : ( The Effect of Bicarbonate and CO2 as Carbon Sources in Cathod Section of Photosynthetic Sediment Microbial Fuel Cells )
Authors: Fatemeh Hosseini , Reza Gheshlaghi , Mahmood Akhavan Mahdavi ,Access to full-text not allowed by authors
Abstract
Sediment microbial fuel cell (SMFC) systems contain water and sediments. These systems are used to generate electrical energy from sediments and organic compounds. One disadvantage of this system is the low rate of oxygen production, which results in low voltage production. The Photosynthetic sediment microbial fuel cell (PSMFC) system uses the algae in the cathode chamber because photosynthesis lead to a higher amount of oxygen compared to aeration. In this study, two carbon sources of sodium bicarbonate and carbon dioxide in the catholyte section were investigated. A control cell without any carbon source was also operated. Results indicate that, the PSMFC without extra amount of a carbon source and the PSMFC containing bicarbonate at 4 g/l performed better than the cell with sparging CO2 as the carbon source at flow rate of 48 ml/s. Stable voltage output of PSMFCs containing bicarbonate and CO2 were 222±5 mv and 52±5 mv, respectively.
Keywords
, Sediment microbial fuel cell, Microalgae, Cathodic treatment, Dissolved oxygen@inproceedings{paperid:1088102,
author = {Hosseini, Fatemeh and Gheshlaghi, Reza and Akhavan Mahdavi, Mahmood},
title = {The Effect of Bicarbonate and CO2 as Carbon Sources in Cathod Section of Photosynthetic Sediment Microbial Fuel Cells},
booktitle = {The 17th International Chemical Engineering Congress & Exhibition (IChEC 2021)},
year = {2021},
location = {مشهد, IRAN},
keywords = {Sediment microbial fuel cell; Microalgae; Cathodic treatment; Dissolved oxygen},
}
%0 Conference Proceedings
%T The Effect of Bicarbonate and CO2 as Carbon Sources in Cathod Section of Photosynthetic Sediment Microbial Fuel Cells
%A Hosseini, Fatemeh
%A Gheshlaghi, Reza
%A Akhavan Mahdavi, Mahmood
%J The 17th International Chemical Engineering Congress & Exhibition (IChEC 2021)
%D 2021