Underground
Our underground health and safety, productivity and environment initiatives include strengthening ventilation and gas management technology, minimising risks from fires and explosions, advancing emergency response technologies, reducing operating costs and improving reliability of subsidence predictions.
Coal Burst (19 Reports)
| Get Report |
C28009 | 12/12/2023 |
Author: Babak Khadivi, Jing Li, Amin Heidarpour, Hossein Masoumi, Qianbing Zhang, Jian Zhao | Monash University |
This project is aimed to address critical challenges regarding enhancing the health and safety standards in underground coal mining operation, with a particular focus on understanding of burst occurrence mechanism. The outcomes of previous ACARP projects have notably contributed to advancing .... read more |
| Get Report |
C27027 | 01/05/2021 |
Author: Hamid Roshan and Hossein Masoumi | University of New South Wales and Monash University |
The aim of this project is to study the effect of fluid withdrawal on stress distribution in coal. Recent advances in acoustic log analysis and analytical models as well as field and laboratory data are used to evaluate the stress redistribution caused by fluid drainage from a borehole. .... read more |
| Get Report |
C33032 | 01/04/2023 |
Author: Hamid Maleki | Maleki Technologies |
Since 1995, under the support of US mining companies, the Bureau of Land Management, NIOSH and the School Institute for Trust Land Administration, significant effort has been dedicated to advance the understanding of violent failure mechanisms by identifying significant contributing factors. .... read more |
| Get Report |
C27060 | 11/01/2022 |
Author: Winton Gale, Stephen Meyer | SCT Operations |
Seismic monitoring is typically undertaken when a mine is experiencing dynamic failure events such as coal or rock bursts, caving anomalies or rock failure associated with structural features which is causing uncertainty and difficulty during mining. The aim of the monitoring is to understand .... read more |
| Get Report |
C26006 | 01/03/2020 |
Author: Xun Luo, Joey Duan, Matt van de Werken | CSIRO |
Coal burst is a violent collapse of the coal wall or roof in development, roadways and at the longwall face in underground coal mines. Because it occurs suddenly, with no or very little warning, coal burst is particularly dangerous to nearby mine personnel, mining equipment and infrastructure. .... read more |
| Get Report |
C28012 | 04/07/2023 |
Author: Rhys Pitchers, Yvette Heritage, Winton Gale | SCT Operations |
Research conducted project C26060 Mechanics of gas related coal bursts indicated that areas of structurally generated micro fractures have the potential to allow significantly greater gas energy to be liberated from the coal than in nonstructured coal. Under the appropriate stress and gas .... read more |
| Get Report |
C26066 | 18/05/2023 |
Author: Ismet Canbulat, Chengguo Zhang, John Watson, Chunchen Wei, Onur Vardar, Changbin Wang, Faham Tahmasebinia, Winton Gale | University of New South Wales, SCT Operations |
Given the increasing incidence of coal bursts in Australian mines, it is necessary to develop mechanistically sound methods for assessing the risk they pose to personnel and equipment underground and methods of minimisation of their likelihood and the severity of any that occur. .... read more |
| Get Report |
C29039 | 01/04/2023 |
Author: Baotang Shen, Jingyu Shi, Jane Hodgkinson, Xun Luo, Joey Duan | CSIRO |
Stress state and geotechnical conditions often change significantly near major geological structures (e.g. faults, shear zones, dykes), which is the cause of most major mine instabilities and/or safety hazards including coal burst, roof falls, water inrush, gas outburst. A previous project .... read more |
| Get Report |
C27041 | 01/06/2023 |
Author: Ismet Canbulat, Chengguo Zhang, John Watson, Chunchen Wei, Faham Tahmasebinia | University of New South Wales |
As Australian coal mines progress deeper, the likelihood of coal burst increases in some areas; the current ground support system alone maybe inadequate for coal burst control in these limited areas. This project aims to assess the role and effects of a wide range of ground support elements .... read more |
| Get Report |
