Potential application of the draw solution system based on trisodium α-DL-alanine diacetate in forward osmosis desalination systems

Tao M. Hoang; Hung T. Trinh; Tung N. Nguyen; Minh Q. Bui; Dat T. Nguyen; Anh L.T. Hoang; Minh N. Truong; Giang H. Do; Tao M. Hoang; Hung T. Trinh; Tung N. Nguyen; Minh Q. Bui; Dat T. Nguyen; Anh L.T. Hoang; Minh N. Truong; Giang H. Do

doi:10.12989/mwt.2025.16.5.203

Techno Press

	Membrane Water Treatment Volume 16, Number 5, September 2025 , pages 203-210 DOI: https://doi.org/10.12989/mwt.2025.16.5.203
	Full Text PDF Potential application of the draw solution system based on trisodium α-DL-alanine diacetate in forward osmosis desalination systems
	Tao M. Hoang, Hung T. Trinh, Tung N. Nguyen, Minh Q. Bui, Dat T. Nguyen, Anh L.T. Hoang, Minh N. Truong and Giang H. Do
Abstract
	This study aimed to discover the potential application of the draw solution system based on trisodium α-DL- alanine diacetate (MGDA draw solution) in forward osmosis (FO) desalination systems through the optimization of some important operational parameters, the investigation of fouling behaviours after long-term operation and the efficiency of mitigating strategies, and the analytical of some key quality properties of the produced freshwater. Optimization results suggested that in the investigated range, inlet temperature was the main operational parameters that influence the osmosis performance of the MGDA draw solution. Under the optimized operational parameters (inlet pressure difference = 0.4 bar on the feed side, inlet temperature = 30 °C, and feed side inlet flow rate = 250 mL•min−1), the osmosis performance obtained were Jw = 9.996 ± 0.192 LMH and Rds = 0.3580 ± 0.0020 g•L−1. Furthermore, experimental results also emphasized the advantages of MGDA solution, which were low tendency of membrane fouling and the relatively ease of membrane cleaning. Finally, experiments on real brackish water samples confirmed the potential application of the MGDA draw solution in FO desalination systems, with the produced freshwater meeting key requirements as recommended in the National Technical Regulation QCVN 01-1:2018/BYT.
Key Words
	Box–Behnken optimization; forward osmosis; long-term operation; membrane fouling; water quality
Address
	Tao M. Hoang, Tung N. Nguyen, Minh Q. Bui, Dat T. Nguyen, and Anh L.T. Hoang: Graduate University of Science and Technology, Vietnam Academy of Science and Technology, Hanoi, 10072, Vietnam/ Center for High Technology Research and Development, Vietnam Academy of Science and Technology, Hanoi, 10072, Vietnam Hung T. Trinh, Minh N. Truong and Giang H. Do: Center for High Technology Research and Development, Vietnam Academy of Science and Technology, Hanoi, 10072, Vietnam

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