Bugarski, Aleksandar D.; Ritter, Dylan A.; Moredock, Jeffrey L. (2025) Environmental Enclosure as a Control Technology for Reducing Exposure of Mobile Underground Mining Equipment Operators to Diesel Aerosols and Gases. Mining, Metallurgy & Exploration, 42 (5). doi:10.1007/s42461-025-01345-7

References Listed

These are the references the publisher has listed as being connected to the article. Please check the article itself for the full list of references which may differ. Not all references are currently linkable within the Digital Library.

	Peters, Susan, de Klerk, Nicholas, Reid, Alison, Fritschi, Lin, Musk, AW (Bill), Vermeulen, Roel (2017) Estimation of quantitative levels of diesel exhaust exposure and the health impact in the contemporary Australian mining industry. Occupational and Environmental Medicine, 74 (4) 282-289 doi:10.1136/oemed-2016-103808
	Not Yet Imported: - journal-article : 10.4209/aaqr.2019.03.0118 If you would like this item imported into the Digital Library, please contact us quoting Journal ID
	Not Yet Imported: Journal of Occupational and Environmental Hygiene - journal-article : 10.1080/15459624.2020.1718157 If you would like this item imported into the Digital Library, please contact us quoting Journal ID
	Bugarski, Aleksandar D., Vanderslice, Shawn, Hummer, Jon A., Barone, Teresa, Mischler, Steven E., Peters, Shad, Cochrane, Steve, Winkler, Jared (2022) Diesel Aerosols in an Underground Coal Mine. Mining, Metallurgy & Exploration, 39 (3) 937-945 doi:10.1007/s42461-022-00588-y
	Not Yet Imported: - journal-article : 10.12911/22998993/89671 If you would like this item imported into the Digital Library, please contact us quoting Journal ID
	Not Yet Imported: International Journal of Hygiene and Environmental Health - journal-article : 10.1016/j.ijheh.2020.113507 If you would like this item imported into the Digital Library, please contact us quoting Journal ID
	Kim, Joanne, Peters, Cheryl E, Arrandale, Victoria H, Labrèche, France, Ge, Calvin B, McLeod, Christopher B, Song, Chaojie, Lavoué, Jérôme, Davies, Hugh W, Nicol, Anne-Marie, Pahwa, Manisha, Demers, Paul A (2018) Burden of lung cancer attributable to occupational diesel engine exhaust exposure in Canada. Occupational and Environmental Medicine, 75 (9) 617-622 doi:10.1136/oemed-2017-104950
	Not Yet Imported: - journal-article : 10.1007/s12403-020-00379-0 If you would like this item imported into the Digital Library, please contact us quoting Journal ID
	IARC (2012) IARC Press Release No. 213, June 12. Diesel engine exhaust carcinogenic. International Agency for Research on Cancer, World Health Organization International Agency for Research on Cancer, Lyon. https://www.iarc.who.int/wp-content/uploads/2018/07/pr213_E.pdf
	ICMM (2022) Cleaner and safer vehicles. International Council for Mining and Metallurgy, Innovation for Cleaner, Safer Vehicles (ICSV). https://www.icmm.com/en-gb/our-work/cleaner-safer-vehicles. (Accessed May 2023).
