The Characteristics and Distribution of Chemical Components in Particulate Matter Emissions from Diesel Locomotives

Min-Kyeong Kim; Duckshin Park; Minjeong Kim; Jaeseok Heo; Sechan Park; Hwansoo Chong

doi:10.3390/atmos12010070

Atmosphere (Jan 2021)

The Characteristics and Distribution of Chemical Components in Particulate Matter Emissions from Diesel Locomotives

Min-Kyeong Kim,
Duckshin Park,
Minjeong Kim,
Jaeseok Heo,
Sechan Park,
Hwansoo Chong

Affiliations

Min-Kyeong Kim: Railroad Test & Certification Division, Korea Railroad Research Institute (KRRI), Uiwang 16106, Korea
Duckshin Park: Transportation Environmental Research Team, Korea Railroad Research Institute (KRRI), Uiwang 16105, Korea
Minjeong Kim: Transportation Environmental Research Team, Korea Railroad Research Institute (KRRI), Uiwang 16105, Korea
Jaeseok Heo: Transportation Environmental Research Team, Korea Railroad Research Institute (KRRI), Uiwang 16105, Korea
Sechan Park: Transportation Environmental Research Team, Korea Railroad Research Institute (KRRI), Uiwang 16105, Korea
Hwansoo Chong: Transportation Environmental Research Institute, National Institute of Environmental Research, Incheon 22689, Korea

DOI: https://doi.org/10.3390/atmos12010070
Journal volume & issue: Vol. 12, no. 1
p. 70

Abstract

Read online

The use of diesel locomotives in transport is gradually decreasing due to electrification and the introduction of high-speed electric rails. However, in Korea, up to 30% of passenger and cargo transport still relies on diesel locomotives and vehicles. Many studies have shown that the exhaust gas from diesel locomotives poses a threat to human health. This study examined the characteristics of particulate matter (PM) in diesel locomotive engine exhaust. In a previous study, PM emissions were found to increase as the throttle was moved to a higher notch. The use of a portable emission measurement system (PEMS) in this study did not detect the highest emissions at notch 5, as is commonly found in gravimetric analyses. When comparing the mass concentrations, the notch 1 and 5 results were similar. However, at notch 8, there was a large difference between the mass concentrations collected on the filters. Further, to reduce the fine PM emitted from diesel locomotives, the ionic components, which account for the largest proportion of the total materials in fine PM, should be clearly identified. Therefore, in this study, an analysis of the weight, ionic composition, and metal components of fine PM discharged from a diesel locomotive was performed. Based on the results, Na+ (31%), Ca2+ (27%), NO3− (24%), and SO42− (13%), were the main ionic components, and the most abundant metal components being Ca (45%) and S (20%). In this study, the chemical components generated in diesel engines of other sources were compared, and as a result, different results were shown depending on the engine load and material ingredients. For the first time, a PEMS was used to measure PM from diesel vehicles, and a comparison was made with the results obtained by a gravimetric method. This is the first report of measuring PM concentrations by connecting a PEMS to a diesel locomotive, and of the distribution and characteristics of ions and heavy metals contained in the particles collected in the filter analyzed. The results indicate the importance of identifying the characteristics of fine PM emitted from a diesel locomotive and establishing an effective reduction measurement.

Published in Atmosphere

ISSN: 2073-4433 (Online)
Publisher: MDPI AG
Country of publisher: Switzerland
LCC subjects: Science: Physics: Meteorology. Climatology
Website: http://www.mdpi.com/journal/atmosphere/

About the journal

Abstract

Keywords