Design and Application of Remediation Plan for Heading Slope Landslide in Feilongshan Tunnel Entrance

Jump To References Section

Authors

  • Jinhua Polytechnic, Jinhua 321007 ,CN
  • Jinhua Polytechnic, Jinhua 321007 ,CN
  • Jinhua Polytechnic, Jinhua 321007 ,CN
  • Zhejiang Normal University, Jinhua 321004 ,CN

Keywords:

Tunnel Entrance, Heading Slope Landslide, Remediation Plan.

Abstract

In order to effectively solve the hazards of heading slope landslide of tunnel entrance project in fractured strata, the geological conditions, human activities, meteorology, hydrology, and other factors of Feilongshan tunnel entrance are analyzed; by comprehensively taking into consideration of factors such as the environment, project duration, and safety of the landslide area, this paper proposes comprehensive control measures centered on anti-sliding, and systematically studies the effectiveness of slope-brushing protection, pipe-shed support, counter-pressure backfill mortar rubbles and other measures for controlling heading slope landslide of the tunnel entrance. The on-site monitoring results shows that the change trend of the vector displacement and plane displacement at each measuring point after the remediation is relatively stable, all within the allowable deformation range; the comprehensive remediation plan has clear construction process flow, obvious technical effects, and high construction efficiency and safety. The research results provide a technical basis and reference for the remediation of tunnel entrance landslide in complex and fractured strata.

Downloads

Download data is not yet available.

Metrics

Metrics Loading ...

Downloads

Published

2022-10-22

How to Cite

Yao, Y.-H., Wang, Y.-H., Liu, Z.-W., & Qiu, X. (2022). Design and Application of Remediation Plan for Heading Slope Landslide in Feilongshan Tunnel Entrance. Journal of Mines, Metals and Fuels, 66(8), 505–511. Retrieved from https://informaticsjournals.com/index.php/jmmf/article/view/31750

Issue

Section

Articles

 

References

Zhang, Hand Fang, H. (2014): “Research on the comprehensive treatment of collapse and initial fracture at the entrance of Beichenting Tunnel,” Chinese and foreign highways, vol.5, no.5, pp. 123-127, 2014.

Li, X. S. (2013): “Treatment of slope and slope collapse of Dongju Temple Tunnel,” Railway construction, vol.3, no.3, pp.105-109,2013.

Cannistraro, G., Cannistraro, M. (2016): “Hypothermia risk, monitoring and environment control in operating rooms,” International Journal of Heat and Technology, vol.34, no.2, pp.165-171, 2016.

Li, Y.Z., Liu, Z., Ma, Z.Q. (2016): “Analog circuit based on the shock pulse method and its application in fault diagnosis of bearing,” Mathematical Modelling of Engineering Problems, vol.3, no.1, pp.35-38, 2016

Wu, B. (2017): “Influence of a music therapy program to prevent somatic symptom disorder pain: an experimental study,” Neuro Quantology, vol.15, no.3, pp.158-163, 2017.

Roselli, C., Sasso, M., Tariello, F. (2016): “Dynamic simulation of a solar electric driven heat pump integrated with electric storage for an office building located in southern Italy,” International Journal of Heat and Technology, vol. 34, no.4, pp. 637-646, 2016.

Industry standard of the People's Republic of China. Highway tunnel design specification (JTG D70-2004), People's transportation press, Beijing, 2004.

Industry standards of the People's Republic of China. Technical specification for highway tunnel construction (JTG F60-2009), People's transportation press, Beijing, 2009.

Chen, C., Sun, Y.G., Dong, D.S., Tian, T. (2016): “Design of magnetic levitation ball control based on co-simulation of SIMULINK and ADAMS,” Mathematical Modelling of Engineering Problems, vol. 3, no. 3, pp. 146-150, 2016.

Song, D. (2017): “Mind and machine: interdisciplinarity,” Neuro Quantology, vol.15, No.1, pp.67-72, 2017.

Industry recommendation standards of the People's Republic of China. Technical rules for highway tunnel construction (JTG/T F60-2009), People's transportation press, Beijing, 2009.