C29007 | 01/01/2024 |
Author: Murat Karakus, Giang Nguyen & Selahattin Akdag | The University of Adelaide |
The challenges associated with designing and operating a safe and profitable mine increase as near surface deposits are depleted and the pursuit of mineral resources is pushed deeper underground. Mining induced coal bursts pose great threats to mine safety and production. Coal bursts may .... read more |
| Get Report |
C29038 | 01/06/2022 |
Author: Xun Luo, Joey Duan, Michael Lofgren, Matt van de Werken | CSIRO |
CSIRO successfully demonstrated that distributed optic fiber sensing (DOFS) technology can become a reliable and efficient tool for microseismic monitoring in longwall coal mining and have identified that a big challenge for DOFS application in coal mining is data handling. DOFS can record .... read more |
| Get Report |
C26060 | 03/02/2021 |
Author: Winton Gale | SCT Operations |
Rock and coal fracturing is common about roadways, particularly under the influence of elevated stresses, either tectonic or related to mining abutment stress. Shear fracture is very common, however, it is very uncommon that the coal is propelled from the face or ribs as a result of fracture .... read more |
| Get Report |
C26054 | 01/01/2019 |
Author: Jan Nemcik, Gaetano Venticinque, Shivakuma Karekal | The University of Wollongong |
The success of mining operations is heavily dependent upon controlling the fractured ground especially in coal mines where complex sedimentary strata exist. In nature, mechanisms of rock fracture are a dynamic phenomenon that up to now has not been fully understood nor computationally modelled .... read more |
| Get Report |
C27048 | 01/08/2020 |
Author: Xun Luo, Joey Duan, Ludovic Ricard, Matt van de Werken | CSIRO |
In this project, the feasibility of using distributed optic fiber sensing (DOFS) technique was investigated for microseismic monitoring in coal mining. The investigation involved in theory study, laboratory tests and a mine site experiment. Results from the laboratory experiments have .... read more |
| Get Report |
C26062 | 24/05/2021 |
Author: Ian Gray, Jeff Wood, Tim Gibbons, Xiaoli Zhao | Sigra |
Bursts are events that expel material at velocity at the time of ejection. This is usually coal but is sometimes rock. Unlike falls where the velocity is gained through gravitational acceleration, the sources of energy that drive the material outwards are either strain energy of the rock or .... read more |
| Get Report |
C26053 | 01/09/2019 |
Author: Baotang Shen, Bongani Dlamini, Lu Chen, Yi Duan, Xun Luo,Matt Van de Werken, Onur Vardar, Ismet Canbulat | CSIRO, The University of New South Wales |
Stress state and geotechnical conditions often change significantly near major geological structures which is the cause of most major mine instabilities and/or safety hazards including coal burst, roof falls, water inrush, gas outburst etc. This project aimed to develop an integrated method of .... read more |
| Get Report |
C25004 | 01/07/2023 |
Author: Ismet Canbulat, Chengguo Zhang, Bruce Hebblewhite, John Watson, Rob Thomas, Baotang Shen, Xun Luo and Winton Gale | University of New South Wales |
Coal burst events are rare in the Australian coal industry. However, their occurrence appears to be increasing in some limited deeper mines. Understanding such phenomena in the Australian industry is primarily qualitative and has previously been based on overseas experience. Although .... read more |
| Get Report |
C26061 | 25/02/2019 |
Author: Ian Gray | Sigra |
This report describes the measurement of coal (and rock) properties using core in laboratory tests where the axial and radial (confining) stresses and the fluid pressures are varied. The results derived from this work show quite different material behaviour to those generally considered to .... read more |
| Get Report |
C27039 | 23/09/2022 |
Author: Winton Gale, Gaetano Venticinque and Mahdi Zoorabadi | SCT Operations |
Rocks in the ground are subject to a range of stresses. The stresses are defined on the basis of the three principle stresses (σ1,2,3) and shear stresses (τ). In coal mines the rock and coal are subject to fracture (failure) on a regular basis during development driveage and .... read more |