Osamah Naji scite author profile

Forward osmosis has gained tremendous attention in the field of desalination and wastewater treatment. However, membrane fouling is an inevitable issue. Membrane fouling leads to flux decline, can cause operational problems and can result in negative consequences that can damage the membrane. Hereby, we attempt to review the different types of fouling in forward osmosis, cleaning and control strategies for fouling mitigation, and the impact of membrane hydrophilicity, charge and morphology on fouling. The fundamentals of biofouling, organic, colloidal and inorganic fouling are discussed with a focus on recent studies. We also review some of the in-situ real-time online fouling monitoring technologies for real-time fouling monitoring that can be applicable to future research on forward osmosis fouling studies. A brief discussion on critical flux and the coupled effects of fouling and concentration polarization is also provided.

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Development in forward Osmosis-Membrane distillation hybrid system for wastewater treatment

Ibrar

Yadav

Naji

et al. 2022

Separation and Purification Technology

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Challenges and potentials of forward osmosis process in the treatment of wastewater

Ibrar

Altaee

Zhou

et al. 2019

Critical Reviews in Environmental Science and Technology

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An emerging osmotically driven membrane process, forward osmosis has attracted growing attention in the field of desalination and wastewater treatment. The present study provides a critical review of the forward osmosis process for wastewater treatment focussing on most recent studies. Forward osmosis is one of the technologies that has been widely studied for the treatment of a wide range of wastewater because of its low fouling and energy consumption compared to conventional techniques for wastewater treatment. To date, forward osmosis has limited applications in the field of wastewater treatment due to several technical and economic concerns. Although membrane cost is one of the critical issues that limit the commercial application of forward osmosis, there are other obstacles such as membrane fouling, finding an ideal draw solution that can easily be recycled, concentration polarisation and reverse salt diffusion. Innovative technologies for in-situ real-time fouling monitoring can give us new insights into fouling mechanisms and fouling control strategies in forward osmosis. This study evaluated recent advancements in forward osmosis technology for wastewater treatment and the main challenges that need to be addressed in future research work.

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Direct contact ultrasound for fouling control and flux enhancement in air-gap membrane distillation

Naji

Al-Juboori

Bowtell

et al. 2020

Ultrasonics Sonochemistry

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Osamah Naji

Recent developments in forward osmosis membranes using carbon-based nanomaterials

A Review of Fouling Mechanisms, Control Strategies and Real-Time Fouling Monitoring Techniques in Forward Osmosis

Development in forward Osmosis-Membrane distillation hybrid system for wastewater treatment

Challenges and potentials of forward osmosis process in the treatment of wastewater

Direct contact ultrasound for fouling control and flux enhancement in air-gap membrane distillation

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