Forward osmosis membrane technology for nutrient removal/recovery from wastewater: Recent advances, proposed designs, and future directions

被引:64
作者
Jafarinejad, Shahryar [1 ]
机构
[1] Tuskegee Univ, Dept Chem Engn, Coll Engn, Tuskegee, AL 36088 USA
关键词
Forward osmosis; Treatment; Membrane; Nutrient removal; Fouling; Water flux; THIN-FILM COMPOSITE; AMMONIA-CARBON DIOXIDE; SOURCE-SEPARATED URINE; FERTILIZER-DRAWN; NANOFILTRATION MEMBRANE; REVERSE-OSMOSIS; RESOURCE RECOVERY; SEAWATER-DRIVEN; CELLULOSE TRIACETATE; PHOSPHORUS RECOVERY;
D O I
10.1016/j.chemosphere.2020.128116
中图分类号
X [环境科学、安全科学];
学科分类号
08 ; 0830 ;
摘要
In recent years, the concept of nutrient removal/recovery has been applied as a sustainable solution to develop and design various modern wastewater treatment technologies for recovering nutrients from waste streams and is one of the high-priority research areas. Forward osmosis (FO) technology has received increasing interests as a potential low-fouling membrane process and a new approach to remove/recover nutrients from wastewater and sludge. The main objective of this review is to summarize the state of FO technology for nutrient removal/recovery from wastewater and sludge in order to identify areas of future improvements. In this study, nutrient removal processes, FO membrane technology, main factors affecting the FO process performance, the source water for nutrient recovery, the previous studies on the FO membrane process for nutrient removal/recovery from wastewater and sludge, membrane fouling, and recent advances in FO membranes for nutrient removal/recovery were briefly and critically reviewed. Then, the proposed possible designs to apply FO process in conventional wastewater treatment plants (WWTPs) were theoretically presented. Finally, based on the gaps identified in the area, challenges ahead, future perspectives, and conclusions were discussed. Further investigations on the properties of FO associated with real wastewater, wastewater pre-treatment, the long-term low fouling operation, membrane cleaning strategies, water flux and the economic feasibility of the FO process are still desirable to apply FO technology for nutrient removal/recovery at full-scale (decentralized or centralized) in the future. (C) 2020 Elsevier Ltd. All rights reserved.
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页数:17
相关论文
共 161 条
[1]   Dimensional analysis of permeation flux for microfiltration of oily wastewaters using mullite ceramic membranes [J].
Abbasi, Mohsen ;
Salahi, Abdolhamid ;
Mirfendereski, Mojtaba ;
Mohammadi, Toraj ;
Pak, Afshin .
DESALINATION, 2010, 252 (1-3) :113-119
[2]   Reduction of nanofiltration membrane fouling by UV-initiated graft polymerization technique [J].
Abu Seman, M. N. ;
Khayet, M. ;
Bin Ali, Z. I. ;
Hilal, N. .
JOURNAL OF MEMBRANE SCIENCE, 2010, 355 (1-2) :133-141
[3]   Nanofiltration membrane modification by UV grafting for salt rejection and fouling resistance improvement for brackish water desalination [J].
Abuhabib, A. A. ;
Mohammad, A. W. ;
Hilal, N. ;
Rahman, Rakmi A. ;
Shafie, Ahmed H. .
DESALINATION, 2012, 295 :16-25
[4]  
Abuhabib A.A., 2015, MODIFIED NANOFILTRAT, DOI [10.5772/60212., DOI 10.5772/60212]
[5]   The forward osmosis membrane bioreactor: A low fouling alternative to MBR processes [J].
Achilli, Andrea ;
Cath, Tzahi Y. ;
Marchand, Eric A. ;
Childress, Amy E. .
DESALINATION, 2009, 239 (1-3) :10-21
[6]   Performance evaluation of fertilizer draw solutions for forward osmosis membrane bioreactor treating domestic wastewater [J].
Adnan, Muhammad ;
Khan, Sher Jamal ;
Manzoor, Kamran ;
Hankins, Nicholas P. .
PROCESS SAFETY AND ENVIRONMENTAL PROTECTION, 2019, 127 :133-140
[7]   Physical cleaning techniques to control fouling during the pre-concentration of high suspended-solid content solutions for resource recovery by forward osmosis [J].
Ansari, Ashley J. ;
Hai, Faisal I. ;
He, Tao ;
Price, William E. ;
Nghiem, Long D. .
DESALINATION, 2018, 429 :134-141
[8]   Forward osmosis as a platform for resource recovery from municipal wastewater - A critical assessment of the literature [J].
Ansari, Ashley J. ;
Hai, Faisal I. ;
Price, William E. ;
Drewes, Joerg E. ;
Nghiem, Long D. .
JOURNAL OF MEMBRANE SCIENCE, 2017, 529 :195-206
[9]   Phosphorus recovery from digested sludge centrate using seawater-driven forward osmosis [J].
Ansari, Ashley J. ;
Hai, Faisal I. ;
Price, William E. ;
Nghiem, Long D. .
SEPARATION AND PURIFICATION TECHNOLOGY, 2016, 163 :1-7
[10]   Principles and potential of the anaerobic digestion of waste-activated sludge [J].
Appels, Lise ;
Baeyens, Jan ;
Degreve, Jan ;
Dewil, Raf .
PROGRESS IN ENERGY AND COMBUSTION SCIENCE, 2008, 34 (06) :755-781