Mechanism and Control of Asymmetric Floor Heave in Deep Roadway Disturbed by Roof Fracture

Wei, Wensheng; Zhang, Guojun; Li, Chunyuan; Zhang, Wenshuai; Shen, Yupeng

doi:10.3390/su15086357

Cited by 2 publications

(1 citation statement)

References 22 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Wang et al [33] proposed an asymmetric floor heave control scheme of "floor leveling + anchor cable support + concrete hardening" on the basis of the control principle of "roof + two sides + floor". Wei et al [34] used 3DEC discrete-element software to simulate and analyze the characteristics and evolution of asymmetric roadway floor heave under dynamic-load disturbance, and proposed the asymmetric control scheme of "slurry anchor reinforcement + top cutting and pressure relief". Zhang et al [35] used UDEC software to study the floor failure mechanism under the influence of superimposed dynamic and static loads.…”

Section: Introductionmentioning

confidence: 99%

Floor Heave Control in Gob-Side Entry Retaining by Pillarless Coal Mining with Anti-Shear Pile Technology

Sakhno,

Skrzypkowski

et al. 2024

Applied Sciences

View full text Add to dashboard Cite

The severe floor heave in gob-side entry retaining is the major restriction factor of the wide application of pillarless mining thin coal seams. Reinforcement and stress-relief floor heave control methods are the most promising. However, in practice, floor restoration is widely used. Therefore, floor heave control technology in gob-side entry retaining needs to be improved. This study proposes anti-shear pile technology to control floor heave in gob-side entry retaining. The research was mainly carried out by numerical simulation. It was found that the transformation of high vertical stresses in the entry floor underneath the filling wall and coal seam body into horizontal stresses starts the floor heave process. The vertical dilatancy of rocks under the roadway span and their subsequent unloading lead to the delamination of the floor strata and uplift of the entry contour. In this paper, the best pile installation scheme was found. It is a 2pile 5+2 scheme with the installation of two piles, each 2 m long. After that, it was shown that filling piles are more than 3.3 times cheaper than comparable analogs, and pile installation is less labor-intensive. The implementation of the proposed floor heave control method leads to a reduction in heaving by 2.47 times.

show abstract

Section: Introductionmentioning

confidence: 99%

Floor Heave Control in Gob-Side Entry Retaining by Pillarless Coal Mining with Anti-Shear Pile Technology

Sakhno,

Skrzypkowski

et al. 2024

Applied Sciences

View full text Add to dashboard Cite

show abstract

Simulation study on surface deformation of shallow buried coal seam mining in a gully area

Wang,

Cai,

Zhang

et al. 2023

Front. Earth Sci.

View full text Add to dashboard Cite

Coal mining subsidence leads to frequent surface ecological and environmental problems. Due to the unique topographic conditions within gully areas, the deformation and damage characteristics, along with the evolution laws of the surface, have been difficult to analyze. To explore the surface movement and deformation law of shallow-buried coal seam mining in a gully area, this study designed a three-dimensional similar-material simulation test simulating the complete movement and deformation of the ground surface under real terrain conditions and proposed a complete data acquisition and processing scheme. Combined with the numerical simulation analysis, we utilized this scheme to analyze the dynamic influence law of coal seam mining in a gully area on the distribution of ground surface stress and displacement as well as on the dynamic characteristics of the ground surface damage. The results show that the existence of gully topography affects the stress distribution of the ground surface and the raw rock of the coal seams underneath and that there exists a stress concentration in the gully area of the ground surface. Furthermore, the mining activities of the coal seams lead to an increase in the degree of stress concentration in the gully area of the ground surface, and the slopes enter into the process of energy accumulation and sudden release, which makes the region prone to the occurrence of geological disasters such as landslides and collapses. In addition, the surface movement and deformation in the gully area are more intense, exceeding the plain area, and the surface movement is affected by the spatial location relationship between the mining area and the slope body, causing the center of the mining area to show obvious eccentricity characteristics. The results of this study provide a reference basis for the safe mining of coal mines in gully topography.

show abstract

Mechanism and Control of Asymmetric Floor Heave in Deep Roadway Disturbed by Roof Fracture

Cited by 2 publications

References 22 publications

Floor Heave Control in Gob-Side Entry Retaining by Pillarless Coal Mining with Anti-Shear Pile Technology

Floor Heave Control in Gob-Side Entry Retaining by Pillarless Coal Mining with Anti-Shear Pile Technology

Simulation study on surface deformation of shallow buried coal seam mining in a gully area

Contact Info

Product

Resources

About