Influence of organic fouling layer characteristics and osmotic backwashing conditions on cleaning efficiency of RO membranes

Daly, Sorcha; Allen, Ashley; Koutsos, Vasileios; Semiao, Andrea

doi:10.1016/j.memsci.2020.118604

Cited by 26 publications

(7 citation statements)

References 51 publications

(109 reference statements)

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“…fact that the osmotic backwashing flux is increasing, indicating an interaction between the adhered bacterial cells and the DSobw, even if just for 1 minute. This immediate influence of Ca 2+ was also demonstrated in previous studies with alginic acid fouling on FO and RO membranes [86,87].…”

Section: Use Of Ca 2+ As Dsobw For Bacteria Detachment In Osmotic Backwashingsupporting

confidence: 79%

Osmotic backwashing of forward osmosis membranes to detach adhered bacteria and mitigate biofouling

Daly

Casey

Semiao

2021

Journal of Membrane Science

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The efficiency of osmotic backwashing cleaning to remove bacteria from forward osmosis membranes was systematically studied for the first time under different attachment and osmotic backwashing conditions. It is hypothesised that biofouling is preventable when tackling initial adhesion, i.e. during the reversible stage. Cell removal from the membrane was dependent on both adhesion and backwashing conditions: tests were performed for backwashing solutions of different concentrations and salt type, as well as different filtration durations and Ca 2+ concentrations in the feed solution.Following adhesion of P. putida, a backwashing draw solution (DSobw) of 3 M NaCl was the most efficient, removing 93% of the adhered cells after 1 minute of backwashing. All adhered cells left on the membrane were dead/injured due to osmotic shock. To optimise the cleaning regime, the maximum filtration time for which backwashing is efficient must be determined. This was determined to be 30 minutes, after which backwashing became inefficient, only removing 78% of cells. The addition of 5 mM Ca 2+ to the feed caused a 50% increase in cell surface coverage compared to adhesion without Ca 2+ . This increase in adhesion rendered backwashing inefficient, as cell removal was only 60%. To increase backwashing efficiency by increasing the backwashing flux, DSobw with CaCl2 were used. However, this was inefficient due to interactions between Ca 2+ in the DSobw and the adhered cells, even for just 1 minute: for a 55.8 L.h -1 m -2 flux, 39% of removal was obtained for a 3 M CaCl2 DSobw when compared to 93% removal for 3 M NaCl for a 36 L.h -1 m -2 flux. Therefore, both adhesion and backwashing conditions are important for cleaning of FO membranes.

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Section: Use Of Ca 2+ As Dsobw For Bacteria Detachment In Osmotic Backwashingsupporting

confidence: 79%

Osmotic backwashing of forward osmosis membranes to detach adhered bacteria and mitigate biofouling

Daly

Casey

Semiao

2021

Journal of Membrane Science

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“…At the same time, the deterioration of water quality accompanied by climate change and population growth further exacerbates this problem [ 2 ]. According to one estimation, 60% of the world’s population will live in water-deficient areas by the year 2025 [ 3 ].…”

Section: Introductionmentioning

confidence: 99%

Progress in Research and Application of Nanofiltration (NF) Technology for Brackish Water Treatment

et al. 2021

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Brackish water is a potential fresh water resource with lower salt content than seawater. Desalination of brackish water is an important option to alleviate the prevalent water crisis around the world. As a membrane technology ranging between UF and RO, NF can achieve the partial desalination via size exclusion and charge exclusion. So, it has been widely concerned and applied in treatment of brackish water during the past several decades. Hereon, an overview of the progress in research on and application of NF technology for brackish water treatment is provided. On the basis of expounding the features of brackish water, the factors affecting NF efficiency, including the feed water characteristics, operating conditions and NF membrane properties, are analyzed. For the ubiquitous membrane fouling problem, three preventive fouling control strategies including feed water pretreatment, optimization of operating conditions and selection of anti-fouling membranes are summarized. In addition, membrane cleaning methods for restoring the fouled membrane are discussed. Furthermore, the combined utilization of NF with other membrane technologies is reviewed. Finally, future research prospects are proposed to deal with the current existing problems. Lessons gained from this review are expected to promote the sustainable development of brackish water treatment with NF technology.

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“…A negative interaction of the Ca 2+ in the draw solution with the AA fouling layer shows a smaller swelling potential relative to that disclosed to NaCl solutions. The monovalent salts found in the draw solution disperse into the fouling layer, enhancing its ionic strength and thereby the corresponding osmotic pressure [70].…”

Section: Type Of Salt In Backwashing Of Fouled Ro Membranesmentioning

confidence: 99%

Overview of Fouling – An Industrial Jeopardy

Unnikrishnan

Lavanya

2023

ChemBioEng Reviews

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A brief insight into fouling and its various types, which impose a hurdle on the performance of an apparatus and ultimately a negative impact on the environment as a whole due to the excess unwanted deposits, is given. Within the various types mentioned, specific cases of fouling occurrences in each are also highlighted. The mechanism associated with the specific cases as well as the difficulties arising are mentioned as interpreted from previous literature and experiments. There are cases where more than one type of fouling is found to be simultaneously occurring, which is referred to as composite fouling. Numerous parameters control this phenomenon, along with some exceptions associated with the same. Few membranes or plates or their physical aspects prove to be quite effective in withstanding or overcoming a specific type of fouling. Mitigation of fouling demands proper monitoring and control of the chemical processes to ensure lesser damage to the equipments. Industrial fouling in general and specific scenarios of fouling are overviewed and discussed.

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Influence of organic fouling layer characteristics and osmotic backwashing conditions on cleaning efficiency of RO membranes

Cited by 26 publications

References 51 publications

Osmotic backwashing of forward osmosis membranes to detach adhered bacteria and mitigate biofouling

Osmotic backwashing of forward osmosis membranes to detach adhered bacteria and mitigate biofouling

Progress in Research and Application of Nanofiltration (NF) Technology for Brackish Water Treatment

Overview of Fouling – An Industrial Jeopardy

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