Measuring Particulate Matter Emissions During Parked Active Diesel Particulate Filter Regeneration of Heavy-Duty Diesel Trucks

Details

• Personal Author:
  Collins JF ; Dwyer HA ; Huai T ; Quiros DC ; Yoon S ; Zhu Y
• Description:
  Heavy-duty diesel trucks (HDDTs, >33,000 pounds gross vehicle weight rating) are commonly equipped with diesel particulate filters (DPFs) to meet the California model year (MY) 2007 PM emissions standard. Particulate matter (PM) emissions were measured from nine parked active DPF regenerations of two HDDTs, a 2007 and 2010 MY, using a novel ambient-dilution wind tunnel. This work specifically evaluated PM mass emissions during regeneration by measurements from the following instruments: TSI DustTrak DRX 8533, TSI Engine Exhaust Particle Sizer 3090 (EEPS) and TSI Scanning Mobility Particle Sizer 3936L88 (SMPS), filters by gravimetric analysis, and for one test a Dekati Mass Monitor 230-A (DMM). Active regeneration by fuel injection upstream of the DPF began with the Soot Combustion Regime, where PM emissions had a count median diameter (CMD) of >30 nm and some faint gray smoke was observed flowing from the tunnel. During brief moments of the Soot Combustion Regime, the DustTrak DRX reported more than half of the mass was >1 um. As active regeneration continued, aftertreatment inlet temperature increased to >500 degrees C, beginning the Fuel Combustion Regime, defined conversely where the CMD of the emissions was <30 nm. Under both regimes, discrepancies were observed between EEPS and SMPS size distributions and improved agreement was attained after performing a post-hoc EEPS correction procedure. The accuracy of the DMM was equivocal; the average DMM emissions rate was within five percent of the gravimetric filter, but the mass distribution was substantially shifted relative to SMPS and EEPS distributions. Uninterrupted parked active regeneration resulted in 13 g PM emissions from the 2007 MY and 1.8 g PM from the 2010 MY based on filter measurements. The PM mass emissions rates, based on measurements from real-time instruments, show that the contribution of Soot Combustion Regime to total regeneration emissions decreased from 75% to 5% between the 2007 and 2010 MY. [Description provided by NIOSH]
• Subjects:
  Air Pollution Occupational Health Particulate Matter Safety Vehicle Emissions
• Keywords:
  Air Pollution Ambient Dilution Author Keywords: Diesel Particulate Filter Automotive Emissions Diesel Emissions Effective Density Filters Heavy Equipment Particulate Matter Particulates Regeneration

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• ISSN:
  0021-8502
• Document Type:
  Text
• Funding:
  Grant
• Genre:
  Journal Article
• Place as Subject:
  California ; OSHA Region 9
• CIO:
  National Institute for Occupational Safety and Health (NIOSH)
• Topic:
  Workplace Safety & Health
• Location:
  North America
• Pages in Document:
  48-62
• Volume:
  73
• NIOSHTIC Number:
  nn:20055790
• Citation:
  J Aerosol Sci 2014 Jul; 73:48-62
• Contact Point Address:
  David C. Quiros, Monitoring and Laboratory Division, California Air Resources Board, 1900 14th Street, Sacramento, CA 95811, USA
• Email:
  dquiros@arb.ca.gov
• Federal Fiscal Year:
  2014
• Performing Organization:
  University of California Los Angeles
• Peer Reviewed:
  True
• Start Date:
  20050701
• Source Full Name:
  Journal of Aerosol Science
• End Date:
  20270630
• Collection(s):
  National Institute for Occupational Safety and Health
• Main Document Checksum:
  urn:sha-512:80a47c07471bbed75d7db08e67f78fbd5a6a946ff1e0169e24d6c9bac6c5e026cae43adef633962618b5ef88676608f05c71efa9f5fcaf3ad6bf77743f02a2e9
• Download URL:
  https://stacks.cdc.gov/view/cdc/213559/cdc_213559_DS1.pdf
• File Type:
  [PDF - 4.32 MB ]