Research on explosion characteristics and consequences of compressor room in compressor station of long-distance natural gas pipeline

Abstract

As the core place in the compressor station, the compressor room has the possibility of gas leakage and explosion during its operation. In this paper, an equal proportional physical model is established based on FLCAS software, the effects of different stoichiometric ratios on the explosion temperature, flame propagation velocity and overpressure in the compressor room are investigated. The results show that when the stoichiometric ratio is in the range of 0.8–1.4, the indoor temperature peak, flame propagation velocity and peak overpressure generated by the explosion in the compressor room all increase first and then decrease with the increase of the stoichiometric ratio. The outdoor temperature peak and the flame propagation velocity increase with the increase of the stoichiometric ratio in the range of 0.8–1.4, and the flame acceleration during the flame propagation process can effectively promote the increase of the explosion overpressure inside the flame surface. In addition, in order to avoid more serious consequences in the event of an explosion in the compressor room, a fire sprinkler system should be laid between the adjacent compressor room doors, and the doors of the adjacent compressor rooms should be installed in staggered positions to prevent the occurrence of secondary danger.