SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2620802823> ?p ?o ?g. }

Showing items 1 to 100 of ±146 with 100 items per page.

W2620802823 endingPage "691" @default.
W2620802823 startingPage "681" @default.
W2620802823 abstract "A permanent microbial stratified nitrogen removal system coupling anammox with partial nitrification (SNAP) in a sequencing batch biofilter granular reactor (SBBGR) was successfully constructed for the treatment of ammonia-rich wastewater. With a nitrogen loading rate of 0.1 kg N m−3·d−1, the maximal ammonia and total nitrogen removal efficiencies could reach up to 96.08% and 84.86% on day 108, respectively. The pH, DO profiles revealed a switch of functional species (AOB and anammox) at a typical intermittent aeration cycle. qPCR and high throughput analyses certified a stable spatial microbial stratified community structure. Although, anammox preferred strict anaerobic environment while AOB needed oxygen, a special stratified community structure contributed to conquer this obstacle. Moreover, Bacteroidet, Chlorobi, OD1, Planctomycetes, and Proteobacteria were the dominant species in the SBBGR. Although we have predicted the possible pathways of nitrogen transformation, further studies are needed to validate the pathways in enzymology." @default.
W2620802823 created "2017-06-09" @default.
W2620802823 creator A5014192929 @default.
W2620802823 creator A5025851261 @default.
W2620802823 creator A5026685270 @default.
W2620802823 creator A5056783217 @default.
W2620802823 creator A5073812239 @default.
W2620802823 date "2017-10-01" @default.
W2620802823 modified "2023-10-02" @default.
W2620802823 title "Realization of microbial community stratification for single-stage nitrogen removal in a sequencing batch biofilter granular reactor" @default.
W2620802823 cites W1664955540 @default.
W2620802823 cites W1963483476 @default.
W2620802823 cites W1963770145 @default.
W2620802823 cites W1966442642 @default.
W2620802823 cites W1969735815 @default.
W2620802823 cites W1975109188 @default.
W2620802823 cites W1988881950 @default.
W2620802823 cites W1992328327 @default.
W2620802823 cites W1997227831 @default.
W2620802823 cites W1998493315 @default.
W2620802823 cites W1999665821 @default.
W2620802823 cites W2003655363 @default.
W2620802823 cites W2004814997 @default.
W2620802823 cites W2010647135 @default.
W2620802823 cites W2024422128 @default.
W2620802823 cites W2028250230 @default.
W2620802823 cites W2029919141 @default.
W2620802823 cites W2029980074 @default.
W2620802823 cites W2033575754 @default.
W2620802823 cites W2035403501 @default.
W2620802823 cites W2037023268 @default.
W2620802823 cites W2041969216 @default.
W2620802823 cites W2045034566 @default.
W2620802823 cites W2076049151 @default.
W2620802823 cites W2083315222 @default.
W2620802823 cites W2083677407 @default.
W2620802823 cites W2088211216 @default.
W2620802823 cites W2092485277 @default.
W2620802823 cites W2094631127 @default.
W2620802823 cites W2103630469 @default.
W2620802823 cites W2136749508 @default.
W2620802823 cites W2137365780 @default.
W2620802823 cites W2142310595 @default.
W2620802823 cites W2161484899 @default.
W2620802823 cites W2179653678 @default.
W2620802823 cites W2193801043 @default.
W2620802823 cites W2251482399 @default.
W2620802823 cites W2267146398 @default.
W2620802823 cites W2285414202 @default.
W2620802823 cites W2291799545 @default.
W2620802823 cites W2397391890 @default.
W2620802823 cites W2424290119 @default.
W2620802823 cites W2513051301 @default.
W2620802823 cites W2513942937 @default.
W2620802823 cites W778833756 @default.
W2620802823 cites W944884389 @default.
W2620802823 cites W963192743 @default.
W2620802823 doi "https://doi.org/10.1016/j.biortech.2017.05.203" @default.
W2620802823 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/28609756" @default.
W2620802823 hasPublicationYear "2017" @default.
W2620802823 type Work @default.
W2620802823 sameAs 2620802823 @default.
W2620802823 citedByCount "32" @default.
W2620802823 countsByYear W26208028232018 @default.
W2620802823 countsByYear W26208028232019 @default.
W2620802823 countsByYear W26208028232020 @default.
W2620802823 countsByYear W26208028232021 @default.
W2620802823 countsByYear W26208028232022 @default.
W2620802823 countsByYear W26208028232023 @default.
W2620802823 crossrefType "journal-article" @default.
W2620802823 hasAuthorship W2620802823A5014192929 @default.
W2620802823 hasAuthorship W2620802823A5025851261 @default.
W2620802823 hasAuthorship W2620802823A5026685270 @default.
W2620802823 hasAuthorship W2620802823A5056783217 @default.
W2620802823 hasAuthorship W2620802823A5073812239 @default.
W2620802823 hasConcept C107872376 @default.
W2620802823 hasConcept C127413603 @default.
W2620802823 hasConcept C164752452 @default.
W2620802823 hasConcept C178790620 @default.
W2620802823 hasConcept C185592680 @default.
W2620802823 hasConcept C18903297 @default.
W2620802823 hasConcept C197011783 @default.
W2620802823 hasConcept C2779676784 @default.
W2620802823 hasConcept C2780355613 @default.
W2620802823 hasConcept C2780977320 @default.
W2620802823 hasConcept C39432304 @default.
W2620802823 hasConcept C42062724 @default.
W2620802823 hasConcept C49045045 @default.
W2620802823 hasConcept C49671963 @default.
W2620802823 hasConcept C523546767 @default.
W2620802823 hasConcept C528095902 @default.
W2620802823 hasConcept C537208039 @default.
W2620802823 hasConcept C54355233 @default.
W2620802823 hasConcept C54776530 @default.
W2620802823 hasConcept C57442070 @default.
W2620802823 hasConcept C73593433 @default.
W2620802823 hasConcept C81407943 @default.
W2620802823 hasConcept C86803240 @default.