On　the　basis　of　the　original　four-channel　burner,　the　oxygen-enriched　channel　is　added　to　control　the　oxygen-enriched　rate　by　adjusting　the　opening　of　the　valve　at　the　entrance　of　the　oxygen-enriched　channel.　In　actual　production,　the　oxygen　concentration　in　rotary　kiln　can　be　adjusted　more　flexibly　to　meet　the　combustion　needs　of　different　coal　types　in　kiln　and　realize　oxygen-enriched　combustion　under　different　oxygen　concentration.　A　physical　model　of　rotary　kiln　-　burner　is　established　in　this　paper,　using　FLUENT　to　increase　the　oxygen　-　channel　rotary　kiln　burner　structure　for　numerical　simulation　of　combustion　of　pulverized　coal.　The　distribution　of　velocity　field,　combustion　temperature　and　component　concentration　field　in　kiln　were　analyzed,　and　the　combustion　characteristics　of　pulverized　coal　in　kiln　were　compared　between　two　kinds　of　burners.　The　calculation　results　show　that　the　addition　of　oxygen-enriched　channels　will　not　cause　significant　changes　in　the　velocity　field　in　the　rotary　kiln,　and　can　promote　the　combustion　of　pulverized　coal　in　the　rotary　kiln,　thus　verifying　the　feasibility　of　adding　oxygen-enriched　channels.　©　Published　under　licence　by　IOP　Publishing　Ltd.