Effects of draw solutions and membrane conditions on electricity generation and water flux in osmotic microbial fuel cells

Zheng Ge; Zhen He

doi:10.1016/j.biortech.2012.01.044

Effects of draw solutions and membrane conditions on electricity generation and water flux in osmotic microbial fuel cells

Zheng Ge, Zhen He

Department of Energy, Environmental & Chemical Engineering

Research output: Contribution to journal › Article › peer-review

74 Scopus citations

Abstract

This study provided an early effort to investigate the draw solutions as catholytes, FO membrane conditions, and backwash for membrane cleaning in an osmotic microbial fuel cell (OsMFC). The results demonstrated that sodium chloride was a suitable candidate as a catholyte solute with good performance in both electricity generation and water flux, although its pH required buffering via acid addition. Adding a small amount of hydrochloric acid decreased the catholyte pH from 9.0 to 2.5 and increased the current generation by 50%, but did not affect water flux. It was also found that the fouled FO membrane improved electricity generation but lost the function of water flux. The damaged FO membrane resulted in a water flux of 0.39. LMH, much lower than 2-3. LMH with a new FO membrane. Backwash with adding NaCl (0.2-0.5. M) into the anolyte was examined but did not obviously alleviate membrane fouling.

Original language	English
Pages (from-to)	70-76
Number of pages	7
Journal	Bioresource Technology
Volume	109
DOIs	https://doi.org/10.1016/j.biortech.2012.01.044
State	Published - Apr 2012

Keywords

Draw solution
Forward osmosis
Osmotic microbial fuel cell
Wastewater treatment
Water flux

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10.1016/j.biortech.2012.01.044

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title = "Effects of draw solutions and membrane conditions on electricity generation and water flux in osmotic microbial fuel cells",

abstract = "This study provided an early effort to investigate the draw solutions as catholytes, FO membrane conditions, and backwash for membrane cleaning in an osmotic microbial fuel cell (OsMFC). The results demonstrated that sodium chloride was a suitable candidate as a catholyte solute with good performance in both electricity generation and water flux, although its pH required buffering via acid addition. Adding a small amount of hydrochloric acid decreased the catholyte pH from 9.0 to 2.5 and increased the current generation by 50%, but did not affect water flux. It was also found that the fouled FO membrane improved electricity generation but lost the function of water flux. The damaged FO membrane resulted in a water flux of 0.39. LMH, much lower than 2-3. LMH with a new FO membrane. Backwash with adding NaCl (0.2-0.5. M) into the anolyte was examined but did not obviously alleviate membrane fouling.",

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AU - He, Zhen

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AB - This study provided an early effort to investigate the draw solutions as catholytes, FO membrane conditions, and backwash for membrane cleaning in an osmotic microbial fuel cell (OsMFC). The results demonstrated that sodium chloride was a suitable candidate as a catholyte solute with good performance in both electricity generation and water flux, although its pH required buffering via acid addition. Adding a small amount of hydrochloric acid decreased the catholyte pH from 9.0 to 2.5 and increased the current generation by 50%, but did not affect water flux. It was also found that the fouled FO membrane improved electricity generation but lost the function of water flux. The damaged FO membrane resulted in a water flux of 0.39. LMH, much lower than 2-3. LMH with a new FO membrane. Backwash with adding NaCl (0.2-0.5. M) into the anolyte was examined but did not obviously alleviate membrane fouling.

KW - Draw solution

KW - Forward osmosis

KW - Osmotic microbial fuel cell

KW - Wastewater treatment

KW - Water flux

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Effects of draw solutions and membrane conditions on electricity generation and water flux in osmotic microbial fuel cells

Abstract

Keywords

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