5
Fragmentation by Blasting: The 10th International
Symposium on Rock Fragmentation by Blasting,
2012 (Frag blast 10). Taylor &Francis Books Ltd,
2013, pp. 511–520.
[3] J. Csavina, J. Field, M. P. Taylor, S. Gao, A. Landázuri,
E. A. Betterton, and A. E. Sáez, “A review on the
importance of metals and metalloids in atmospheric
dust and aerosol from mining operations,” Science of
the Total Environment, vol. 433, pp. 58–73, 2012.
[4] J. Colinet, C. N. Halldin, and J. Schall, Best practices
for dust control in coal mining, 2021.
[5] MSHA, “Respirable crystalline silica: Final rule” 4
2024. [Online]. Available: https://www.msha.gov/
regulations/rulemaking/silica.
[6] H. N. Doyle, “Dust concentration in the mines,”
Information Circular, no. 8458–8462, p. 27, 1970.
[7] NIOSH, “About hierarchy of controls,” 4 2024.
[Online]. Available: https://www.cdc.gov/niosh/
hierarchy-of-controls/about/?CDCAArefVal=https://
www. cdc.gov/niosh/topics/hierarchy/default.html.
[8] Minnesota Department of Health, “Powered air puri-
fying respirator (PAPR),” 2022.
[9] CDC, “NIOSH-approved P100 particulate filtering
facepiece respirators.” [Online]. Available: https://
www.cdc.gov/niosh/npptl/topics/respirators/disp
_part/p100list1.html.
[10] O. Safety, H. Administration et al., Assigned pro-
tection factors for the revised respiratory protection
standard. Maroon Ebooks, 2015.
[11] T. J. Nelson, D. P. Wilmes, and R. A. daRoza, “ANSI
Z88. 2 (1992): practices for respiratory protection,”
American Industrial Hygiene Association Journal,
vol. 55, no. 7, pp. 660–662, 1994.
[12] J. L. Whitelaw, K. Burton, B. Davies, and A. L. Jones,
“Respiratory protection: Do PAPRs adequately pro-
tect workers against DPM?” 2019.
[13] S. Rengasamy, B. C. Eimer, and R. E. Shaffer,
“Comparison of nanoparticle filtration performance
of NIOSH-approved and CE-marked particulate fil-
tering facepiece respirators,” Annals of Occupational
Hygiene, vol. 53, pp. 117–128, 2009.
[14] U. Safety, “The meaning of FFP protection classes.”.
[15] E. C. Hyatt, “Respirator protection factors,” 1975.
[16] N. J. Bollinger, “NIOSH respirator selection logic,”
2004.
[17] J. Schumacher, S. A. Gray, L. Weidelt, A. Brinker, K.
Prior, and W. M. Stratling, “Comparison of powered
and conventional air-purifying respirators during
simulated resuscitation of casualties contaminated
with hazardous substances,” Emergency medicine
journal, vol. 26, pp. 501–505, 2009.
[18] J. O. Crawford, K. Dixon, B. G. Miller, and J. W.
Cherrie, “A review of the effectiveness of respirators
in reducing exposure to polycyclic aromatic hydrocar-
bons for coke oven workers,” Annals of Occupational
Hygiene, vol. 58, pp. 943–954, 2014.
[19] T. M. Spear, J. DuMond, C. Lloyd, and J. H. Vincent,
“An effective protection factor study of respirators
used by primary lead smelter workers,” Applied
Occupational and Environmental Hygiene, vol. 15,
pp. 235–244, 2000.
[20] W. R. Myers and M. J. P. III, “Performance measure-
ments on a powered air-purifying respirator made
during actual field use in a silica bagging opera-
tion,” The Annals of Occupational Hygiene, vol. 27,
pp. 251–259, 1983.
[21] W. A. Burgess and J. Shapiro, “Protection from the
daughter products of radon through the use of a pow-
ered air-purifying respirator,” Health Physics, vol. 15,
pp. 115– 121, 1968.
[22] S. Cheberiachko, O. Y. ka, D. Radchuk, and A.
Yavorskyi, “Respiratory protection provided by neg-
ative pressure half mask filtering respirators in coal
mines,” Solid State Phenomena, vol. 277, pp. 232–
240, 2018.
[23] T. Watkins, “Petition -Docket No. M-2020-014-C,”
2021.
[24] ——, “Petition -Docket No. M-2021-010-C,” 2022.
[25] Y. Chen, S. Hung, B. Kave, M. Kluger, R. B. Krieser,
K. Lee, P. M. Mezzavia, I. Ng, C. Paynter, R. Segal,
T. Sindoni, and D. L. Williams, “HALO CleanSpace
PAPR evaluation: Communication, respiratory pro-
tection, and usability,” Infection Control Hospital
Epidemiology, vol. 44, pp. 295– 301, 2023.
[26] H. J. Cohen, L. H. Hecker, D. K. Mattheis, J.
S. Johnson, A. H. Biermann, and K. L. Foote,
“Simulated workplace protection factor study of
powered air-purifying and supplied air respirators,”
AIHAJ-American Industrial Hygiene Association,
vol. 62, pp. 595–604, 2001.
[27] T. J. Nelson, T. H. Wheeler, and T. S. Mustard,
“Workplace protection factors—supplied air hood,”
AIHAJ-American Industrial Hygiene Association,
vol. 62, pp. 96–99, 2001.
[28] L. Janssen, J. Bidwell, K. Cuta, and T. Nelson,
“Workplace performance of a hood-style sup-
plied-air respirator,” Journal of Occupational and
Environmental Hygiene, vol. 5, pp. 438–443, 2008.
