1 |
Huh MG, Kim DS, Hong JG, Choi YK, Lim JI. Strategy to strengthen the competitiveness of outdated industrial complexes by calculating the "industrial complex vitality index". KIET Issue Paper 2012-289. Korea Institute for Industrial Economics & Trade (KIET); 2012.
|
2 |
BenSalm N, Salizzoni P, Soulhac L. Estimating accidental pollutant releases in the built environment from turbulent concentration signals. J Atmos Environ. 2017; 48: 266-281.
|
3 |
Pulles T, Heslinga D. On the variability of air pollutant emissions from gas-fired industrial combustion plants. J Atmos Environ. 2004; 38: 3827-3838.
DOI
|
4 |
Kim HJ, Im JY, Yun JH, Lee JH, Jeon JH, and Lee CS. A Study on the characteristics of chemicals in major industrial complexes. J Environ Health Sci. 2018; 44(6): 515-523.
|
5 |
Im JY, Jeon DY, Kim BK, Ryu JS, Yoon DS, and Lee CS. A study on the emission characteristics of odorous substances in Korea. J Environ Health Sci. 2019; 45(5): 465-473.
|
6 |
Lynn FM, Kartez JD. Environmental democracy in action: The toxics release inventory. Environmental Management. 1994; 18(4): 511-521.
DOI
|
7 |
Im JY, Kim HJ, Kim MS, Lee JH, Lee SM, Lee CS. A study on the variation of hazardous pollutant emissions in Korea from 2006 to 2015. J Environ Health Sci. 2018; 44(1): 15-23.
|
8 |
Yu SU, Bae HH. Trends in toxic chemical releases in Korea: Comparison between total releases and human health risk levels in the period 2004 to 2012. J Environ Policy Adm. 2015; 23(1): 21-41.
|
9 |
Lee SH, Ban YU, Back JI, Ko JK, Sim SE. A comparative analysis of socioeconomic characteristics of chemical substance emissions: From the viewpoint of environmental justice. Crisisonomy. 2018; 14(9): 133-144.
|
10 |
Lee SM, Lee SW, Kim JS. Developing a risk estimation environment index based on information on chemical substance emissions. Theories and Applications of Chem. Eng. 2012; 18(2): 2641.
|
11 |
US EPA. Risk-screening environmental indicators (RSEI) model. Available: https://www.epa.gov/rsei [accessed 22 October 2020].
|
12 |
National Institute of Chemical Safety. PRTR Information System, Domestic progress. Available: https://icis.me.go.kr/prtr/dscamtExaminSystem/dmstcPrtnCrcmstncs.do [accessed 28 May 2020].
|
13 |
Velagapudi S, Kumar A, Saripalli MV. Application of the US EPA's risk-screening indicators model and toxic release inventory database to study pollution prevention trends in paper manufacturing industry. Environmental Progress & Sustainable Energy. 2017; 36(3): 808-814.
DOI
|
14 |
Sicotte D and Swanson S. Whose risk in philadelphia? proximity to unequally hazardous industrial facilities. Social Science Quarterly. 2007; 88(2): 505-534.
|
15 |
National Institute of Chemical Safety. PRTR Information System. Available: https://icis.me.go.kr [accessed 20 May 2020].
|
16 |
US EPA. Risk-Screening Environmental Indicators (RSEI) Methodology Version 2.3.7. Available: https://www.epa.gov/rsei/risk-screening-environmental-indicators-rsei-methodology-version-237 [accessed 20 August 2020].
|
17 |
National Institute of Chemical Safety. PRTR Information System, Release and transfer data. Available: https://icis.me.go.kr/prtr/prtrInfo/unitySearch.do [accessed 3 March 2021].
|
18 |
Lam CW, Lim SR, & Schoenung JM. Environmental and risk screening for prioritizing pollution prevention opportunities in the US printed wiring board manufacturing industry. Journal of Hazardous Materials. 2011; 189(1-2): 315-322.
DOI
|
19 |
Conley JF. Estimation of exposure to toxic releases using spatial interaction modeling. International Journal of Health Geographics. 2011; 10(1): 1-12.
DOI
|
20 |
US EPA. Science Advisory Board, Relative risk reduction project, Reducing risk. EPA SAB-EC-90-021. 1990.
|
21 |
US EPA. EPA's risk-screening environmental indicators (RSEI) methodology. Office of pollution prevention and toxics. 2018.
|