Publication:
Effect of prolonged sludge retention times on the performance of membrane bioreactor and microbial community for leachate treatment under restricted aeration

dc.contributor.authorIttisupornrat S.
dc.contributor.authorPhetrak A.
dc.contributor.authorTheepharaksapan S.
dc.contributor.authorMhuantong W.
dc.contributor.authorTobino T.
dc.date.accessioned2022-03-10T13:17:05Z
dc.date.available2022-03-10T13:17:05Z
dc.date.issued2021
dc.date.issuedBE2564
dc.description.abstractLeachate treatment is challenging owing to the complex composition of pollutants. This study investigated the treatment performance of a membrane bioreactor (MBR) and the microbial community structure corresponding to the effect of prolonged sludge retention times (SRTs) under restricted aeration. In the present study, a pilot-scale MBR was designed to treat leachate after being pretreated with an anaerobic filter for continuous operation for 240 days. The experimental results showed that removal performance of over 90% was achieved for biochemical oxygen demand, total Kjeldahl nitrogen, ammonia-nitrogen, and suspended solids when the MBR was operated at SRTs of 150–300 days. The results on microbial communities revealed that Proteobacteria, Bacteroidetes, Firmicutes, Planctomycetes, Chloroflexi, and Actinobacteria were the major phyla. Furthermore, ammonia-oxidizing bacteria belonging to Nitrosomonadaceae were considered to play a vital role in the ammonia-nitrogen removal. A high abundance of Rhizobiales was detected on the biofilm of the membrane, which could be the key driver of bio-fouling. The dynamic changes in the microbial community indicate steady performance of MBR and can act as an indicator of membrane bio-fouling. The results of our study highlight that MBR can be viably operated in long SRTs under restricted aeration for leachate treatment with technical, economic, and environmental feasibility for resource recovery. © 2021 Elsevier Ltd
dc.format.mimetypeapplication/pdf
dc.identifier.citationChemosphere. Vol 284, No. (2021)
dc.identifier.doi10.1016/j.chemosphere.2021.131153
dc.identifier.issn456535
dc.identifier.other2-s2.0-85108871619
dc.identifier.urihttps://hdl.handle.net/20.500.14740/7997
dc.language.isoeng
dc.rights.holderScopus
dc.subject.otherAmmonia
dc.subject.otherBioconversion
dc.subject.otherDissolved oxygen
dc.subject.otherLeachate treatment
dc.subject.otherMembranes
dc.subject.otherMicroorganisms
dc.subject.otherNitrogen removal
dc.subject.otherBio-fouling
dc.subject.otherComplex compositions
dc.subject.otherEffect of prolonged sludge retention time
dc.subject.otherLeachates
dc.subject.otherMicrobial communities
dc.subject.otherMicrobial community structures
dc.subject.otherNext-generation sequencing
dc.subject.otherPerformance
dc.subject.otherSludge retention time
dc.subject.otherTreatment performance
dc.subject.otherBioreactors
dc.subject.otherAmmonia
dc.subject.otherGenomic DNA
dc.subject.otherNitrogen
dc.subject.otherRNA 16S
dc.subject.otherActivated sludge
dc.subject.otherAeration
dc.subject.otherBiofilm
dc.subject.otherBioreactor
dc.subject.otherCommunity structure
dc.subject.otherLeachate
dc.subject.otherMembrane
dc.subject.otherMicrobial community
dc.subject.otherMicrobial ecology
dc.subject.otherPerformance assessment
dc.subject.otherSludge
dc.subject.otherActinobacteria
dc.subject.otherAeration
dc.subject.otherAmmonia oxidizing bacterium
dc.subject.otherArticle
dc.subject.otherBacteroidetes
dc.subject.otherBiochemical oxygen demand
dc.subject.otherBiofilm
dc.subject.otherChloroflexi
dc.subject.otherFeasibility study
dc.subject.otherFirmicutes
dc.subject.otherHigh throughput sequencing
dc.subject.otherLeaching
dc.subject.otherMicrobial community
dc.subject.otherMunicipal solid waste
dc.subject.otherNitrosomonadaceae
dc.subject.otherNonhuman
dc.subject.otherOxidation
dc.subject.otherPlanctomycetes
dc.subject.otherPollutant
dc.subject.otherPolymerase chain reaction
dc.subject.otherRecycling
dc.subject.otherRhizobiales
dc.subject.otherSolids retention time
dc.subject.otherStructure activity relation
dc.subject.otherSuspended particulate matter
dc.subject.otherThailand
dc.subject.otherWaste water management
dc.subject.otherWastewater
dc.subject.otherArtificial membrane
dc.subject.otherBioreactor
dc.subject.otherMicroflora
dc.subject.otherSewage
dc.subject.otherActinobacteria
dc.subject.otherBacteroidetes
dc.subject.otherChloroflexi
dc.subject.otherFirmicutes
dc.subject.otherIndicator indicator
dc.subject.otherNitrosomonadaceae
dc.subject.otherNitrosomonadales
dc.subject.otherPlanctomycetes
dc.subject.otherProteobacteria
dc.subject.otherRhizobiales
dc.subject.otherBioreactors
dc.subject.otherMembranes, Artificial
dc.subject.otherMicrobiota
dc.subject.otherNitrogen
dc.subject.otherSewage
dc.titleEffect of prolonged sludge retention times on the performance of membrane bioreactor and microbial community for leachate treatment under restricted aeration
dc.typeArticle
dspace.entity.typePublication
swu.datasource.scopushttps://www.scopus.com/inward/record.uri?eid=2-s2.0-85108871619&doi=10.1016%2fj.chemosphere.2021.131153&partnerID=40&md5=0f8d095e0cd39a254bb865ada409bb9a

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