G
G.J. Doornbusch
Researcher at Eindhoven University of Technology
Publications - 6
Citations - 301
G.J. Doornbusch is an academic researcher from Eindhoven University of Technology. The author has contributed to research in topics: Desalination & Electrodialysis. The author has an hindex of 5, co-authored 6 publications receiving 183 citations. Previous affiliations of G.J. Doornbusch include Technion – Israel Institute of Technology.
Papers
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Fluidized bed electrodes with high carbon loading for water desalination by capacitive deionization
TL;DR: The use of carbon flow electrodes has significantly impacted electrochemical energy storage and capacitive deionization (CDI), but device performance is limited as these electrodes cannot surpass ∼20 wt% carbon while maintaining flowability.
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Experimental investigation of multistage electrodialysis for seawater desalination
TL;DR: In this paper, the viability of ED using multiple stages for seawater desalination was investigated using an ED multistage configuration that contains up to four stages, where the driving force is adapted to the governing conditions at a specific stage, operating at its individual optimum at lower energy consumption.
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Multistage electrodialysis for desalination of natural seawater
G.J. Doornbusch,Marrit van der Wal,Michele Tedesco,Jan W. Post,Kitty Nijmeijer,Zandrie Borneman +5 more
TL;DR: In this article, the effect of multivalent ions in seawater on the desalination performance of multistage electrodialysis (ED) was investigated, and two different strategies were compared by using conventional cation exchange membranes (CEMs), as well as CEMs with preferential removal of multiivalent ions.
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Effect of membrane area and membrane properties in multistage electrodialysis on seawater desalination performance
TL;DR: In this article, the authors varied the membrane area, the residence time, and the membrane properties in the different stages to investigate the transport mechanisms of salt and osmotic water to improve the desalination performance of multistage ED even further.
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Current utilization in electrodialysis: Electrode segmentation as alternative for multistaging
TL;DR: In this paper, the authors compared two configurations for different current distribution regimes, voltages and feed flow velocities: a fully separated system of multiple laboratory-scale ED stacks, i.e., a multistage ED, and a segmented electrode system that consists of one stack with multiple separated electrodes.