This study experimentally investigated the effect of the net radiation on the evaporation rate of the Class A evaporation pan. The experiment was conducted by comparing evaporation rates of two Class A evaporation pans, one in original galvanized metal color, another one in white color, placed in the same meteorological station. The experimental results revealed that, because the white pan absorbed less net radiation than that of the metal pan, the annual evaporation rate of white pan (1041 mm year-1) is smaller than the annual evaporation rate (1392 mm year-1) of the metal pan. The evaporation rate of the white pan is about 75% of the evaporation rate of the metal pan. This study also used the difference of pan evaporation rates to examine the influence of net radiation on the evaporation rate. Furthermore, the energy budget of the evaporation pan and suggested a correction coefficient to include the net radiation Rn absorbed by the pan wall to ensure the energy closure. The correction coefficients were 1.50 for the metal pan and 1.26 for the white pan. In addition, the measured daily evaporation rates Epan were compared with several prediction models. A modified Penman-Monteith prediction model was proposed to incorporate the net radiation on the water surface and pan wall, and to give better accuracy for the pan evaporation rate. Keywords: Class A evaporation pan, Evaporation rate, Net radiation, Penman-Monteith model, Albedo.