	Bugarski AD, Janisko S, Cauda EG, Noll JD, Mischler SE (2012) Controlling exposure - diesel emissions in underground mines. Society for mining, metallurgy & exploration, pp 58–61
	Bugarski, Aleksandar D., Hummer, Jon A., Vanderslice, Shawn, Barone, Teresa (2020) Retrofitting and re-powering as a control strategies for curtailment of exposure of underground miners to diesel aerosols. Mining, Metallurgy & Exploration, 37 (2). 791-802 doi:10.1007/s42461-019-00146-z
	GMG (2022) Recommended practices for battery electric vehicles in underground mining. Version 3. Global Mining Guidelines Group (GMG), The Electric Mine Working Group. https://gmggroup.org/recommended-practices-for-battery-electric-vehicles-in-underground-mining-version-3/
	Halim, A., Lööw, J., Johansson, J., Gustafsson, J., van Wageningen, A., Kocsis, K. (2022) Improvement of Working Conditions and Opinions of Mine Workers When Battery Electric Vehicles (BEVs) Are Used Instead of Diesel Machines — Results of Field Trial at the Kittilä Mine, Finland. Mining, Metallurgy & Exploration, 39 (2) 203-219 doi:10.1007/s42461-021-00506-8
	Organiscak JA, Cecala AB (2008) Key design factors of enclosed cab dust filtration systems. Department of Health and Human Services, Centers for Disease Control and Prevention (CDC), National Institute for Occupational Safety and Health (NIOSH), Report of Investigation 9677. https://www.cdc.gov/niosh/docs/mining/works/coversheet1616.html#:~:text=A%20mathematical%20model%20was%20developed,filter%20quantity%2C%20and%20wind%20penetration
	Not Yet Imported: - journal-article : 10.1093/annhyg/mep024 If you would like this item imported into the Digital Library, please contact us quoting Journal ID
	Not Yet Imported: - journal-article : 10.1080/15459624.2013.818240 If you would like this item imported into the Digital Library, please contact us quoting Journal ID
	Cecala AB, Organiscak JA, Noll JD, Rider JP (2014) Key components for an effective filtration and pressurization system for mobile mining equipment. Min Eng 66(1):44–50
	Patts JR, Cecala AB, Rider JP, Organiscak JA (2018) Improving protection against respirable dust at an underground crusher booth. Min Eng 70(11):52–56
	Noll JD, Cecala AB, Organiscak JA, Rider JP (2014) Effects of MERV 16 filters and routine work practices on enclosure cabs for reducing dust and DPM exposures in an underground limestone mine. Min Eng 66(2):45–52
	Not Yet Imported: - journal-article : 10.1260/026361709789625243 If you would like this item imported into the Digital Library, please contact us quoting Journal ID
	Not Yet Imported: Filtration + Separation - journal-article : 10.1016/S0015-1882(12)70199-4 If you would like this item imported into the Digital Library, please contact us quoting Journal ID
	Ghouma, Imen, Jeguirim, Mejdi, Dorge, Sophie, Limousy, Lionel, Matei Ghimbeu, Camélia, Ouederni, Abdelmottaleb (2015) Activated carbon prepared by physical activation of olive stones for the removal of NO2 at ambient temperature. Comptes Rendus Chimie, 18 (1). 63-74 doi:10.1016/j.crci.2014.05.006
	Not Yet Imported: Materials - journal-article : 10.3390/ma11040622 If you would like this item imported into the Digital Library, please contact us quoting Journal ID
	Not Yet Imported: - journal-article : 10.22161/ijaers.5.11.29 If you would like this item imported into the Digital Library, please contact us quoting Journal ID
	Not Yet Imported: Building and Environment - journal-article : 10.1016/j.buildenv.2019.106272 If you would like this item imported into the Digital Library, please contact us quoting Journal ID
	Not Yet Imported: Materials Today Communications - journal-article : 10.1016/j.mtcomm.2022.104776 If you would like this item imported into the Digital Library, please contact us quoting Journal ID
	Not Yet Imported: - journal-article : 10.1016/j.heliyon.2023.e22341 If you would like this item imported into the Digital Library, please contact us quoting Journal ID
	ISO (2021) ISO 23875:2021 Mining — air quality control systems for operator enclosures — performance requirements and test methods. The International Organization for Standardization (ISO). https://www.iso.org/standard/77249.html
	ISO (2021) ISO 23875:2021/DAMD 1. In: Mining — air quality control systems for operator enclosures — performance requirements and test methods — amendment 1. The International Organization for Standardization (ISO). https://www.iso.org/standard/77249.html
