Abstract A typical Australian 3–5 Mt/year longwall requires 9 to 15 km of roadway to be developed every year (G. Lewis and G. Gibson: Proc. 13th Austr. Tunnelling Conf., Melbourne, Australia, May 2008, ATS, 317–326.). One of the major challenges faced by the Australian longwall mining industry is that roadway development has been unable to keep pace with improvements in longwall extraction rates. This has affected the profitability, viability and future of underground coal mines (M. Kelly: 'Coordination of roadway development strategy', ACARP report no. C5013, ACARP, Brisbane, Australia, 1997.). Gibson (G. Gibson: 'Australian roadway development– current practices', ACARP report no. C15005, ACARP, Brisbane, Australia, 2005.) proposed the development of an integrated suite of management tools and procedures to study how roadway development rates can be improved. A computer based process mapping, management and monitoring system would help the adoption of a systems/process control approach. The objective of this study was the development of a simulation model to better understand, analyse and improve the planning and execution of current roadway development. The models developed were able to demonstrate the utilisation of the self-drilling rock bolt technology could improve advance rate of roadway developments.
[1]
Zbigniew M. Bzymek,et al.
Simulation of a Machining Sequence Using Delmia/Quest Software
,
2008
.
[2]
Nick Vagenas.
Applications of discrete-event simulation in Canadian mining operations in the nineties
,
1999
.
[3]
Ernest Y Baafi,et al.
A Web-Based Database for Assessing Roadway Development Performance
,
2009
.
[4]
Martin R. Barnes.
An introduction to QUEST
,
1997,
WSC '97.
[5]
Deidra L. Donald.
A tutorial on ergonomic and process modeling using QUEST and IGRIP
,
1998,
1998 Winter Simulation Conference. Proceedings (Cat. No.98CH36274).
[6]
Geoff Gray,et al.
A Simulation Model for Roadway Development to Support Longwall Mining
,
2009
.