Removal of endocrine disrupting chemicals by nanofiltration membrane from water

Fangyuan Cao; Yuxiu Zhang; Changwei Zhao; Tao Wang; Zhaokun Luan

Removal of endocrine disrupting chemicals by nanofiltration membrane from water

Fangyuan Cao, Yuxiu Zhang^*, Changwei Zhao, Tao Wang, Zhaokun Luan

^*Corresponding author for this work

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

Abstract

The NF270 aromatic polyamide composite membrane was used to treat 17α-ethynylestradiol (EE2) in water. The effects of concentration, operating pressure, pH, calcium concentration, humic acid and other factors on EE2 rejection efficiency at different operating pressures were studied. The experimental results indicated that EE2 in water can be rejected effectively by nanofiltration, the rejection could achieve 97.6%. Moreover, experimental results showed that concentration was unimportant, the highest retention of EE2 was at 0.6 MPa. With pH and calcium concentration increasing, EE2 rejection increased. Rejection increased significantly when humic acid was added, but it would also cause membrane fouling and the decline of membrane flux. Especially when EE2, humic acid and Ca²⁺ were all coexistence, membrane fouling was more serious.

Original language	English
Pages (from-to)	3217-3222
Number of pages	6
Journal	Chinese Journal of Environmental Engineering
Volume	8
Issue number	8
Publication status	Published - 5 Aug 2014
Externally published	Yes

Keywords

Endocrine disrupting chemicals
Humic acid
Membrane fouling
Nanofiltration
Rejection

Cite this

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title = "Removal of endocrine disrupting chemicals by nanofiltration membrane from water",

abstract = "The NF270 aromatic polyamide composite membrane was used to treat 17α-ethynylestradiol (EE2) in water. The effects of concentration, operating pressure, pH, calcium concentration, humic acid and other factors on EE2 rejection efficiency at different operating pressures were studied. The experimental results indicated that EE2 in water can be rejected effectively by nanofiltration, the rejection could achieve 97.6%. Moreover, experimental results showed that concentration was unimportant, the highest retention of EE2 was at 0.6 MPa. With pH and calcium concentration increasing, EE2 rejection increased. Rejection increased significantly when humic acid was added, but it would also cause membrane fouling and the decline of membrane flux. Especially when EE2, humic acid and Ca2+ were all coexistence, membrane fouling was more serious.",

keywords = "Endocrine disrupting chemicals, Humic acid, Membrane fouling, Nanofiltration, Rejection",

author = "Fangyuan Cao and Yuxiu Zhang and Changwei Zhao and Tao Wang and Zhaokun Luan",

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TY - JOUR

T1 - Removal of endocrine disrupting chemicals by nanofiltration membrane from water

AU - Cao, Fangyuan

AU - Zhang, Yuxiu

AU - Zhao, Changwei

AU - Wang, Tao

AU - Luan, Zhaokun

PY - 2014/8/5

Y1 - 2014/8/5

N2 - The NF270 aromatic polyamide composite membrane was used to treat 17α-ethynylestradiol (EE2) in water. The effects of concentration, operating pressure, pH, calcium concentration, humic acid and other factors on EE2 rejection efficiency at different operating pressures were studied. The experimental results indicated that EE2 in water can be rejected effectively by nanofiltration, the rejection could achieve 97.6%. Moreover, experimental results showed that concentration was unimportant, the highest retention of EE2 was at 0.6 MPa. With pH and calcium concentration increasing, EE2 rejection increased. Rejection increased significantly when humic acid was added, but it would also cause membrane fouling and the decline of membrane flux. Especially when EE2, humic acid and Ca2+ were all coexistence, membrane fouling was more serious.

AB - The NF270 aromatic polyamide composite membrane was used to treat 17α-ethynylestradiol (EE2) in water. The effects of concentration, operating pressure, pH, calcium concentration, humic acid and other factors on EE2 rejection efficiency at different operating pressures were studied. The experimental results indicated that EE2 in water can be rejected effectively by nanofiltration, the rejection could achieve 97.6%. Moreover, experimental results showed that concentration was unimportant, the highest retention of EE2 was at 0.6 MPa. With pH and calcium concentration increasing, EE2 rejection increased. Rejection increased significantly when humic acid was added, but it would also cause membrane fouling and the decline of membrane flux. Especially when EE2, humic acid and Ca2+ were all coexistence, membrane fouling was more serious.

KW - Endocrine disrupting chemicals

KW - Humic acid

KW - Membrane fouling

KW - Nanofiltration

KW - Rejection

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M3 - Article

AN - SCOPUS:84906748882

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JO - Chinese Journal of Environmental Engineering

JF - Chinese Journal of Environmental Engineering

IS - 8

ER -

Removal of endocrine disrupting chemicals by nanofiltration membrane from water

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