	EN (2004) EN779:2004: Particulate air filters for general ventilation - determination of the filtration performance. European Committee for Standardization. https://cdn.standards.iteh.ai/samples/9121/a0eecece0c1540da9055825888ac830f/SIST-EN-779-2004.pdf
	EN (2012) EN 779:2012: Particulate air filters for general ventilation – determination of the filtration performance. European Committee for Standardization. https://www.intertekinform.com/en-us/standards/pn-en-779-2012-942421_saig_pkn_pkn_2217839/
	ISO (2016) ISO 16890–1:2016, air filters for general ventilation — Part 1: technical specifications, requirements and classification system based upon particulate matter efficiency (ePM). The International Organization for Standardization (ISO). https://www.iso.org/standard/57864.html
	ISO (2017) ISO 29463–1:2017: High efficiency filters and filter media for removing particles from air — Part 1: classification, performance, testing and marking. The International Organization for Standardization (ISO). https://www.iso.org/standard/67816.html
	ANSI/ASHREA (2017) ANSI/ASHRAE Standard 52.2–2017: method of testing general ventilation air-cleaning devices for removal efficiency by particle size. American National Standards Institute and ASHREA. https://www.ashrae.org/File%20Library/Technical%20Resources/COVID-19/52_2_2017_COVID-19_20200401.pdf
	EN (2019) EN 1822–1:2019. High efficiency air filters (EPA, HEPA and ULPA) — Part 1: classification, performance testing and marking. European Committee for Standardization. https://www.intertekinform.com/en-us/standards/i-s-en-1822-1-2019-857735_saig_nsai_nsai_2723496/
	EN (2019) EN 1822–2:2019. High efficiency air filters (EPA, HEPA and ULPA) — Part 2: aerosol production, measuring equipment, particle counting statistics. European Committee for Standardization. https://www.intertekinform.com/en-us/standards/en-1822-2-2019-331950_saig_cen_cen_2812407/?srsltid=AfmBOoqalhJ2uiLodIDZ7xxi4cWI3551jYHrmg52B7WknT7r-vjKHED
	Not Yet Imported: Mining Engineering - journal-article : 10.19150/me.6712 If you would like this item imported into the Digital Library, please contact us quoting Journal ID
	ISO 11155–2:2009(en) Road vehicles — air filters for passenger compartments — Part 2: test for gaseous filtration. The International Organization for Standardization (ISO). https://www.iso.org/standard/46274.html
	Not Yet Imported: - journal-article : 10.1080/01496390903401762 If you would like this item imported into the Digital Library, please contact us quoting Journal ID
	Not Yet Imported: - journal-article : 10.1289/ehp.11169 If you would like this item imported into the Digital Library, please contact us quoting Journal ID
	Not Yet Imported: Aerosol Science and Technology - journal-article : 10.1080/02786826.2016.1167832 If you would like this item imported into the Digital Library, please contact us quoting Journal ID
	Jung, Heejung S., Grady, Michael L., Victoroff, Tristan, Miller, Arthur L. (2017) Simultaneously reducing CO 2 and particulate exposures via fractional recirculation of vehicle cabin air. Atmospheric Environment, 160. 77-88 doi:10.1016/j.atmosenv.2017.04.014
	Not Yet Imported: - journal-article : 10.1016/j.trd.2011.01.005 If you would like this item imported into the Digital Library, please contact us quoting Journal ID
	Angelova, R A, Markov, D G, Simova, I, Velichkova, R, Stankov, P (2019) Accumulation of metabolic carbon dioxide (CO2) in a vehicle cabin. IOP Conference Series: Materials Science and Engineering, 664. 12010pp. doi:10.1088/1757-899x/664/1/012010
	Not Yet Imported: - journal-article : 10.3390/su11247128 If you would like this item imported into the Digital Library, please contact us quoting Journal ID
	ANSI/ASHREA (2022) ANSI/ASHRAE Standard 62.1–2010: ventilation for acceptable indoor air quality. American National Standards Institute and ASHREA. https://www.ashrae.org/file%20library/technical%20resources/standards%20and%20guidelines/standards%20addenda/62_1_2010_h_l_final.pdf
	Not Yet Imported: - journal-article : 10.1016/j.buildenv.2023.110967 If you would like this item imported into the Digital Library, please contact us quoting Journal ID
	Not Yet Imported: Environmental Health Perspectives - journal-article : 10.1289/ehp.1104789 If you would like this item imported into the Digital Library, please contact us quoting Journal ID
