Author(s)

Mingwei Zhang, Hideki Shimada, Takashi Sasaoka, Kikuo Matsui

Department of Earth Resources Engineering, Faulty of Engineering, Kyushu University, Fukuoka, Japan.

To explore the impact of lateral stress concentration in interlayer rock stratum on the exploitation of protected coal seam, a field experiment was carried out in a multi-seam mining structure. Lateral stress redistribution and interlayer rock failure behavior were surveyed. Then an assistant numerical investigation was implemented to evolve the effect of liberated seam mining and its influence on stress reconstruction in surrounding rock mass. The cause of lateral stress concentration and its impact were discussed finally. Key findings turn out that a certain lateral stress increases in interlayer rock stratum and concentrates on its lower region. Lateral stress concentration and interlayer rock failure are interactional. The former is an inducing factor of the latter; the latter promotes the increase of concentration degree. Extent of lateral stress concentration increases to the maximum as seam distance is about 50 m. But the efficacy of liberated seam mining decreases as the seam spacing gets larger. Protected seam mining is then classified based upon the impact of lateral stress concentration, which helps to prevent the rock burst hazard and then to achieve a reliable mining in deep mines.

Lateral Stress Concentration; Interlayer Rock Stratum; Multi-Seam Coal Mining; Stress Relaxation Zone; Floor Failure Behavior

M. Zhang, H. Shimada, T. Sasaoka and K. Matsui, "Lateral Stress Concentration in Localized Interlayer Rock Stratum and the Impact on Deep Multi-Seam Coal Mining," International Journal of Geosciences, Vol. 4 No. 9, 2013, pp. 1248-1255. doi: 10.4236/ijg.2013.49119.