2013
DOI: 10.1016/j.memsci.2012.10.031
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Wastewater treatment, energy recovery and desalination using a forward osmosis membrane in an air-cathode microbial osmotic fuel cell

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Cited by 142 publications
(92 citation statements)
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“…The final catholyte pH was lower than a theoretical catholyte pH calculated based on the hydroxide ion production (oxygen reduction reaction) from the transferred charge (Fig. 3A) (Werner et al, 2013), indicating that the pH difference could be related to the promoted proton transport. Proton flux could be improved with water flux from the anode to the cathode, which was not considered in the theoretical calculation (Werner et al, 2013).…”
Section: Uncontrolled Catholyte Phmentioning
confidence: 57%
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“…The final catholyte pH was lower than a theoretical catholyte pH calculated based on the hydroxide ion production (oxygen reduction reaction) from the transferred charge (Fig. 3A) (Werner et al, 2013), indicating that the pH difference could be related to the promoted proton transport. Proton flux could be improved with water flux from the anode to the cathode, which was not considered in the theoretical calculation (Werner et al, 2013).…”
Section: Uncontrolled Catholyte Phmentioning
confidence: 57%
“…Compared to conventional MFCs, OsMFCs can generate more electricity under both a batch mode and a continuous mode using either sodium chloride solution or artificial seawater as the catholyte (Ge et al, 2013;Zhang et al, 2011). Such improved performance of electricity generation was attributed to the lower internal resistance of the OsMFCs than that of the MFCs (Werner et al, 2013). An OsMFC mathematical model was developed, and subsequently predicted a reduction of internal resistance with increasing osmotic pressure gradient and water flux, thereby confirming the importance of membrane resistance (Qin et al, 2015).…”
Section: Introductionmentioning
confidence: 83%
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