Asymmetric support technology for gob side entry retaining with high water material

Title:

Asymmetric support technology for gob side entry retaining with high water material

Creator:

Shan, Qiyuan, Liu, Yongli, Li, Tao, and Jin, Zhupeng

Identifier:

https://cdk.lib.cas.cz/client/handle/uuid:84e590e6-9d06-464b-bb09-d93c920e3014
uuid:84e590e6-9d06-464b-bb09-d93c920e3014
issn:1214-9705
doi:10.13168/AGG.2021.0023

Subject:

geodynamika, geodynamics, high water material, gob side entry retaining, numerical simulation, asymmetric support, stress distribution, 7, and 551

Type:

model:article and TEXT

Format:

print, bez média, and svazek

Description:

The gob side entry retaining with high water material is often used in coal mines. To study the stress evolution characteristics of surrounding rock and asymmetric support control technology of gob side entry retaining with high water material, the evolution law of stress and deformation of surrounding rock in gob side entry retaining during working face mining is studied by theoretical analysis, numerical simulation and field measurement. According to the stress variation of overlying strata during the mining process of the working face, the mechanical models before and after the basic roof fracture were established respectively. The stress and deformation of the filling body and the roof on the side of the filling body are larger, and the stress and deformation of the solid coal and the roof on the side of solid coal are smaller. The maximum stress is at 3 m away from the roadway. The first weighting step distance is 40 m and the periodic weighting step distance is 30 m. Based on the stress and deformation characteristics of the roadway surrounding, the roadway surrounding support is divided into filling bodyside, solid coal side, and middle part of roadway roof. The asymmetric support technology of "filling body+ double row hydraulic prop+ I-beam+ high-strength pretension anchor cable+ high-strength bolt" is proposed. The field engineering practice shows that the surrounding rock control effect of asymmetric support technology with high water material is good., Qiyuan Shan, Yongli Liu, Tao Li and Zhupeng Jin., and Obsahuje bibliografii

Language:

English

Rights:

http://creativecommons.org/licenses/by-nc-sa/4.0/
policy:public

Coverage:

335-346

Source:

Acta geodynamica et geomaterialia : | 2021 Volume:18 | Number:3 (203)

Harvested from:

CDK

Metadata only:

false