A　novel　aerobic　granular　sludge　(AGS)　system　called　SBR　(sequencing　batch　reactor)-CF　(continuous-flow)　system　merging　the　advantages　of　sequencing　batch　reactors　(SBRs)　and　continuous　flow　(CF)　reactors　was　developed.　The　AGS　was　successfully　operated　in　the　SBR-CF　system　which　consisted　of　four　same　SBRs　(each　served　as　settling　tank/anaerobic　feeding　tank/aerobic　reacting　tank　in　turn).　The　effects　of　aeration　intensity　and　hydraulic　retention　time　(HRT)　on　the　SBR-CF　system　were　studied.　The　results　showed　strong　aeration　intensity　(9.74　h(-1)　in　this　study)　and　appropriate　HRT　(9　h　in　this　study)　were　more　favorable　to　the　nutrients　removal.　The　EEM-PARAFAC　analysis　was　applied　to　characterize　the　LB-EPS,　TB-EPS　and　domestic　wastewater,　as　results　TB-EPS　was　found　play　an　important　role　in　the　biosorption　in　COD　removal　of　the　SBR-CF　system.　In　addition,　a　preliminary　conceptual　reaction　process　model　in　the　SBR-CF　system　was　built　using　high-throughput　pyrosequencing　and　phylogenetic　assignment.