	Not Yet Imported: - journal-article : 10.3357/AMHP.5010.2018 If you would like this item imported into the Digital Library, please contact us quoting Journal ID
	CFR (1910) Occupational safety and health standards. Toxic and hazardous substances. In: Occupational safety and health administration. Code of federal regulations. U.S. Government Printing Office, Office of the Federal Register, Washington, DC. https://www.osha.gov/laws-regs/regulations/standardnumber/1910
	CFR 57.5001. Safety and health standards. Underground metal and nonmetal mines. Exposure limit for airborne contaminants. Code of Federal Regulations. Washington, DC: U.S. Government Printing Office, Office of the Federal Register. https://www.ecfr.gov/current/title-30/chapter-I/subchapter-K/part-57/subpart-D/subject-group-ECFRee6fb4c0057bd83/section-57.5001
	NIOSH (2007) NIOSH Pocket guide of chemical hazards. Department of health and human services. Centers for Disease Control and Prevention (CDC). National Institute for Occupational Safety and Health (NIOSH). DHHS (NIOSH) Publication No. 2005–149. https://www.cdc.gov/niosh/docs/2005-149/default.html#:~:text=DHHS%20(NIOSH)%20Publication%20Number%202005,employers%2C%20and%20occupational%20health%20professionals
	FR 38958 (2004) 69 FR 38958 - Control of emissions of air pollution from nonroad diesel engines and fuel. U.S. Environmental Protection Agency. https://www.federalregister.gov/documents/2005/07/15/05-13781/control-of-emissions-of-air-pollution-from-diesel-fuel
	Dallmann T, Menon A (2016) Technology pathways for diesel engines used in non-road vehicles and equipment. White Paper. The International Council on Clean Transportation (ICCT). September. Retrieved from https://www.theicct.org/sites/default/files/publications/Non-Road-Tech-Pathways_white-%20paper_vF_ICCT_20160915.pdf. (Accessed January 23, 2024).
	Not Yet Imported: - journal-article : 10.1007/s11051-006-9176-4 If you would like this item imported into the Digital Library, please contact us quoting Journal ID
	Fed. Reg. 55504 (1996) Mine safety and health administration: 30 CFR Part 7 subpart E. diesel engines intended for use in underground coal mines. In: Code of federal regulations. U.S. Government Printing Office, Office of the Federal Register, Washington, DC. https://www.govinfo.gov/content/pkg/FR-1996-10-25/pdf/96-26838.pdf
	Fed. Reg. 27864 (2001) Mine safety and health administration: 30 CFR Part 72. Diesel particulate matter exposure of underground coal miners. Limit on concentration of diesel particulate matter. Code of Federal Regulations, Washington, DC: U.S. Government Printing Office, Office of the Federal Register. https://www.federalregister.gov/documents/2001/05/21/01-12766/diesel-particulate-matter-exposure-of-underground-coal-miners-corrections
	Fed. Reg. 28924 (2006) Mine safety and health administration: 30 CFR 57. Diesel particulate matter exposure of underground metal and nonmetal miners. Limit on concentration of diesel particulate matter. Code of Federal Regulations. Washington, DC: U.S. Government Printing Office, Office of the Federal Register. https://www.federalregister.gov/documents/2006/05/18/06-4494/diesel-particulate-matter-exposure-of-underground-metal-and-nonmetal-miners
	EU (2017) Commission Directive
	(EU) 2017/164 of 31 January 2017 establishing a fourth list of indicative occupational exposure limit values pursuant to Council Directive 98/24/EC, and amending Commission Directives 91/322/EEC, 2000/39/EC and 2009/161/EU. Official Journal of the European Union. Brussels, Belgium. https://eur-lex.europa.eu/legal-content/EN/TXT/PDF/?uri=CELEX:32017L0164
	EU (2019) Parliament E. directive
	(EU) 2019/130 of the European parliament and of the council of 16 January 2019 amending Directive 2004/37/EC on the protection of workers from the risks related to exposure to carcinogens or mutagens at work. PE/60/2018/REV/1. Official Journal of the European Union. Brussels, Belgium. https://eur-lex.europa.eu/legal-content/EN/TXT/PDF/?uri=CELEX:32019L0130
	Gangal M (2012). Summary of worldwide underground mine diesel regulations. Mining Diesel Emissions Council (MDEC) Conference, October. Available from https://mdec.ca/2012/. (Accessed on May 2024).
	Not Yet Imported: - journal-article : 10.1088/1755-1315/684/1/012018 If you would like this item imported into the Digital Library, please contact us quoting Journal ID
	Rubeli B, Gangal M (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 May 2024).