Fragmentation by Blasting: The 10th International
Symposium on Rock Fragmentation by Blasting,
2012 (Frag blast 10). Taylor &Francis Books Ltd,
2013, pp. 511–520.
[3] J. Csavina, J. Field, M. P. Taylor, S. Gao, A. Landázuri,
E. A. Betterton, and A. E. Sáez, “A review on the
importance of metals and metalloids in atmospheric
dust and aerosol from mining operations,” Science of
the Total Environment, vol. 433, pp. 58–73, 2012.
[4] J. Colinet, C. N. Halldin, and J. Schall, Best practices
for dust control in coal mining, 2021.
[5] MSHA, “Respirable crystalline silica: Final rule” 4
2024. [Online]. Available: https://www.msha.gov/
regulations/rulemaking/silica.
[6] H. N. Doyle, “Dust concentration in the mines,”
Information Circular, no. 8458–8462, p. 27, 1970.
[7] NIOSH, “About hierarchy of controls,” 4 2024.
[Online]. Available: https://www.cdc.gov/niosh/
hierarchy-of-controls/about/?CDCAArefVal=https://
www. cdc.gov/niosh/topics/hierarchy/default.html.
[8] Minnesota Department of Health, “Powered air puri-
fying respirator (PAPR),” 2022.
[9] CDC, “NIOSH-approved P100 particulate filtering
facepiece respirators.” [Online]. Available: https://
www.cdc.gov/niosh/npptl/topics/respirators/disp
_part/p100list1.html.
[10] O. Safety, H. Administration et al., Assigned pro-
tection factors for the revised respiratory protection
standard. Maroon Ebooks, 2015.
[11] T. J. Nelson, D. P. Wilmes, and R. A. daRoza, “ANSI
Z88. 2 (1992): practices for respiratory protection,”
American Industrial Hygiene Association Journal,
vol. 55, no. 7, pp. 660–662, 1994.
[12] J. L. Whitelaw, K. Burton, B. Davies, and A. L. Jones,
“Respiratory protection: Do PAPRs adequately pro-
tect workers against DPM?” 2019.
[13] S. Rengasamy, B. C. Eimer, and R. E. Shaffer,
“Comparison of nanoparticle filtration performance
of NIOSH-approved and CE-marked particulate fil-
tering facepiece respirators,” Annals of Occupational
Hygiene, vol. 53, pp. 117–128, 2009.
[14] U. Safety, “The meaning of FFP protection classes.”.
[15] E. C. Hyatt, “Respirator protection factors,” 1975.
[16] N. J. Bollinger, “NIOSH respirator selection logic,”
2004.
[17] J. Schumacher, S. A. Gray, L. Weidelt, A. Brinker, K.
Prior, and W. M. Stratling, “Comparison of powered
and conventional air-purifying respirators during
simulated resuscitation of casualties contaminated
with hazardous substances,” Emergency medicine
journal, vol. 26, pp. 501–505, 2009.
[18] J. O. Crawford, K. Dixon, B. G. Miller, and J. W.
Cherrie, “A review of the effectiveness of respirators
in reducing exposure to polycyclic aromatic hydrocar-
bons for coke oven workers,” Annals of Occupational
Hygiene, vol. 58, pp. 943–954, 2014.
[19] T. M. Spear, J. DuMond, C. Lloyd, and J. H. Vincent,
“An effective protection factor study of respirators
used by primary lead smelter workers,” Applied
Occupational and Environmental Hygiene, vol. 15,
pp. 235–244, 2000.
[20] W. R. Myers and M. J. P. III, “Performance measure-
ments on a powered air-purifying respirator made
during actual field use in a silica bagging opera-
tion,” The Annals of Occupational Hygiene, vol. 27,
pp. 251–259, 1983.
[21] W. A. Burgess and J. Shapiro, “Protection from the
daughter products of radon through the use of a pow-
ered air-purifying respirator,” Health Physics, vol. 15,
pp. 115– 121, 1968.
[22] S. Cheberiachko, O. Y. ka, D. Radchuk, and A.
Yavorskyi, “Respiratory protection provided by neg-
ative pressure half mask filtering respirators in coal
mines,” Solid State Phenomena, vol. 277, pp. 232–
240, 2018.
[23] T. Watkins, “Petition -Docket No. M-2020-014-C,”
2021.
[24] ——, “Petition -Docket No. M-2021-010-C,” 2022.
[25] Y. Chen, S. Hung, B. Kave, M. Kluger, R. B. Krieser,
K. Lee, P. M. Mezzavia, I. Ng, C. Paynter, R. Segal,
T. Sindoni, and D. L. Williams, “HALO CleanSpace
PAPR evaluation: Communication, respiratory pro-
tection, and usability,” Infection Control Hospital
Epidemiology, vol. 44, pp. 295– 301, 2023.
[26] H. J. Cohen, L. H. Hecker, D. K. Mattheis, J.
S. Johnson, A. H. Biermann, and K. L. Foote,
“Simulated workplace protection factor study of
powered air-purifying and supplied air respirators,”
AIHAJ-American Industrial Hygiene Association,
vol. 62, pp. 595–604, 2001.
[27] T. J. Nelson, T. H. Wheeler, and T. S. Mustard,
“Workplace protection factors—supplied air hood,”
AIHAJ-American Industrial Hygiene Association,
vol. 62, pp. 96–99, 2001.
[28] L. Janssen, J. Bidwell, K. Cuta, and T. Nelson,
“Workplace performance of a hood-style sup-
plied-air respirator,” Journal of Occupational and
Environmental Hygiene, vol. 5, pp. 438–443, 2008.