SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2891817412> ?p ?o ?g. }

Showing items 1 to 100 of ±142 with 100 items per page.

W2891817412 endingPage "58" @default.
W2891817412 startingPage "48" @default.
W2891817412 abstract "The lab-scale aerobic granules process was applied for low carbon to nitrogen (C/N < 4) wastewater treatment under different hydrodynamic shear forces. Results revealed that aerobic granules exhibited strong adaptability and stability. The aerobic granules might adopt an extracellular polymeric substances (EPS) regulating mechanism to address the changes in operational conditions, especially through growing secretion of fluorescence protein. The hydrodynamic shear force determinedly shaped and regulated the diversity and structure of dominant microbial community, briefly, reduced aeration intensity with increased time led to higher microbial richness, lower diversity and evenness, and shifts of predominant microorganisms. Phylogenetic classification of the key functional groups including bacteria related to carbon and nutrients removal, EPS production and quorum sensing (QS) presented much more differences among the reactors subject to different conditions. Therefore, the present work adds insight into the comprehensive understanding of the effect of aeration induced hydrodynamic shear force on aerobic granules." @default.
W2891817412 created "2018-09-27" @default.
W2891817412 creator A5037989560 @default.
W2891817412 creator A5038935026 @default.
W2891817412 creator A5047887294 @default.
W2891817412 creator A5066757775 @default.
W2891817412 creator A5076392735 @default.
W2891817412 date "2019-01-01" @default.
W2891817412 modified "2023-10-06" @default.
W2891817412 title "Hydrodynamic shear force shaped the microbial community and function in the aerobic granular sequencing batch reactors for low carbon to nitrogen (C/N) municipal wastewater treatment" @default.
W2891817412 cites W1618532305 @default.
W2891817412 cites W1864791524 @default.
W2891817412 cites W1965622349 @default.
W2891817412 cites W1975692256 @default.
W2891817412 cites W1982176145 @default.
W2891817412 cites W1984343565 @default.
W2891817412 cites W2012482796 @default.
W2891817412 cites W2014157642 @default.
W2891817412 cites W2031905507 @default.
W2891817412 cites W2035851989 @default.
W2891817412 cites W2037023268 @default.
W2891817412 cites W2039992451 @default.
W2891817412 cites W2040967347 @default.
W2891817412 cites W2088508632 @default.
W2891817412 cites W2104591183 @default.
W2891817412 cites W2126922170 @default.
W2891817412 cites W2151664960 @default.
W2891817412 cites W2170294514 @default.
W2891817412 cites W2267538814 @default.
W2891817412 cites W2334090163 @default.
W2891817412 cites W2340454867 @default.
W2891817412 cites W2345177062 @default.
W2891817412 cites W2388596599 @default.
W2891817412 cites W2404431829 @default.
W2891817412 cites W2406634861 @default.
W2891817412 cites W2523509207 @default.
W2891817412 cites W2556757153 @default.
W2891817412 cites W2579037560 @default.
W2891817412 cites W2589413944 @default.
W2891817412 cites W2600661981 @default.
W2891817412 cites W2611792636 @default.
W2891817412 cites W2621966837 @default.
W2891817412 cites W2626858597 @default.
W2891817412 cites W2742785439 @default.
W2891817412 cites W2743921589 @default.
W2891817412 cites W2751493907 @default.
W2891817412 cites W2752133981 @default.
W2891817412 cites W2755452882 @default.
W2891817412 cites W2765277240 @default.
W2891817412 cites W2765883183 @default.
W2891817412 cites W2766587749 @default.
W2891817412 cites W2775907420 @default.
W2891817412 cites W2790597452 @default.
W2891817412 cites W2794055298 @default.
W2891817412 cites W2799331232 @default.
W2891817412 cites W801219622 @default.
W2891817412 cites W815202798 @default.
W2891817412 doi "https://doi.org/10.1016/j.biortech.2018.09.102" @default.
W2891817412 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/30261336" @default.
W2891817412 hasPublicationYear "2019" @default.
W2891817412 type Work @default.
W2891817412 sameAs 2891817412 @default.
W2891817412 citedByCount "85" @default.
W2891817412 countsByYear W28918174122019 @default.
W2891817412 countsByYear W28918174122020 @default.
W2891817412 countsByYear W28918174122021 @default.
W2891817412 countsByYear W28918174122022 @default.
W2891817412 countsByYear W28918174122023 @default.
W2891817412 crossrefType "journal-article" @default.
W2891817412 hasAuthorship W2891817412A5037989560 @default.
W2891817412 hasAuthorship W2891817412A5038935026 @default.
W2891817412 hasAuthorship W2891817412A5047887294 @default.
W2891817412 hasAuthorship W2891817412A5066757775 @default.
W2891817412 hasAuthorship W2891817412A5076392735 @default.
W2891817412 hasConcept C107872376 @default.
W2891817412 hasConcept C118687296 @default.
W2891817412 hasConcept C127413603 @default.
W2891817412 hasConcept C129968341 @default.
W2891817412 hasConcept C159985019 @default.
W2891817412 hasConcept C185592680 @default.
W2891817412 hasConcept C188287460 @default.
W2891817412 hasConcept C18903297 @default.
W2891817412 hasConcept C192562407 @default.
W2891817412 hasConcept C38626664 @default.
W2891817412 hasConcept C39432304 @default.
W2891817412 hasConcept C42360764 @default.
W2891817412 hasConcept C523546767 @default.
W2891817412 hasConcept C528095902 @default.
W2891817412 hasConcept C54355233 @default.
W2891817412 hasConcept C57442070 @default.
W2891817412 hasConcept C58123911 @default.
W2891817412 hasConcept C81407943 @default.
W2891817412 hasConcept C86803240 @default.
W2891817412 hasConcept C86922832 @default.
W2891817412 hasConcept C87717796 @default.
W2891817412 hasConcept C94061648 @default.
W2891817412 hasConcept C96035792 @default.
W2891817412 hasConceptScore W2891817412C107872376 @default.