The　development　of　anaerobic　ammonia　oxidation　(anammox)　process,　makes　it　possible　to　achieve　domestic　wastewater　treatment　with　low　energy　consumptions.　And　the　recovery　of　energy　and　resources　from　domestic　wastewater　can　be　realized　through　biological　adsorption.　The　enhanced　biological　phosphorus　removal　(EBPR)　system　was　successfully　started　under　sludge　retention　time　(SRT)　of　2　d.　The　SVI　of　activity　sludge　was　only　50　and　the　effluent　of　EBPR　system　was　stable　under　fluctuant　influent.　While,　the　carbon　content　in　EBPR　system　sludge　was　only　37%.　Stable　operation　of　organic　matter　removal　SBR　was　achieved　by　decreasing　the　aerobic　hydraulic　residence　time　(HRT)　to　40　min.　The　carbon　content　of　sludge　was　then　increased　to　48%.　93.8%　of　the　removed　COD　was　achieved　during　the　anaerobic　phase　which　meant　the　organic　matter　was　mainly　removed　by　the　biological　adsorption.　Due　to　the　consumption　of　organic　matter　by　heterotrophic　bacteria　and　the　adsorption　of　phosphorus　by　PAO　occurred　simultaneously,　when　the　C/P　of　domestic　wastewater　was　relatively　low,　it　was　difficult　to　recover　both　organic　matter　and　phosphorus　at　the　same　time.　To　enhance　the　recovery　of　organic　matter,　HRT　of　aerobic　phase　should　be　decreased　and　the　chemical　removal　method　should　be　applied　to　remove　part　of　the　phosphorus.　The　anaerobic　mixing　time,　aeration　time　and　sludge　age　should　be　optimized　in　order　to　achieve　a　higher　efficient　recovery　of　C　and　P.　©　All　Rights　Reserved.