Page 234 - Advances In Productive, Safe, and Responsible Coal Mining
P. 234
Diesel particulate matter: Monitoring and control improves safety and air quality 213
[61] Ramachandran G, Watts Jr. WF. Statistical comparison of diesel particulate matter mea-
surement methods. AIHA J 2003;64:329–37.
[62] Turcotte KB, Edwardson E, Laflamme G. Evaluation of existing diesel particulate matter
sampling and analysis methods at a high sulphide ore mine; 1998. Report of Investigations
submitted to DEEP.
[63] Grenier M. The evaluation of three diesel particulate matter sampling and analysis
methods at a high sulphide ore mining operation; 1998. Report submitted to DEEP Tech-
nical Committee.
[64] Watts Jr. WF, Ramachandran G. In: Diesel particulate matter sampling methods –
statistical comparison. Final report submitted to DEEP; 2000.
[65] Wu H, Gillies ADS. In: Developments in real time personal diesel particulate monitoring
in mines. Proceedings, 12th US/North American mine ventilation symposium, SME,
Englewood, CO, USA; 2008. p. 629–36.
[66] Noll JD, Janisko S. Using laser absorption techniques to monitor diesel particulate matter
exposure in underground stone mines. Optics East 2007, International Society for Optics
and Photonics; 2007. 67590P-67590P-11.
[67] Janisko S, Noll JD. In: Near real time monitoring of diesel particulate matter in under-
ground mines. Proceedings, 12th US/North American mine ventilation symposium,
SME, Englewood, CO, USA; 2008. p. 509–13.
[68] Noll JD, Patts L, Grau R. In: The effects of ventilation controls and environmental cabs on
diesel particulate matter concentrations in some limestone mines. Proceedings, 12th US/
North American Mine Ventilation Symposium, SME, Englewood, CO, USA; 2008.
p. 9–11.
[69] Janisko S, Noll JD. McKinnon DL, editor. Field evaluation of diesel particulate matter
using portable elemental carbon monitors. Proceedings, 13th US/North American mine
ventilation symposium, mirarco mining innovation, Sudbury, ON, Canada; 2010.
p. 47–52.
[70] Noll JD, Janisko S. Evaluation of a wearable monitor for measuring real-time diesel par-
ticulate matter concentrations in several underground mines. J Occup Environ Hyg
2013;10:716–22.
[71] Noll JD, Janisko S, Mischler SE. Real-time diesel particulate monitor for underground
mines. Anal Methods 2013;5:2954–63.
[72] Noll JD, Volkwein J, Janisko S, Patts L. Portable instruments for measuring tailpipe diesel
particulate in underground mines. Min Eng 2013;65(10):42–9.
[73] Khan MU, Gillies ADS. In: Real-time monitoring of DPM, airborne dust and correlating
elemental carbon measured by two methods in underground mines in USA. Proceedings,
15th North American mine ventilation symposium, SME, Englewood, CO, USA; 2015.
[74] Khan MU. Real-time diesel particulate matter monitoring in underground mine
atmospheres, association with the standard method and related challenges. PhD Disserta-
tion, Rolla, MO, USA: Missouri University of Science & Technology; 2017.
[75] McPherson MJ. Subsurface ventilation and environmental engineering. New York, NY,
USA: Springer Science & Business Media; 2012. 905 pp.