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Contact: Daniel Stolte
stolte@email.arizona.edu
520-626-4402
University of Arizona
A $1.25 million research grant aims at reducing the risks of mining accidents that cause thousands of deaths every year in mining and construction
A University of Arizona geotechnical engineer has been awarded $1.25 million to conduct research that could provide safer working conditions for miners and construction workers.
A University of Arizona College of Engineering research program looking at new methods of determining rock strength could reduce hazardous working conditions that currently cause thousands of deaths every year in mining and construction.
Pinnaduwa H. S. W. "Kumar" Kulatilake, professor of geological engineering in the UA Department of Mining and Geological Engineering, is the sole principal investigator for a five-year project to develop new methods of assessing ground stability. The National Institute for Occupational Safety and Health (NIOSH), which is part of the Centers for Disease Control and Prevention, is funding the research.
The true extent of mining fatalities globally is hard to gauge, but some estimates suggest that as many as 12,000 miners die every year in mine accidents. The primary cause of these fatalities is ground failure.
Ground failure is generally any significant movement of the ground, such as a landslide or underground excavation collapse, or when ground moves and flows like a liquid, which results when earthquakes or high water pressure cause soil to lose its strength.
Tunnel or underground cavern collapse and catastrophic failure of slopes, dams and foundations are examples of ground failure encountered in mining and civil engineering projects. Part of the problem is that current methods of rock assessment are simply not up to the task of providing a detailed picture of what engineers are truly getting into when they start blasting and tunneling.
During the five year project, Kulatilake will extend rock strength criteria he has developed to make them applicable in three-dimensions. He will be working with two mines in the U.S. and two mines in China to apply these new methodologies to underground and surface excavations to determine how well they work in the real world. China's official mining death toll in 2010 was 2,631. It is the world's largest coal producer and consumer, and employs 5.5 million coal miners.
Kulatilake points out that it is not only miners who will benefit from being able to evaluate rock masses for potentially hazardous working conditions. "This is not only for mining," he said. "This work also relates to civil rock engineering projects such as tunnels, caverns, foundations, dams, and slopes."
To develop new methods of ground stability analysis, Kulatilake will combine field investigations and extensive laboratory testing, such as CT scans and three-dimensional load testing, with three-dimensional numerical modeling, including new theoretical concepts and advanced statistical and probabilistic procedures to quantify variability and uncertainty.
His theoretical models will be made increasingly accurate over time as their predictions are validated using lab test results and field data. In essence, Kulatilake aims to bring more certainty to what is essentially educated guesswork when it comes to assessing ground stability. "We have been using very simple methodologies in practice to address very complicated problems," he said.
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The research findings will be incorporated in graduate courses taught by Kulatilake in the department of mining and geological engineering and the department of civil engineering and engineering mechanics. And his teaching will extend beyond the University of Arizona: During the last 20 years he has taught 52 short courses all over the world.
More information on the University of Arizona Department of Mining and Geological Engineering can be found at http://www.mge.arizona.edu
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AAAS and EurekAlert! are not responsible for the accuracy of news releases posted to EurekAlert! by contributing institutions or for the use of any information through the EurekAlert! system.
[ | E-mail | Share ]
Contact: Daniel Stolte
stolte@email.arizona.edu
520-626-4402
University of Arizona
A $1.25 million research grant aims at reducing the risks of mining accidents that cause thousands of deaths every year in mining and construction
A University of Arizona geotechnical engineer has been awarded $1.25 million to conduct research that could provide safer working conditions for miners and construction workers.
A University of Arizona College of Engineering research program looking at new methods of determining rock strength could reduce hazardous working conditions that currently cause thousands of deaths every year in mining and construction.
Pinnaduwa H. S. W. "Kumar" Kulatilake, professor of geological engineering in the UA Department of Mining and Geological Engineering, is the sole principal investigator for a five-year project to develop new methods of assessing ground stability. The National Institute for Occupational Safety and Health (NIOSH), which is part of the Centers for Disease Control and Prevention, is funding the research.
The true extent of mining fatalities globally is hard to gauge, but some estimates suggest that as many as 12,000 miners die every year in mine accidents. The primary cause of these fatalities is ground failure.
Ground failure is generally any significant movement of the ground, such as a landslide or underground excavation collapse, or when ground moves and flows like a liquid, which results when earthquakes or high water pressure cause soil to lose its strength.
Tunnel or underground cavern collapse and catastrophic failure of slopes, dams and foundations are examples of ground failure encountered in mining and civil engineering projects. Part of the problem is that current methods of rock assessment are simply not up to the task of providing a detailed picture of what engineers are truly getting into when they start blasting and tunneling.
During the five year project, Kulatilake will extend rock strength criteria he has developed to make them applicable in three-dimensions. He will be working with two mines in the U.S. and two mines in China to apply these new methodologies to underground and surface excavations to determine how well they work in the real world. China's official mining death toll in 2010 was 2,631. It is the world's largest coal producer and consumer, and employs 5.5 million coal miners.
Kulatilake points out that it is not only miners who will benefit from being able to evaluate rock masses for potentially hazardous working conditions. "This is not only for mining," he said. "This work also relates to civil rock engineering projects such as tunnels, caverns, foundations, dams, and slopes."
To develop new methods of ground stability analysis, Kulatilake will combine field investigations and extensive laboratory testing, such as CT scans and three-dimensional load testing, with three-dimensional numerical modeling, including new theoretical concepts and advanced statistical and probabilistic procedures to quantify variability and uncertainty.
His theoretical models will be made increasingly accurate over time as their predictions are validated using lab test results and field data. In essence, Kulatilake aims to bring more certainty to what is essentially educated guesswork when it comes to assessing ground stability. "We have been using very simple methodologies in practice to address very complicated problems," he said.
###
The research findings will be incorporated in graduate courses taught by Kulatilake in the department of mining and geological engineering and the department of civil engineering and engineering mechanics. And his teaching will extend beyond the University of Arizona: During the last 20 years he has taught 52 short courses all over the world.
More information on the University of Arizona Department of Mining and Geological Engineering can be found at http://www.mge.arizona.edu
[ | E-mail | Share ]
?
AAAS and EurekAlert! are not responsible for the accuracy of news releases posted to EurekAlert! by contributing institutions or for the use of any information through the EurekAlert! system.
Source: http://www.eurekalert.org/pub_releases/2012-01/uoa-rsr012012.php
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