Adaptive model and model selection for long-term transmembrane pressure prediction in membrane bioreactors

Fouling is one of the most significant problems in membrane bioreactors (MBRs). Membranes must be washed with chemicals at appropriate times before severe fouling occurs. Long-term transmembrane pressure (TMP) prediction is attempted to plan the schedule for chemical cleaning. TMP is directly propor...

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Bibliographic Details
Published in:Journal of membrane science 2015-11, Vol.494, p.86-91
Main Authors: Oishi, H., Kaneko, H., Funatsu, K.
Format: Article
Language:English
Subjects:
Cleaning schedule
Fouling prediction
Long-term transmembrane pressure prediction
Membrane resistance
Statistical model
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Summary:Fouling is one of the most significant problems in membrane bioreactors (MBRs). Membranes must be washed with chemicals at appropriate times before severe fouling occurs. Long-term transmembrane pressure (TMP) prediction is attempted to plan the schedule for chemical cleaning. TMP is directly proportional to membrane resistance caused by fouling under the condition of constant-rate filtration. Statistical models have previously been used to predict TMP from operating parameters in MBRs. However, TMP predictions are difficult when operating conditions or water quality varies. We therefore propose to introduce adaptation and selection mechanisms to statistical models. Multiple TMP prediction models are updated with new measurements and a target model is selected, based on the predictive ability of the models, for long-term TMP prediction. Through case studies using two data sets obtained from actual MBRs, we confirmed that the performance of long-term TMP prediction was improved by using the proposed method because the models can adapt appropriately to changes in operating conditions or water quality. •Statistical models are employed to predict transmembrane pressure for long-term.•We introduce adaptation and selection mechanisms to statistical models.•The performance of long-term prediction was improved by using the proposed method.•Models can adapt appropriately to changes in operating conditions and water quality.•Membrane bioreactors can be controlled appropriately using the proposed model.
ISSN:0376-7388
1873-3123
DOI:10.1016/j.memsci.2015.07.002