DocumentCode
1911991
Title
Development an instability model for bord-and-pillar goaf using elastic foundation plate theory
Author
Liu Cong-liang ; Tan Zhi-xiang ; Deng Ka-zhong ; Li Pei-xian
Author_Institution
Key Lab. for Land Environ. & Disaster Monitoring of SBSM, China Univ. of Min. & Technol., Xuzhou, China
Volume
2
fYear
2011
fDate
20-22 May 2011
Firstpage
1304
Lastpage
1308
Abstract
Bord-and-pillar mining has been widely used in northwestern China, and lots of remains of coal resources such as coal pillars, roof coal, bound coal and so on, is a significant waste. Furthermore, the accidents caused by the instability of bord-and-pillar goaf are commonly faced problems. These accidents may have detrimental effects on mining areas residents in the form of injury, disability or fatality as well as mining company due to downtimes, interruptions in the mining operations, destruction of land resources, environmental pollution and so on. Therefore, studying on instability mechanism of bord-and-pillar goaf for the assessment and management of ground collapse accidents and pillars recovery is essential. In this paper, the instability mechanism of bord-and-pillar goaf was analyzed based on mining geological and mechanical conditions. Aiming at hard roof goaf, a detailed analysis was developed, in which the pillars were equivalent to continuous elastic Foundation, the roof was equivalent to the elastic foundation plate, a mechanical model of foundation plate on elastic foundation is established, the synergetic instability process of coal pillar-and-roof system was studied, in addition, the mechanical conditions and math criterion of roof failure and the overall instability of coal pillar-and-roof system was given. The results show that bord-and-pillar goaf failure is a pillar-and-roof synergetic instability process, whit pillars´ effective area reducing, the roof will fail gradually, this will strengthen the pressure on pillars and accelerate pillars yield, if the effective area lower than its critical value, the goaf will collapse suddenly.
Keywords
coal; elasticity; foundations; mechanical stability; mining; plates (structures); structural engineering; bord-and-pillar goaf; bord-and-pillar mining; bound coal; coal pillar-and-roof system; coal pillars; coal resources; elastic foundation plate theory; environmental pollution; ground collapse accident; instability model; mining operation; pillars recovery; roof coal; roof failure; synergetic instability process; Coal; Economics; Geology; Manifolds; bord-and-pillar goaf; coal pillars recovery; coal resources waste; hard roof; instability mechanism; synergetic instability;
fLanguage
English
Publisher
ieee
Conference_Titel
Materials for Renewable Energy & Environment (ICMREE), 2011 International Conference on
Conference_Location
Shanghai
Print_ISBN
978-1-61284-749-8
Type
conf
DOI
10.1109/ICMREE.2011.5930575
Filename
5930575
Link To Document