Evolution of formaldehyde (HCHO) in a plume originating from a petrochemical industry and its volatile organic compounds (VOCs) emission rate estimation

Cho, Changmin; Liao, Jin; Weinheimer, Andrew; Fried, Alan; Park, Jinsoo; Park, Jeong-Hoo; Wolfe, Glenn M.; Brune, William H.; Shin, Myung-Hwan; Hanisco, Thomas F.; Hall, Samuel R.; Min, Kyung-Eun; Diskin, Glenn S.; Kang, Dae il; Choi, Jinsoo; Clair, Jason M. St.; Jeong, Seokhan; Ullmann, Kirk; Blake, Donald R.

doi:10.1525/elementa.2021.00015

Journal Article

FZJ-2021-04220

Evolution of formaldehyde (HCHO) in a plume originating from a petrochemical industry and its volatile organic compounds (VOCs) emission rate estimation

Cho, C.FZJ* ; Clair, J. M. S. ; Liao, J. ; Wolfe, G. M. ; Jeong, S. ; Kang, D. i. ; Choi, J. ; Shin, M.-H. ; Park, J. ; Park, J.-H. ; Fried, A. ; Weinheimer, A. ; Blake, D. R. ; Diskin, G. S. ; Ullmann, K. ; Hall, S. R. ; Brune, W. H. ; Hanisco, T. F. ; Min, K.-E. (Corresponding author)

2021
BioOne Washington, DC

Elementa 9(1), 00015 (2021) [10.1525/elementa.2021.00015]

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Please use a persistent id in citations: http://hdl.handle.net/2128/29013 doi:10.1525/elementa.2021.00015

Abstract: Large industrial facilities, such as petrochemical complexes, have decisive effects on regional air quality: directly due to their own hazardous volatile organic compounds (VOCs) emissions and indirectly due to their contribution to secondary air pollution. In South Korea, pronounced ozone and particulate matter issues have been reported in industrial areas. In this study, we develop a new top-down VOC emission rate estimation method using in situ airborne formaldehyde (HCHO) observations in the downwind plume of the Daesan Petrochemical Complex (DPC) in South Korea during the 2016 Korea–United States Air Quality (KORUS-AQ) mission. On May 22, we observed a peak HCHO mole fraction of 12 ppb after a transport time of 2.5 h (distance approximately 36 km) under conditions where the HCHO photochemical lifetime was 1.8 h. Box model calculations indicate that this elevated HCHO is mainly due to secondary production (more than 90% after 2 h of plume aging) from various VOC precursors including ethene, propene, and 1,3-butadiene. We estimate a lower limit for yearly DPC VOC emissions of 31 (±8.7) × 103 MT/year for HCHO precursors and 53 (±15) × 103 MT/year for all measured primary VOCs. These estimates are 1.5–2.5 times higher than the latest Korean emission inventories, KORUSv5. This method is beneficial not only by tracking the sources, sinks, and evolution of HCHO but also by validating existing emission inventories.

Classification:

ddc:550

Contributing Institute(s):

Troposphäre (IEK-8)

Research Program(s):

2111 - Air Quality (POF4-211) (POF4-211)

Appears in the scientific report 2021

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Datensatz erzeugt am 2021-11-12, letzte Änderung am 2024-07-12

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