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Application of physical modelling and particle flow analysis to evaluate ore-pass design.

Authors
Beus MJ; Iverson S; Stewart B
Source
Inst Min Metall, Trans, Sect A: Min Ind 1997 Sep-Dec; 106:A110-A117
Link
http://www.tandfonline.com/loi/ymnt20/
NIOSHTIC No.
20000174
Abstract
U.S. Mine Safety and Health Administration (MSHA) accident statistics have identified ore-pass hazards as a significant safety problem in U.S. underground metal mines. The statistics show that nearly 75% of injuries are directly or indirectly related to pulling or freeing of ore-pass chutes, the use of hand tools in ore passes, falls of broken rock in ore passes and structural failures of chutes or gates and ore-pass walls. Researchers at the Spokane Research Laboratory of the National Institute for Occupational Safety and Health (NIOSH) are investigating hazards in and around ore passes in hard rock mines. Risk assessment methods, such as fault-tree analysis, have been employed to identify the most probable causes of ore-pass failures, define research priorities and analyze the factors that result in malfunctioning and unsafe ore passes. Static and dynamic loads are being measured in a laboratory setting with the use of a reduced-scale ore-pass mock-up. Field tests are being initiated in mine ore passes to determine static and dynamic loads. Data from the test ore passes are being compared with data from the mine to characterize true system behavior. Computer modelling with the use of closed-form solutions, finite-element analyses and a newly developed particle flow code predicts static and dynamic loads from the flow and the impact or ore and waste in the ore pass. Preliminary results indicate that dynamic impacts from ore and waste rock might be considerably greater than expected. The total static load is substantially less than is typically used for the structural design of chute and gate support members. It is suggested that damping factors, normal and shear stiffness and mass frictional characteristics have a significant effect on particle flow and resulting impact loads. This is being verified with the use of results from laboratory tests, field tests and particle flow analyses.
Keywords
Mining-industry; Underground-mining; Mine-safety; Models; Accident-statistics; Statistical-analysis
Contact
National Institute for Occupational Safety and Health, Spokane Research Laboratory, Spokane, WA 99207
CODEN
TIMNAQ
Publication Date
19970901
Document Type
Journal Article
Email Address
tzb7@cdc.gov
Fiscal Year
1997
ISSN
0371-7844
NIOSH Division
SRL
Priority Area
Other Occupational Concerns
Source Name
Transactions. Section A, Mining Industry/Institution of Mining & Metallurgy
State
WA
Page last reviewed: September 2, 2020
Content source: National Institute for Occupational Safety and Health Education and Information Division