Experimental data are presented which describe heat transfer characteristics of turbulent supercritical carbon dioxide flow in vertical tubes with circular, triangular, and square cross-sections. Experiments are conducted at a constant pressure of 8MPa under various conditions such as inlet bulk temperatures ranging from 15 to 32°C, imposed heat fluxes from 3 to 180kW/m 2 , and mass velocities from 209 to 1230kg/m 2 s. The corresponding Reynolds and Grashof numbers are in the range of 3×10 4 to 1.4×10 5 , and 5×10 9 to 4×10 11 , respectively. The test section is composed of an entrance region of 0.6m long and a heating region of 1.2m long. Wall temperatures are measured by thermocouples installed at the outer surface of the heating region. In order to identify the effect of the cross-sectional shape on the supercritical heat transfer, wall temperature distributions in the streamwise direction are compared at the same heat flux and mass velocity conditions. Based on the wall temperature data, an improved heat transfer correlation, which can be applicable to both forced convection and mixed convection regimes, is proposed, and compared with previous ones.