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http://hdl.handle.net/11375/29735
Title: | Advancing Integrated Membrane Filtration Processes for Treating Industrial Wastewaters with Time Varying Feed Properties |
Other Titles: | DEVELOPING INTEGRATED MEMBRANE PROCESSES FOR INDUSTRIAL WASTEWATERS |
Authors: | Premachandra, Abhishek |
Advisor: | Latulippe, David |
Keywords: | Industrial Wastewater;Membrane Filtration;Coagulation;Wastewater Treatment;High-Throughput;Process Screening |
Publication Date: | 2024 |
Abstract: | Wastewaters that are produced by industrial processes are more challenging to treat than municipal wastewaters, primarily due to two reasons. Firstly, industrial wastewaters contain high concentrations of several different contaminants (e.g. metals, nutrients and organics etc.), which can be challenging for a single process to treat. Secondly, the compositional properties of the wastewaters can vary significantly as it is dependent on several upstream processes. Commercial membrane technologies have shown significant adoption in desalination and municipal wastewater treatment applications. Their favourable selectivity and tunable properties have garnered interest from both academia and industry to push these technologies into industrial wastewater treatment. Despite showing promising contaminant removal results, current studies have shown that fouling due to high contaminant loadings, and variable treatment efficacies due to feed property variations, limit the adoption of commercial membranes into these applications. Current research addresses these challenges through the new material development or surface modifications, however, there is a need to approach these challenges at a process level by integrating existing membrane technology into adaptive processes. This thesis aims to advance the adoption of commercial membrane technology into ‘tough-to-treat’ industrial wastewater applications. Firstly, the effects of high contaminant concentrations and variable feed properties on membrane treatment is studied by using advanced techniques, such as gas chromatography – mass spectrometry, to resolve the composition of feed and permeate streams from membrane processes treating real wastewaters. It was determined that fast and efficient screening tools are required to optimize and adapt membrane processes to respond to this variability. This thesis then introduces high-throughput and miniaturized screening platform that combines analytical centrifugation with filter plate technology to rapidly optimize two-stage coagulation-filtration processes with an extremely low material and time requirement. |
URI: | http://hdl.handle.net/11375/29735 |
Appears in Collections: | Open Access Dissertations and Theses |
Files in This Item:
File | Description | Size | Format | |
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Premachandra_Abhishek_M_FinalSubmission2024April_PhD.pdf | 9.49 MB | Adobe PDF | View/Open |
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