Examination of redirected continuous miner scrubber discharge configurations for exhaust face ventilation systems.
Trans Soc Min Metall Explor 2014 Mar; 334:435-443
The U.S. National Institute for Occupational Safety and Health (NIOSH) Office of Mine Safety and Health Research (OMSHR) has recently studied several redirected scrubber discharge configurations in its full-scale continuous miner gallery for both dust and gas control when using an exhaust face ventilation system. Dust and gas measurements around the continuous mining machine in the laboratory showed that the conventional scrubber discharge directed outby the face with a 12.2-m (40-ft) exhaust curtain setback appeared to be one of the better configurations for controlling dust and gas. Redirecting all the air towards the face equally up both sides of the machine increased the dust and gas concentrations around the machine. When all the air was redirected towards the face on the off-curtain side of the machine, gas accumulations tended to be reduced at the face, at the expense of increased dust levels in the return and on the curtain side of the mining machine. A 6.1-m (20-ft) exhaust curtain setback without the scrubber operating resulted in the lowest dust levels around the continuous mining machine, but this configuration resulted in some of the highest levels of dust in the return and gas on the off-curtain side of the mining face. Two field studies showed some similarities to the laboratory findings, with elevated dust levels at the rear corners of the continuous miner when all the scrubber exhaust was redirected towards the face either up the off-tubing side or equally up both sides of the mining machine.
Mining-industry; Underground-mining; Coal-mining; Coal-dust; Dust-analysis; Dust-particles; Scrubbers; Respirable-dust; Ventilation; Sampling; Dust-control; Gases; Control-systems; Dust-measurement; Measurement-equipment; Engineering-controls; Control-technology; Dust-control-equipment; Dust-suppression
Transactions of the Society for Mining, Metallurgy, and Exploration