Accelerated　industrialization　results　in　an　irrational　emission　of　multi-phase　industrial　wastes　(IW)　such　as　air/water　pollutants　and　solid/hazardous　wastes,　making　their　synergistic　management　a　major　challenge.　To　address　this　issue,　a　distributive　multi-phase　waste　management　(DMWM)　model　is　developed　to　facilitate　comprehensive　emission-reduction　analysis　in　China.　The　DMWM　model　first　clarifies　the　emission　structure　and　interrelationships　of　the　various　sectors　in　the　multi-waste　and　corresponding　pollutant　systems.　The　sectors　with　similar　economic　and　environmental　attributes　could　be　clustered　to　facilitate　the　synergistic　mitigation　of　IW.　It　is　discovered　that　the　highest　emitting　type　of　industrial　waste　in　China　is　industrial　solid　waste　(ISW).　Chemical　oxygen　demand　(COD),　SO2　(SOG)　and　common　industrial　solid　waste　(CSW)　are　the　pollutants　contributing　the　most　to　emissions　from　Industrial　wastewater　(IWW),　industrial　waste　gas　(IWG),　and　ISW,　which　accounted　for　92.4%,　39.13%　and　98.74%　of　the　corresponding　IW　emissions,　respectively.　Besides,　some　typical　industries　are　identified　for　pollution　mitigation,　such　as　smelting　and　pressing　of　metals　(SPM),　production　and　distribution　of　electric　power　and　heat　(EH),　chemical　industries　(CI)　and　service　(OS).　In　addition,　the　overall　industrial　waste　emissions　from　different　sectors　in　China　show　clustering　characteristics　of　four　sectoral　groups,　which　indicates　the　need　for　IW　treatment　for　different　sectoral　groups.　Therefore,　it　is　expected　that　the　results　of　this　study　will　provide　a　scientific　foundation　for　evaluating　and　formulating　future　industrial　pollutant　control　policies.