Voltage loss breakdown in desalination fuel cells

Voltage loss breakdown in desalination fuel cells

The desalination fuel cell (DFC) is a novel technology for co-production of electricity and desalinated water from a clean energy source, the H2/O2 redox couple. A DFC utilizes a fuel cell anode and cathode to catalyze the chemical-to-electrical energy conversion, as well as a cation and anion excha...

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Main Authors: Salman Abdalla, Shada Abu Khalla, Matthew E. Suss
Format: Article
Language:English
Published: Elsevier 2021-11-01
Series:Electrochemistry Communications
Subjects:
Fuel cell
Electrochemical water desalination
Desalination fuel cell
Ion exchange membranes
Fuel cell catalysts
Online Access:http://www.sciencedirect.com/science/article/pii/S1388248121002204
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spelling doaj-f602977a30a54d3d921fa0ded529a68e2021-10-07T04:24:19ZengElsevierElectrochemistry Communications1388-24812021-11-01132107136Voltage loss breakdown in desalination fuel cellsSalman Abdalla0Shada Abu Khalla1Matthew E. Suss2Faculty of Mechanical Engineering, Technion-Israel Institute of Technology, Haifa 3200003, IsraelFaculty of Mechanical Engineering, Technion-Israel Institute of Technology, Haifa 3200003, Israel; The Nancy & Stephen Grand Technion Energy Program, Technion-Israel Institute of Technology, Haifa 3200003, IsraelFaculty of Mechanical Engineering, Technion-Israel Institute of Technology, Haifa 3200003, Israel; The Nancy & Stephen Grand Technion Energy Program, Technion-Israel Institute of Technology, Haifa 3200003, Israel; Wolfson Department of Chemical Engineering, Technion - Israel Institute of Technology, Haifa 3200003, Israel; Corresponding author at: Faculty of Mechanical Engineering, Technion-Israel Institute of Technology, Haifa 3200003, Israel.The desalination fuel cell (DFC) is a novel technology for co-production of electricity and desalinated water from a clean energy source, the H2/O2 redox couple. A DFC utilizes a fuel cell anode and cathode to catalyze the chemical-to-electrical energy conversion, as well as a cation and anion exchange membrane to desalinate the feedwater flowing through the cell. To identify key bottlenecks in this nascent technology, it is important to quantify voltage losses associated with major elements of the cell. We here provide first-time detailed experimental breakdowns of voltage losses at electrodes and across membranes in a custom-built DFC, operated both with near-neutral pH water streams and in a pH-gradient mode. The results allow us to pinpoint sources of major voltage losses, provide hypothesis for underlying causes, and can serve to focus future DFC materials development and cell engineering efforts.http://www.sciencedirect.com/science/article/pii/S1388248121002204Fuel cellElectrochemical water desalinationDesalination fuel cellIon exchange membranesFuel cell catalysts
collection DOAJ
language English
format Article
sources DOAJ
author Salman Abdalla
Shada Abu Khalla
Matthew E. Suss
spellingShingle Salman Abdalla
Shada Abu Khalla
Matthew E. Suss
Voltage loss breakdown in desalination fuel cells
Electrochemistry Communications
Fuel cell
Electrochemical water desalination
Desalination fuel cell
Ion exchange membranes
Fuel cell catalysts
author_facet Salman Abdalla
Shada Abu Khalla
Matthew E. Suss
author_sort Salman Abdalla
title Voltage loss breakdown in desalination fuel cells
title_short Voltage loss breakdown in desalination fuel cells
title_full Voltage loss breakdown in desalination fuel cells
title_fullStr Voltage loss breakdown in desalination fuel cells
title_full_unstemmed Voltage loss breakdown in desalination fuel cells
title_sort voltage loss breakdown in desalination fuel cells
publisher Elsevier
series Electrochemistry Communications
issn 1388-2481
publishDate 2021-11-01
description The desalination fuel cell (DFC) is a novel technology for co-production of electricity and desalinated water from a clean energy source, the H2/O2 redox couple. A DFC utilizes a fuel cell anode and cathode to catalyze the chemical-to-electrical energy conversion, as well as a cation and anion exchange membrane to desalinate the feedwater flowing through the cell. To identify key bottlenecks in this nascent technology, it is important to quantify voltage losses associated with major elements of the cell. We here provide first-time detailed experimental breakdowns of voltage losses at electrodes and across membranes in a custom-built DFC, operated both with near-neutral pH water streams and in a pH-gradient mode. The results allow us to pinpoint sources of major voltage losses, provide hypothesis for underlying causes, and can serve to focus future DFC materials development and cell engineering efforts.
topic Fuel cell
Electrochemical water desalination
Desalination fuel cell
Ion exchange membranes
Fuel cell catalysts
url http://www.sciencedirect.com/science/article/pii/S1388248121002204
work_keys_str_mv AT salmanabdalla voltagelossbreakdownindesalinationfuelcells
AT shadaabukhalla voltagelossbreakdownindesalinationfuelcells
AT matthewesuss voltagelossbreakdownindesalinationfuelcells
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