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Microbial-based evaluation of anaerobic membrane bioreactors (AnMBRs) for the sustainable and efficient treatment of municipal wastewater

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dc.contributor.author Harb, Moustapha
dc.date.accessioned 2019-03-22T13:55:01Z
dc.date.available 2019-03-22T13:55:01Z
dc.date.copyright 2017 en_US
dc.date.issued 2019-03-22
dc.identifier.uri http://hdl.handle.net/10725/10258
dc.description.abstract Conventional activated sludge-based wastewater treatment is an energy and resource-intensive process. Historically it has been successful at producing safely treated wastewater effluents in the developed world, specifically in places that have the infrastructure and space to support its operation. However, with a growing need for safe and efficient wastewater treatment across the world in both urban and rural settings, a paradigm shift in waste treatment is proving to be necessary. The sustainability of the future of wastewater treatment, in a significant way, hinges on moving towards energy neutrality and wastewater effluent reuse. This potential for reuse is threatened by the recent emergence and study of contaminants that have not been previously taken into consideration, such as antibiotics and other organic micropollutants (OMPs), antibiotic resistance genes, and persistent pathogenic bacteria. This dissertation focuses on investigating the use of anaerobic membrane bioreactor (AnMBR) technology for the sustainable treatment of municipal-type wastewaters. Specifically, a microbial approach to understanding biofouling and methane recovery potential in anaerobic MBR systems has been employed to assess different reactor systems’ efficiency. This dissertation further compares AnMBRs to their more widely used aerobic counterparts. This comparison specifically focuses on the removal and biodegradation of OMPs and antibiotics in both anaerobic and aerobic MBRs, while also investigating their effect on the proliferation of antibiotic resistance genes. Due to rising interest in wastewater effluent reuse and the lack of a comprehensive understanding of MBR systems’ effects on pathogen proliferation, this dissertation also investigates the presence of pathogens in both aerobic and anaerobic MBR effluents by using molecularbased detection methods. The findings of this dissertation demonstrate that membrane-associated anaerobic digestion processes have significant potential to improve the sustainability of wastewater treatment. This is exemplified by attributes of AnMBR systems associated with both increased system efficiency and wastewater reuse potential through methane recovery and lower abundance of effluent microbial contaminants, respectively. Overall, the studies collated in this dissertation have shown that understanding the microbial communities of AnMBRs can play a central role in further improving these attributes and in reducing the risks posed by emerging contaminants and pathogens in wastewater treatment systems. en_US
dc.language.iso en en_US
dc.subject Sewage disposal plants en_US
dc.subject Sewage -- Purification en_US
dc.title Microbial-based evaluation of anaerobic membrane bioreactors (AnMBRs) for the sustainable and efficient treatment of municipal wastewater en_US
dc.type Thesis en_US
dc.author.degree Doctor of Philosophy en_US
dc.author.school SOE en_US
dc.author.idnumber 201806912 en_US
dc.author.department Civil Engineering en_US
dc.description.embargo N/A en_US
dc.description.physdesc 201 p., ill en_US
dc.author.advisor Hong, Pei-Ying en_US
dc.description.bibliographiccitations Includes bibliographical references en_US
dc.identifier.doi http://dx.doi.org/10.25781/KAUST-AFFPT en_US
dc.identifier.ctation Harb, M. (2017). Microbial-based evaluation of anaerobic membrane bioreactors (AnMBRs) for the sustainable and efficient treatment of municipal wastewater (Doctoral dissertation). en_US
dc.author.email moustapha.harb@lau.edu.lb en_US
dc.identifier.tou http://libraries.lau.edu.lb/research/laur/terms-of-use/articles.php en_US
dc.identifier.url https://repository.kaust.edu.sa/bitstream/handle/10754/625351/Moustapha%20Harb_Dissertation.pdf?sequence=2&isAllowed=y en_US
dc.orcid.id https://orcid.org/0000-0002-1566-987X en_US
dc.publisher.institution King Abdullah University of Science and Technology en_US
dc.author.affiliation Lebanese American University en_US


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