Study of the effect of pipe wall conduit on the characteristics of methane explosion in the bend pipe

Abstract

ABSTRACT To improve the efficiency and protection level of combustible gas explosion relief in urban underground pipeline corridors, we built a 150 × 150 × 2000 mm3 transparent pipeline experimental platform to simulate underground pipeline corridors and studied the effect of different positions and diameters of explosion relief conduits on the side of the pipeline on the characteristics of the explosion of methane in the pipeline. The results show that the flame is twisted and deformed at the bend, increasing the contact area between the fuel and oxygen, thus causing flame acceleration. Wall conduit relief bend in the flame has a certain hysteresis, in the front end of the bend, and the back end of the pipe wall conduit were installed, the flame propagation time of 254 ms, and 200 ms, respectively, increased by 71 ms, and 17 ms, the delay ratio of 38.80%, 9.29%, respectively. When the front part of the pipe wall conduit pipe diameter of 60 mm, 80 mm, and 100 mm, the flame propagation time was delayed 71 ms, 82 ms, and 105 ms, the delay ratio of 38.80%, 44.81%, 57.38%, and the position of the front of the pipe wall conduit pipe diameter is larger, the lower the peak explosion pressure.