A　hollow　tubular　copper　removal　adsorbent　was　prepared　with　oyster　shell　and　cement　as　the　main　raw　materials.　The　effects　of　different　formulas,　different　initial　copper　concentrations　and　different　pH　values　of　samples　on　the　copper　removal　efficiency　were　investigated　to　determine　the　optimal　conditions　for　copper　removal.　The　content　of　copper　in　the　wastewater　is　determined　by　Atomic　Absorption　Spectrophotometer.　The　microstructure　and　elemental　composition　of　the　samples　were　characterized　by　scanning　electron　microscopy　(SEM)　and　EDS.　As　a　result,　the　formula　with　the　content　of　cement　to　be　8　wt%　and　the　oyster　shell　powder　of　92　wt%　is　optimal.　Under　the　condition　of　30　°　C,　when　the　pH　value　was　9.0,　the　Cu2+　adsorption　capacity　of　the　sample　could　reach　0.59　mg/g　at　48　h.　SEM　analysis　revealed　that　there　are　abundant　pores　in　the　sample,　which　is　beneficial　for　Cu2+　absorption　on　the　adsorbent.