Hydrocarbon Condensation in Heavy-Duty Diesel Exhaust
The semivolatile mass fraction of diesel exhaust particles was studied using size-resolved on-line techniques (DMA-ELPI; TDMA-ELPI). The average density of the semivolatile liquid on the particles was measured to be approximately 0.8 g/cm3. The measured size resolved values of mass transfer imply that condensation, or diffusion-limited mass transfer, plays a major role in driving the volatile matter to the diesel exhaust particles. The measured mass change values correspond to highly size dependent mass fractions for the semivolatile component, ranging from approximately 20-80%. Integrated over particle size distribution, the volatile mass fractions were 25and 45% for the two load points studied. Calculation, based on the measured particle properties, indicates that only 10% volatile mass fraction could be explained by monolayer adsorption. The size resolved changes in particle effective density, fractal dimension, volatile mass fractions and mass are all in agreement with theoretical considerations of condensation. (A)
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Availability:
- Find a library where document is available. Order URL: http://worldcat.org/issn/0013936X
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Authors:
- RISTIMAEKI, J
- VAARASLAHTI, K
- LAPPI, M
- KESKINEN, J
- Publication Date: 2007-9-15
Language
- English
Media Info
- Pagination: 6397-6402
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Serial:
- Environmental Science & Technology
- Volume: 41
- Issue Number: 18
- Publisher: American Chemical Society
- ISSN: 0013-936X
- EISSN: 1520-5851
- Serial URL: http://pubs.acs.org/journal/esthag
Subject/Index Terms
- TRT Terms: Calculation; Diesel engines; Driving; Environment; Measurement; Pollutants; Properties of materials
- ITRD Terms: 6464: Calculation; 1314: Diesel engine; 1855: Driving (veh); 2442: Emission; 2455: Environment; 6136: Measurement; 5925: Properties
- Subject Areas: Energy; Environment; Materials; I15: Environment;
Filing Info
- Accession Number: 01082094
- Record Type: Publication
- Source Agency: Transport Research Laboratory
- Files: ITRD
- Created Date: Nov 29 2007 3:12PM