Litcius/Paper detail

Optimisation of synergistic ventilation between dust and gas in a gas tunnel

Xiaoqiang Zhang, Zixian Wang, Wen‐Bin Chen

2024Scientific Reports31 citationsDOIOpen Access PDF

Abstract

In view of the difficult problem of gas and dust exceeding the limit during the digging process of a gas tunnel in Guizhou Province, Southwest China, the CFD numerical simulation method was applied to study the gas tunnel airflow, dust and gas transport law during the digging process. A physical simulation experimental platform was established to verify the numerical simulation results, and research was carried out in terms of gas-containing gas-carrying dust disaster prevention and control, and ventilation optimization was carried out for this gas tunnel. The results showed that the maximum gas concentration in the tunnel face under press-in ventilation could be about 1%, and the local dust concentration can be up to 900 mg/m 3 . The gas mass fraction in localised areas of the tunnel exceeded 0.9% under mixed ventilation pressure-extraction ratios of 9:1 and 8:2. When the pressure to pumping ratio is 6:4, the dust was concentrated on the return side of the tunnel at a distance of 40–60 m from the head of the tunnel, and the highest local dust concentration reaches 700 mg/m 3 . When the pressure pumping ratio was 7:3, the dust pollution problem could be controlled more effectively, and at the same time, there was no higher concentration of gas gathering in the tunnel. A comprehensive analysis of the differences between dust and gas-enriched areas in gas tunnels could provide some guidance on the synergistic control of gas and dust in gas tunnels.

Topics & Concepts

Ventilation (architecture)Environmental scienceToxic gasMeteorologyEnvironmental engineeringPhysicsCombustion and Detonation ProcessesWind and Air Flow StudiesFire dynamics and safety research