This paper investigated the effects of blast wave oscillation on the overpressure of premixed methane/air explosions by numerical simulations and experiments. The AutoReaGas 3D code and a duct were used in the study. The oscillation induced by the repeat reflection of a blast wave in a closed-end duct was observed by high-speed camera. There was an oscillation zone in the blast wave which exhibited some saw-toothed characteristics. This explained why the overpressure in closed-end ducts was higher than that in open-end ducts. In addition, some of the peak overpressure was even higher than the C-J pressure of 1.76 MPa. The peak overpressures at the ducts' ends were higher than at other measurement points for 5 m, 10 m, and 15 m long ducts. This was mainly due to the reflection of the blast wave. The oscillating period increased with increasing duct length, and could be calculated by t = 0.0003 + 0.00198 L. However, the duct's diameter had no significant influence on the oscillation's period. The amplitude increased with increases in the duct length, except for the case of a 20 m long duct, and increased with decreases in the ducts' diameter. In addition, the peak overpressures in ducts of the same length/diameter ratio were similar. The peak overpressure increased with the increase of the length/diameter ratio, and the maximum value of the peak overpressure in the ducts had the same trend. However, the overpressure did not increase when the length/diameter ratio reached 250. (C) 2013 Elsevier Ltd. All rights reserved.