A pilot-scale forward osmosis membrane system for concentrating low-strength municipal wastewater: performance and implications

Wang, Zhiwei; Zheng, Junjian; Tang, Jixu; Wang, Xinhua; Wu, Zhengzheng

doi:10.1038/srep21653

Cited by 80 publications

(55 citation statements)

References 47 publications

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“…Concentrating the FS reduces the footprint and improves the resource recovery of the downstream treatment processes such as anaerobic digestion (Chen et al, ; Linares et al, ; Xie, Nghiem, Price, & Elimelech, ). A pilot‐scale FO trial has proven that FO is feasible to concentrate low‐strength municipal wastewater in full‐scale applications (Wang, Zheng, Tang, Wang, & Wu, ). Furthermore, thin‐film composite (TFC) FO membranes achieve initial water flux of 18 L m −2 hr −1 or higher (Kwan et al, ; Lutchmiah, Verliefde, Roest, Rietveld, & Cornelissen, ; Yip, Tiraferri, Phillip, Schiffman, & Elimelech, ).…”

Section: Introductionmentioning

confidence: 99%

Forward osmosis with an algal draw solution to concentrate municipal wastewater and recover resources

Rood

Zhang

Inniss

et al. 2019

Water Environment Research

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This study aimed to concentrate and recover resources from municipal wastewater with a novel forward osmosis (FO) system. The FO system used synthetic seawater as the draw solution (DS) to extract water from the feed solution (FS) (synthetic raw municipal wastewater). Because ammonium passed through the FO membrane from the FS to the DS, we cultivated an algal strain (Chlorella vulgaris) in the DS to remove and recover ammonium. For three consecutive FO cycles, the algal FO system removed 35.4% of the ammonium from the DS, increased the concentrations of COD and PO 3− 4 − P in the FS by 43.0%, and achieved a water flux of 11.59 ± 0.49 L m −2 hr −1 . Throughout the FO cycles, the algal biomass concentration of the DS stayed at 606 ± 29 mg COD/L due to simultaneous algal growth and DS dilution. This FO process may be feasible to implement for full-scale applications to concentrate wastewater and recover resources. © 2019 Water Environment Federation • Practitioner points• A novel forward osmosis (FO) system with an algal draw solution (DS) concentrated municipal wastewater and recovered resources (ammonium). • Ammonium but not organic matter or phosphate diffused across the FO membrane from the feed solution (FS) to the DS. • The algal FO system increased COD/phosphate concentration in the FS by 43.0% and removed 35.4% of ammonium from the DS. • The water fluxes in the algal FO system and the control were 11.59 and 12.02 L m −2 hr −1 , respectively. • The novel algal FO process has the potential to improve full-scale efficiency by concentrating municipal wastewater and recovering nutrients.

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Section: Introductionmentioning

confidence: 99%

Forward osmosis with an algal draw solution to concentrate municipal wastewater and recover resources

Rood

Zhang

Inniss

et al. 2019

Water Environment Research

View full text Add to dashboard Cite

show abstract

“…Wang et al [15] achieved an average water flux rate of 6 L·m -2 ·h -1 with diluted wastewater and used 0.5 M NaCl as the model draw solution when using a cellulose triacetate membrane (CTA) from HTI. Similar values were also obtained by Holloway et al [37], who reported water fluxes of 13 10.1 L·m -2 ·h -1 for concentrated anaerobic digests using CTA membranes from HTI.…”

Section: Water Fluxesmentioning

confidence: 99%

“…Wang et al [15] recently published a study using real diluted municipal wastewater with solute rejections of ammonium and total nitrogen (TNt) of 68% and 48%, respectively, and rejections of chemical oxygen demand (COD) and total phosphorus (TPt) of more than 99%.…”

Section: Introductionmentioning

confidence: 99%

“…[18] Most of these studies focused on using synthetic wastewater as feed for FO processes [19][20][21][22], and only a few studies have been performed using real diluted raw municipal wastewater. [15,23] Furthermore, Xie et al [16] reviewed different membrane-based processes for nutrient recovery and used FO as the sole technology for treating urine, synthetic wastewater and activated sludge.…”

Section: Introductionmentioning

confidence: 99%

“…An alternative could be forward osmosis (FO) because FO has recently been shown to achieve solute rejections as high as RO. [15,16] FO is driven by an osmotic pressure gradient across a selectively permeable membrane, which allows water molecules to migrate from a feed solution (FS) with a low osmotic pressure, such as wastewater, to a draw solution with a high osmotic pressure, such as seawater. Because the FO process is operated in the absence of applied hydraulic pressure, this process has an intrinsically lower fouling propensity and requires less energy than RO.…”

Section: Introductionmentioning

confidence: 99%

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