17
Environment 40(16): 2893–2901. https://doi
.org/10.1016/j.atmosenv.2006.01.002.
[85] Tang, Shida K., Lisa Graham, Ling Shen, Xialiang
Zhou, and Thomas Lanni (2004), “Simultaneous
determinations of carbonyls and NO2 in exhaust of
heavy-duty trucks and transit buses by HPLC fol-
lowing 2,4-Dinitrophenylhydrazine cartridge col-
lection,” Env Sci Tech 38: 5968–5976. https://doi
.org/10.1021/es0353356.
[86] 80 Fed. Reg. 52991 (2015), 30 CFR 75.322:
“Mandatory Safety Standards. Underground coal
mines. Harmful quantities of noxious gases.” Code
of Federal Regulations. Washington, DC: U.S.
Government Printing Office, Office of the Federal
Register.
[87] Rubeli, Brent and Mahe Gangal (2013), “Engine
certification testing and ventilation rates for Tier 4,
Update. Report CMIN‑2013 (037),” Mining Diesel
Emissions Council (MDEC) Conference, October.
Available from https://mdec.ca/2013/. (Accessed in
September 2024).
[88] MSHA (2011), “Reissue of P02-07 -Compliance with
Diesel Particulate Matter Standard in Underground
Coal Mines,” U.S. Department of Labor, Mine Safety
and Health Administration, Program Information
Bulletin No. P11-26. (https://arlweb.msha.gov/regs
/complian/PIB/2011/pib11-26.asp.
[89] Stachulak Jozef, Mahe Gangal, Cheryl Allen (2014),
“The effects of diesel oxidation catalyst on NO2 emis-
sions from mining vehicles,” In: von Glenn F, Biffi
M eds. Proceedings of the 10th International Mine
Ventilation Congress. Sun City, South Africa: The
Mine Ventilation Society of South Africa: 293–297.
[90] Banasiewicz, A. (2021), “Analysis of historical
changes in the limit value of nitrogen oxides con-
centrations for underground mining,” IOP Conf.
Ser.: Earth Environ. Sci. 684 012018. https://doi
.org/10.1088/1755-1315/684/1/012018.
[91] ACGIH (2024), “Threshold Limit Values (TLV ®)
and Biological Exposure Indices (BEI ®s) for chemical
substances and physical agents and biological expo-
sure indices,” Cincinnati, OH: American Conference
of Governmental Industrial Hygienists.
[92] Johansen, Keld, Søren Dahl, Gurli Mogense, Søren
Pehrson, Jesper Schramm and Anders Ivarsson
(2007), “Novel base metal-palladium catalytic die-
sel filter coating with NO2 reducing properties,”
SAE Technical Paper 2007-01-1921. https://doi
.org/10.4271/2007-01-1921.
[93] Khair, Magdi K., Patrick M. Merritt, Qilong Lu,
Jacques Lemaire, Jean-Paul Morin, and Keld Johansen
(2009), “Catalytic formulation for NO2 suppression
and control,” SAE Int. J. Fuels Lubr. 1(1): 803–812.
[94] Zielinska, Barbara, David Campbell, Douglas R.
Lawson, Robert G. Ireson, Christopher S. Weaver,
Thomas W. Hestreberg, Timothy Larson, Mark
Davey, and L-J. Sally Liu (2008), “Detailed charac-
terization and profiles of crankcase and diesel par-
ticulate matter exhaust emissions using speciated
organics,” Env Sci Tech 42: 5661–5666. https://doi
.org/10.1021/es703065h.
[95] Kissner, Gerd and Stephan Ruppel (2009), “Highly
efficient oil separation systems for crankcase venti-
lation,” SAE Technical Paper 2009-01-0974, 2009,
https://doi.org/10.4271/2009-01-0974.
[96] Alföldy, B., B. Giechaskiel, W. Hofmann, and Y.
Drossinos (2009), “Size-distribution dependent lung
deposition of diesel exhaust particle,” Journal of
Aerosol Science 40(8): Pages 652–663. https://doi
.org/10.1016/j.jaerosci.2009.04.009.
[97] Giechaskiel, B., A. Alföldy, and Y. Drossinos, (2009),
“A metric for health effects studies of diesel exhaust
particles,” Journal of Aerosol Science 40 (8): 639–
651. https://doi.org/10.1016/j.jaerosci.2009.04.008.
[98] Cauda, Emanuele G., Bon K. Ku, Arthur L. Miller,
and Teresa L. Barone (2012), “Toward developing a
new occupational exposure metric approach for char-
acterization of diesel aerosols,” Aerosol Science and
Technology 46(12): 1370–1381. https://doi.org/10
.1080/02786826.2012.715781.
[99] Viitanen, Anna-Kaisa, Sanni Uuksulainen, Antti
J. Koivisto, Kaarle Hämeri, and Timo Kauppinen
(2017), “Workplace measurements of ultrafine par-
ticles-A literature review,” Annals of Work Exposures
and Health 61(7): 749–758. https://doi.org/10.1093
/annweh/wxx049.
[100] Landwehr, Kathrine R., Alexander N. Larcombe,
Alison Reid, and Benjamin J. Mullins (2021),
“Critical review of diesel exhaust exposure health
impact research relevant to occupational settings:
Are we controlling the wrong pollutants?,” Expo
Health 13: 141–171. https://doi.org/10.1007
/s12403-020-00379-0.
