Browse > Article
http://dx.doi.org/10.12925/jkocs.2022.39.1.132

A Study on the Improvement of Spatiotemporal Resolution about Fugitive Dust Activity Data in the Agriculture Field  

Koo, Tai Wan (Chairman of the board of Dasan Region Development Institute)
Shin, Ho Yong (Greenecos. Co., Ltd.)
Woo, Jiyun (Department of Climate and Environment, Sejong University)
Mun, Su Ho (Chairman of the board of Dasan Region Development Institute)
Choi, Doo Sun (Jungeum)
Kim, Yoon Kwan (Greenecos. Co., Ltd.)
․Jeon, Eui-chan (Department of Climate and Environment, Sejong University)
Publication Information
Journal of the Korean Applied Science and Technology / v.39, no.1, 2022 , pp. 132-145 More about this Journal
Abstract
The emission factor and activity data of fugitive dust in the domestic agricultural field have been applied to the US inventory system without reflecting the domestic environmental conditions (wind speed, humidity, etc.) and agricultural characteristics. In this study, the temporal resolution was improved for each region by deriving a monthly distribution factor through the application of wind speed and dry season and the spatial resolution was improved for each region by subdivided into dong and ri from ci·gun·gu. Through this study, it is judged that it can be used as an important data for improving the emission and activity data of fugitive dust in the agricultural field that currently exist.
Keywords
Agriculture Field; Fugitive Dust; Temporal Resolution; Spatial Resolution;
Citations & Related Records
Times Cited By KSCI : 2  (Citation Analysis)
연도 인용수 순위
1 H.S. Hwang, I.B. Lee, M.H. Shim, S.W. Hong, I.H. Seo, J.I. Ryu, S.K. Lee, "Monitoring of the fugitive and suspended dust dispersion at the reclaimed land and neighboring farms : monitoring in gunsan", Journal of korean society of agricultural engineers, Vol.50, No.4 pp.39-50, (2008).   DOI
2 US EPA. Midwest Research Institute, Background document for revisions to fine fraction ratios used for ap-42 fugitive dust emission factor, pp.120-125, (2006).
3 Rural Development Administration, Analysis on the impact of particle matter on agriculture due to climate change and the trends of related technology, pp.10-15, (2018).
4 National Institute of Environmental Research, Standard work procedures for establishment of basic data on national air pollutant emissions, pp.45-50, (2018).
5 National Institute of Environmental Research, 2018 National Air Pollutant Emissions, pp.28-35, (2020).
6 CARB(California Air Resources Board), Agricultural Harvest Operation, pp.6-7, (2007).
7 CARB(California Air Resources Board), Agricultural Land Preparation, pp.9-10, (2007).
8 National Institute of Environmental Research, National air pollutant emission calculation method handbook(III), pp.37-40, (2013).
9 US. EPA, SPECIATE 4.0 Speciation Database Development Documentation, pp.26-28, (2006).
10 National Institute of Environmental Research, Standard work procedures for establishment of basic data on national air pollutant emissions, pp.48-52, (2019).
11 Agricultural Business Registration Information Statistical Service, Available From: https://uni.agrix.go.kr. (accessed Sep., 16, 2020)
12 H.S. Hwang, I.B. Lee, M.H. Shim, S.W. Hong, I.H. Seo, J.I. Ryu, J.P. Bitog, K.S. Kwon, Y.H. Kim, "Monitoring of the fugitive and suspended dust dispersion at the reclaimed land and neighboring farms : monitoring in gim-je", Journal of korean society of agricultural engineers, Vol.51, No.2 pp.59-67, (2009).   DOI
13 National Statistics Portal, Available From: https://kosis.kr. (accessed Sep., 7, 2020)
14 Farmland Potal System Map Service, Available From: https://agis.epis.or.kr. (accessed Oct., 19, 2020)
15 Public Data Portal OPEN API Service, Available From: https://www.data.go.kr. (accessed Oct., 21, 2020)