	CSA (2022) CSA M424.2:22: diesel-powered machines for use in non- gassy underground mines. The Canadian Standards Association (CSA). https://www.csagroup.org/store/product/2429866/?srsltid=AfmBOooSV-FBHVNPni0A6VDcGgDMavxbJZl-dvhati4WYJVgkl4JpYlu
	US EPA (2016) Nonroad compression-ignition engines: exhaust emission standards. United States environmental protection agency. Office of Transportation and Air Quality. EPA-420-B-16–022. https://nepis.epa.gov/Exe/ZyPDF.cgi?Dockey=P100OA05.pdf
	Not Yet Imported: Atmosphere - journal-article : 10.3390/atmos11121372 If you would like this item imported into the Digital Library, please contact us quoting Journal ID

See Also

These are possibly similar items as determined by title/reference text matching only.

	Bugarski, Aleksandar D., Ritter, Dylan A. (2025) Advanced Diesel Powertrains for Underground Mining Mobile Equipment. Mining, Metallurgy & Exploration, 42 (2). doi:10.1007/s42461-025-01201-8
	Bugarski, Aleksandar D. (2025) Emission-Assisted Maintenance for Advanced Diesel Engines and Exhaust Aftertreatment Systems in Underground Mining. Mining, Metallurgy & Exploration, 42 (1). doi:10.1007/s42461-025-01176-6
	Bugarski, Aleksandar D., Hummer, Jon A., Vanderslice, Shawn, Barone, Teresa (2020) Retrofitting and re-powering as a control strategies for curtailment of exposure of underground miners to diesel aerosols. Mining, Metallurgy & Exploration, 37 (2). 791-802 doi:10.1007/s42461-019-00146-z
	Bugarski, Aleksandar D., Vanderslice, Shawn, Hummer, Jon A., Barone, Teresa, Mischler, Steven E., Peters, Shad, Cochrane, Steve, Winkler, Jared (2022) Diesel Aerosols in an Underground Coal Mine. Mining, Metallurgy & Exploration, 39 (3) 937-945 doi:10.1007/s42461-022-00588-y
	Upadhyay, Rahul; Kumar, Ashish; Bhattacherjee, Ashis (2025) A Comprehensive Review of Whole-Body Vibration Exposure Assessment Among Heavy Earthmoving Equipment Operators in the Mining Industry. Mining, Metallurgy & Exploration, 42 (3). doi:10.1007/s42461-025-01242-z
	Bugarski, Aleksandar D., Hummer, Jon A., Vanderslice, Shawn, Shahan, Michael R (2020) Characterization of Aerosols in an Underground Mine during a Longwall Move. Mining, Metallurgy & Exploration, 37 (4) 1065-1078 doi:10.1007/s42461-020-00209-6
	Dubaniewicz, Thomas H. (2025) Explosion-Proof Enclosure Failure to Contain a Lithium-Ion Battery Thermal Runaway. Mining, Metallurgy & Exploration, 42 (4). doi:10.1007/s42461-025-01288-z
	Habibi, Arash, Bugarski, Aleksandar D., Loring, David, Cable, Anna, Ingalls, Logan, Rutter, Calvin (2023) Evaluation of Methodology for Real-Time Monitoring of Diesel Particulate Matter in Underground Mines. Mining, Metallurgy & Exploration, 40 (1) 453-461 doi:10.1007/s42461-022-00702-0
	Sridhar, S., Raj, M. Govinda, Aruna, M. (2022) Musculoskeletal Disorder Risk in the Upper Extremities of Mobile Mining Equipment Operators Exposed to Hand-Transmitted Vibrations in Underground Metal Mines: a Case–Control Study. Mining, Metallurgy & Exploration, 39 (5) 2075-2082 doi:10.1007/s42461-022-00663-4
	Mensah, Theophilus; Awuah-Offei, Kwame (2025) A Binary Integer Linear Programming Model for Optimizing Underground Stope Layout. Mining, Metallurgy & Exploration, 42 (3). doi:10.1007/s42461-025-01192-6
	Banda, Srikanth; Dharavath, Ramesh (2025) Machine Learning for Roof Convergence Safety in Underground Coal Mines: A Conceptual Framework. Mining, Metallurgy & Exploration, 42 (6). doi:10.1007/s42461-025-01372-4