ICMAME 2023 Conference Proceedings
Paper No: 354
Paper Title: 3D Printing of High Performance Electrodes for Electrochemical Cell
Paper Title: 3D Printing of High Performance Electrodes for Electrochemical Cell
AUTHORS:
Hosseinali Aghasharif Industrial Systems Engineering, Faculty of Engineering and Applied Science University of Regina, Regina, Canada
Mohammad Abu Hasan Khondoker Industrial Systems Engineering, Faculty of Engineering and Applied Science University of Regina, Regina, Canada
ABSTRACT:
Natural resources play key roles not only in our personal daily life but also in modern industries and businesses. It is necessary to prevent the loss of natural resources, through waste-to-wealth principles. Recently, researchers demonstrated huge potential to generate electricity out of wastewater, enabled by microorganisms in microbial electrochemical cells. It was identified that the carbon nanomaterial-based electrodes with a higher surface area can significantly improve the performance of electrochemical conversion. Therefore, in this work, using 3D printing technology, electrodes with higher surface areas were manufactured where the effect of different lattice structures was tested. Also, computational analyses were performed to compare the pressure head losses due to different lattice structures in order to obviate damage to the cell membrane.
Keywords: Proportional Integral Derivative (PID), Swarm Intelligence (SI), Renewable Energy (RE), Statistical Analysis
Conference Venue: Mövenpick Hotel & Apartments Bur Dubai, Dubai-UAE
Conference Date: 29-30 April 2023
ISBN Number: 978-625-00-1526-1
DOI Number: https://doi.org/10.53375/icmame.2023.354
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Hosseinali Aghasharif Industrial Systems Engineering, Faculty of Engineering and Applied Science University of Regina, Regina, Canada
Mohammad Abu Hasan Khondoker Industrial Systems Engineering, Faculty of Engineering and Applied Science University of Regina, Regina, Canada
ABSTRACT:
Natural resources play key roles not only in our personal daily life but also in modern industries and businesses. It is necessary to prevent the loss of natural resources, through waste-to-wealth principles. Recently, researchers demonstrated huge potential to generate electricity out of wastewater, enabled by microorganisms in microbial electrochemical cells. It was identified that the carbon nanomaterial-based electrodes with a higher surface area can significantly improve the performance of electrochemical conversion. Therefore, in this work, using 3D printing technology, electrodes with higher surface areas were manufactured where the effect of different lattice structures was tested. Also, computational analyses were performed to compare the pressure head losses due to different lattice structures in order to obviate damage to the cell membrane.
Keywords: Proportional Integral Derivative (PID), Swarm Intelligence (SI), Renewable Energy (RE), Statistical Analysis
Conference Venue: Mövenpick Hotel & Apartments Bur Dubai, Dubai-UAE
Conference Date: 29-30 April 2023
ISBN Number: 978-625-00-1526-1
DOI Number: https://doi.org/10.53375/icmame.2023.354
PDF Download