Citation

Hongqing Z, Feng L, Rule G, Yuangang J, Fenglong P. Procedia Eng. 2011; 26: 595-601.

Copyright

(Copyright © 2011, Elsevier Publishing)

DOI

10.1016/j.proeng.2011.11.2211

PMID

unavailable

Abstract

Aiming at the problems of traditional buried tube nitrogen injection that the nitrogen injection spot with intervals in the space causes the failure of continuous nitrogen distribution in goaf, leading to poor inert effect, in addition, the un-recycling of the nitrogen injection pipe causes much resource waste. The nitrogen injection pipe material is always brittle, of which shear performance is better than its tensile performance. Based on this principle, new fire nitrogen injection process (rotating traction and non-interval) is designed, fundamentally solving major defects of buried tube nitrogen injection, which can realize the synchronous movement between nitrogen injection point and the workface. According to the unloading arch principle and the dynamic calculation of trenchless pipe directional crossing technology, the traction power of non-interval drag pipe nitrogen injection for fire control can be calculated and analyzed. By using a geotechnical engineering numerical simulation software, the stress distribution is simulated for the nitrogen injection pipe in the goaf of YAN ZI SHAN mine, and the traction power is calculated based on it, which lays foundation on successful fulfilments of non-interval nitrogen injection for fire control.