Environment 40(16): 2893–2901. https://doi
.org/10.1016/j.atmosenv.2006.01.002.
[85] Tang, Shida K., Lisa Graham, Ling Shen, Xialiang
Zhou, and Thomas Lanni (2004), “Simultaneous
determinations of carbonyls and NO2 in exhaust of
heavy-duty trucks and transit buses by HPLC fol-
lowing 2,4-Dinitrophenylhydrazine cartridge col-
lection,” Env Sci Tech 38: 5968–5976. https://doi
.org/10.1021/es0353356.
[86] 80 Fed. Reg. 52991 (2015), 30 CFR 75.322:
“Mandatory Safety Standards. Underground coal
mines. Harmful quantities of noxious gases.” Code
of Federal Regulations. Washington, DC: U.S.
Government Printing Office, Office of the Federal
Register.
[87] Rubeli, Brent and Mahe Gangal (2013), “Engine
certification testing and ventilation rates for Tier 4,
Update. Report CMIN‑2013 (037),” Mining Diesel
Emissions Council (MDEC) Conference, October.
Available from https://mdec.ca/2013/. (Accessed in
September 2024).
[88] MSHA (2011), “Reissue of P02-07 -Compliance with
Diesel Particulate Matter Standard in Underground
Coal Mines,” U.S. Department of Labor, Mine Safety
and Health Administration, Program Information
Bulletin No. P11-26. (https://arlweb.msha.gov/regs
/complian/PIB/2011/pib11-26.asp.
[89] Stachulak Jozef, Mahe Gangal, Cheryl Allen (2014),
“The effects of diesel oxidation catalyst on NO2 emis-
sions from mining vehicles,” In: von Glenn F, Biffi
M eds. Proceedings of the 10th International Mine
Ventilation Congress. Sun City, South Africa: The
Mine Ventilation Society of South Africa: 293–297.
[90] Banasiewicz, A. (2021), “Analysis of historical
changes in the limit value of nitrogen oxides con-
centrations for underground mining,” IOP Conf.
Ser.: Earth Environ. Sci. 684 012018. https://doi
.org/10.1088/1755-1315/684/1/012018.
[91] ACGIH (2024), “Threshold Limit Values (TLV ®)
and Biological Exposure Indices (BEI ®s) for chemical
substances and physical agents and biological expo-
sure indices,” Cincinnati, OH: American Conference
of Governmental Industrial Hygienists.
[92] Johansen, Keld, Søren Dahl, Gurli Mogense, Søren
Pehrson, Jesper Schramm and Anders Ivarsson
(2007), “Novel base metal-palladium catalytic die-
sel filter coating with NO2 reducing properties,”
SAE Technical Paper 2007-01-1921. https://doi
.org/10.4271/2007-01-1921.
[93] Khair, Magdi K., Patrick M. Merritt, Qilong Lu,
Jacques Lemaire, Jean-Paul Morin, and Keld Johansen
(2009), “Catalytic formulation for NO2 suppression
and control,” SAE Int. J. Fuels Lubr. 1(1): 803–812.
[94] Zielinska, Barbara, David Campbell, Douglas R.
Lawson, Robert G. Ireson, Christopher S. Weaver,
Thomas W. Hestreberg, Timothy Larson, Mark
Davey, and L-J. Sally Liu (2008), “Detailed charac-
terization and profiles of crankcase and diesel par-
ticulate matter exhaust emissions using speciated
organics,” Env Sci Tech 42: 5661–5666. https://doi
.org/10.1021/es703065h.
[95] Kissner, Gerd and Stephan Ruppel (2009), “Highly
efficient oil separation systems for crankcase venti-
lation,” SAE Technical Paper 2009-01-0974, 2009,
https://doi.org/10.4271/2009-01-0974.
[96] Alföldy, B., B. Giechaskiel, W. Hofmann, and Y.
Drossinos (2009), “Size-distribution dependent lung
deposition of diesel exhaust particle,” Journal of
Aerosol Science 40(8): Pages 652–663. https://doi
.org/10.1016/j.jaerosci.2009.04.009.
[97] Giechaskiel, B., A. Alföldy, and Y. Drossinos, (2009),
“A metric for health effects studies of diesel exhaust
particles,” Journal of Aerosol Science 40 (8): 639–
651. https://doi.org/10.1016/j.jaerosci.2009.04.008.
[98] Cauda, Emanuele G., Bon K. Ku, Arthur L. Miller,
and Teresa L. Barone (2012), “Toward developing a
new occupational exposure metric approach for char-
acterization of diesel aerosols,” Aerosol Science and
Technology 46(12): 1370–1381. https://doi.org/10
.1080/02786826.2012.715781.
[99] Viitanen, Anna-Kaisa, Sanni Uuksulainen, Antti
J. Koivisto, Kaarle Hämeri, and Timo Kauppinen
(2017), “Workplace measurements of ultrafine par-
ticles-A literature review,” Annals of Work Exposures
and Health 61(7): 749–758. https://doi.org/10.1093
/annweh/wxx049.
[100] Landwehr, Kathrine R., Alexander N. Larcombe,
Alison Reid, and Benjamin J. Mullins (2021),
“Critical review of diesel exhaust exposure health
impact research relevant to occupational settings:
Are we controlling the wrong pollutants?,” Expo
Health 13: 141–171. https://doi.org/10.1007
/s12403-020-00379-0.