Monitoring fouling behavior of reverse osmosis membranes using electrical impedance spectroscopy: A field trial study

An electrical impedance spectroscopy fouling monitor (EISFM) was used to monitor the performance of a reverse osmosis (RO) treatment train in a NEWater plant in Singapore. A ‘canary cell’ equipped with an EIS measurement system was installed in a side stream of the train. It was operated at the same...

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Bibliographic Details
Published in:Desalination 2017-04, Vol.407, p.75-84
Main Authors: Ho, Jia Shin, Sim, Lee Nuang, Webster, Richard D., Viswanath, Balakrishnan, Coster, Hans G.L., Fane, Anthony G.
Format: Article
Language:English
Subjects:
Canary cell
Electrical impedance spectroscopy fouling monitor
Field trial
Fouling
Real time monitoring
Reverse osmosis
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Summary:An electrical impedance spectroscopy fouling monitor (EISFM) was used to monitor the performance of a reverse osmosis (RO) treatment train in a NEWater plant in Singapore. A ‘canary cell’ equipped with an EIS measurement system was installed in a side stream of the train. It was operated at the same hydrodynamics as the train to simulate the fouling conditions in the spiral wound modules. The correlation between the EISFM response and plant performance was investigated. When trending the real part of the impedance of the low frequency signal element (Zreal-DP) over time, there was a maximum in the normalised Zreal-DP observed well before chemical cleaning which was indicated by the traditional operational criteria. The occurrence of Zreal-DP peaks can be used as an indicator to initiate mitigation measures, such as adjustment of flux or crossflow velocity. As such, the frequency of chemical CIPs could be reduced. Furthermore, by observing the trend of Zreal-DP over time, it was possible to identify the nature of the fouling such as the build-up of a layer of inorganic colloids. This was validated by membrane autopsy studies. This study confirms that the EISFM is suitable for monitoring the performance of RO in a real plant. •EISFM was used to monitor the performance of RO train in Singapore NEWater plant.•Maximum in the normalised Zreal-DP was observed well before CIPs were carried out.•Mitigation measures could be initiated based on the occurrence of Zreal-DP peaks.•The frequency of CIPs could be reduced by implementing physical control measures.•The nature of fouling layer could be identified from the trend of Zreal-DP.
ISSN:0011-9164
1873-4464
DOI:10.1016/j.desal.2016.12.012