Journal of Environmental and Occupational Medicine, Volume. 42, Issue 7, 814(2025)
Spatiotemporal characteristics of diesel exhaust particle pollution in confined space and impacts of ventilation and airflow: A laboratory simulation study
[1] [1] LLOYD A C, CACKETTE T A. Diesel engines: environmental impact and control[J]. J Air Waste Manag Assoc, 2001, 51(6): 809-847.
[2] [2] DE HOMDEDEU M, CRUZ M J, SANCHEZ-DEZ S, et al. The immunomodulatory effects of diesel exhaust particles in asthma[J]. Environ Pollut, 2020, 263: 114600.
[4] [4] IARC Working Group on the Evaluation of Carcinogenic Risks to Humans. IARC monographs on the evaluation of carcinogenic risks to humans. Ingested nitrate and nitrite, and cyanobacterial peptide toxins[J]. IARC Monogr Eval Carcinog Risks Hum, 2010, 94: v-vii, 1-412.
[6] [6] COSTA L G, COLE T B, COBURN J, et al. Neurotoxicity of traffic-related air pollution[J]. NeuroToxicology, 2017, 59: 133-139.
[7] [7] MILLS N L, TRNQVIST H, ROBINSON S D, et al. Diesel exhaust inhalation causes vascular dysfunction and impaired endogenous fibrinolysis[J]. Circulation, 2005, 112(25): 3930-3936.
[8] [8] EMA M, NAYA M, HORIMOTO M, et al. Developmental toxicity of diesel exhaust: a review of studies in experimental animals[J]. Reprod Toxicol, 2013, 42: 1-17.
[9] [9] ATKINSON R W, ANALITIS A, SAMOLI E, et al. Short-term exposure to traffic-related air pollution and daily mortality in London, UK[J]. J Expo Sci Environ Epidemiol, 2016, 26(2): 125-132.
[10] [10] RISTOVSKI Z D, MILJEVIC B, SURAWSKI N C, et al. Respiratory health effects of diesel particulate matter[J]. Respirology, 2012, 17(2): 201-212.
[11] [11] MUOZ X, BARREIRO E, BUSTAMANTE V, et al. Diesel exhausts particles: their role in increasing the incidence of asthma. Reviewing the evidence of a causal link[J]. Sci Total Environ, 2019, 652: 1129-1138.
[12] [12] LV L, CHEN Y, HAN Y, et al. High-time-resolution PM2.5 source apportionment based on multi-model with organic tracers in Beijing during haze episodes[J]. Sci Total Environ, 2021, 772: 144766.
[13] [13] AGARWAL A K, SRIVASTAVA D K, DHAR A, et al. Effect of fuel injection timing and pressure on combustion, emissions and performance characteristics of a single cylinder diesel engine[J]. Fuel, 2013, 111: 374-383.
[14] [14] DMP. Management of diesel emissions in western Australia mining operations[C]//Proceedings of Department of Mines and Petroleum, Resources Safety. East Perth, WA, Australia: Department of Mines and Petroleum, 2013: 37.
[15] [15] MORAWSKA L, LI Y, SALTHAMMER T. Lessons from the COVID-19 pandemic for ventilation and indoor air quality[J]. Science, 2024, 385(6707): 396-401.
[16] [16] LAPUERTA M, MARTOS F J, HERREROS J M. Effect of engine operating conditions on the size of primary particles composing diesel soot agglomerates[J]. J Aerosol Sci, 2007, 38(4): 455-466.
[17] [17] SRIVASTAVA D K, AGARWAL A K, GUPTA T. Effect of engine load on size and number distribution of particulate matter emitted from a direct injection compression ignition engine[J]. Aerosol Air Qual Res, 2011, 11(7): 915-920.
[18] [18] SHI H, KLEINSTREUER C, ZHANG Z. Dilute suspension flow with nanoparticle deposition in a representative nasal airway model[J]. Phys Fluids, 2008, 20(1): 013301.
Get Citation
Copy Citation Text
HUANG Zheyu, ZHANG Jian, HE Lihua, HUANG Wenchu, LI Zihui, HASEN Bilige, WANG Hongbo, WANG Yun. Spatiotemporal characteristics of diesel exhaust particle pollution in confined space and impacts of ventilation and airflow: A laboratory simulation study[J]. Journal of Environmental and Occupational Medicine, 2025, 42(7): 814
Category:
Received: Nov. 6, 2024
Accepted: Aug. 25, 2025
Published Online: Aug. 25, 2025
The Author Email: WANG Yun (wangyun@bjmu.edu.cn)