Microbial electrosynthesis for wastewater treatment: principles, process and performance
Global warming is a major issue in the world today. Wastewater treatment plants is one of the sources of carbon dioxide emission. Several technologies have been invented to curb the carbon dioxide emission into the atmosphere. One such technology is microbial electrosynthesis which use organic...
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sg-ntu-dr.10356-1635962022-12-12T06:11:00Z Microbial electrosynthesis for wastewater treatment: principles, process and performance Yeo, Sherlyn Mei Shan Liu Yu School of Civil and Environmental Engineering CYLiu@ntu.edu.sg Engineering::Environmental engineering::Water treatment Global warming is a major issue in the world today. Wastewater treatment plants is one of the sources of carbon dioxide emission. Several technologies have been invented to curb the carbon dioxide emission into the atmosphere. One such technology is microbial electrosynthesis which use organic carbon in wastewater as a substrate for the bacteria in the anode chamber. The bacteria oxidises the organic carbon, releasing carbon dioxide, electrons and protons. The electrons travel through the external circuit into the cathode chamber while the carbon dioxide and protons pass through a membrane. Another type of bacteria in the cathode chamber than utilize the carbon dioxide and electrons to form valuable organic compounds, hydrogen gas and met. MES technology could have different reactor configurations and each has its own advantages and disadvantages. One such configuration utilizes reverse electrodialysis stack in place of a membrane. This report analyzed the performance of MES technology using reverse electrodialysis stack (microbial reverse electrodialysis cell) and it was found to have a total organic carbon removal efficiency that is similar to a conventional wastewater treatment plant (~86%). In addition, energy consumption of a microbial reverse electrodialysis cell is low due to the use of thermolytic solution to drive the elections across the external circuit. Through the comparison between conventional wastewater treatment plant and MES technology, it was concluded that MES technology should be incorporated into conventional wastewater treatment plants since there is no significant decrease in TOC removal efficiency and the energy consumption by MES technology is much lower than that of conventional wastewater treatment plant. Bachelor of Engineering (Environmental Engineering) 2022-12-12T06:11:00Z 2022-12-12T06:11:00Z 2023 Final Year Project (FYP) Yeo, S. M. S. (2023). Microbial electrosynthesis for wastewater treatment: principles, process and performance. Final Year Project (FYP), Nanyang Technological University, Singapore. https://hdl.handle.net/10356/163596 https://hdl.handle.net/10356/163596 en application/pdf Nanyang Technological University |
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Engineering::Environmental engineering::Water treatment Yeo, Sherlyn Mei Shan Microbial electrosynthesis for wastewater treatment: principles, process and performance |
| description |
Global warming is a major issue in the world today. Wastewater treatment plants is one of the
sources of carbon dioxide emission. Several technologies have been invented to curb the carbon
dioxide emission into the atmosphere. One such technology is microbial electrosynthesis which
use organic carbon in wastewater as a substrate for the bacteria in the anode chamber. The bacteria
oxidises the organic carbon, releasing carbon dioxide, electrons and protons. The electrons travel
through the external circuit into the cathode chamber while the carbon dioxide and protons pass
through a membrane. Another type of bacteria in the cathode chamber than utilize the carbon
dioxide and electrons to form valuable organic compounds, hydrogen gas and met.
MES technology could have different reactor configurations and each has its own advantages and
disadvantages. One such configuration utilizes reverse electrodialysis stack in place of a
membrane. This report analyzed the performance of MES technology using reverse
electrodialysis stack (microbial reverse electrodialysis cell) and it was found to have a total
organic carbon removal efficiency that is similar to a conventional wastewater treatment plant
(~86%). In addition, energy consumption of a microbial reverse electrodialysis cell is low due to
the use of thermolytic solution to drive the elections across the external circuit. Through the
comparison between conventional wastewater treatment plant and MES technology, it was
concluded that MES technology should be incorporated into conventional wastewater treatment
plants since there is no significant decrease in TOC removal efficiency and the energy
consumption by MES technology is much lower than that of conventional wastewater treatment
plant. |
| author2 |
Liu Yu |
| author_facet |
Liu Yu Yeo, Sherlyn Mei Shan |
| format |
Final Year Project |
| author |
Yeo, Sherlyn Mei Shan |
| author_sort |
Yeo, Sherlyn Mei Shan |
| title |
Microbial electrosynthesis for wastewater treatment: principles, process and performance |
| title_short |
Microbial electrosynthesis for wastewater treatment: principles, process and performance |
| title_full |
Microbial electrosynthesis for wastewater treatment: principles, process and performance |
| title_fullStr |
Microbial electrosynthesis for wastewater treatment: principles, process and performance |
| title_full_unstemmed |
Microbial electrosynthesis for wastewater treatment: principles, process and performance |
| title_sort |
microbial electrosynthesis for wastewater treatment: principles, process and performance |
| publisher |
Nanyang Technological University |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/163596 |
| _version_ |
1753801120275234816 |