Browse > Article
http://dx.doi.org/10.12812/ksms.2018.20.3.027

A Study on the Cost Analysis of risk facilities using e-Consequence Analysis - Focusing Steel pipe Industry  

Kwon, Hyeok Min (Department of Environment and Safety Technology Convergence, Inha University)
Hwang, Yong Woo (Department, of Environmental Engineering, Inha University)
Lee, Ik Mo (Department of Environment and Safety Technology Convergence, Inha University)
Chun, Young Woo (Department of Environment and Safety Technology Convergence, Inha University)
Choi, Young Hun (Department of Environment and Safety Technology Convergence, Inha University)
Publication Information
Journal of the Korea Safety Management & Science / v.20, no.3, 2018 , pp. 27-36 More about this Journal
Abstract
The steel pipe manufacturing industry deals with facilities and materials. Especially thermal facilities are close to vapor cloud explosion (VCE) and may cause secondary damage to facilities because they deal with corrosive substances such as hydrofluoric acid, sulfuric acid and acid, fire, explosion, leakage etc. It is in danger. In this study, hazard identification method was conducted using HAZOP techniques and quantitative risk analysis was conducted using e-CA, a program that supports accident impact analysis. Equipment in the influence range of ERPG - 3 was determined to be a facility requiring replacement. It was decided that neutralization is necessary using slaked lime. Based on the cost of loss, We presented the proper replacement which is the timing of the dangerous facility. As a result, It was ideal to replace the facilities with 20 years of heat treatment facilities, one year of hydrofluoric acid storage tank, 20 years of sulfuric acid storage tank, and 5 years of hydrochloric acid storage tank.
Keywords
HAZOP; Consequence Analysis; Business Continuity Management; Risk Assessment; Steel pipe Industry; Cost-Benefit Analysis; Risk facilities;
Citations & Related Records
연도 인용수 순위
  • Reference
1 National Museum of Korea Contemporary History, 2017, http://www.much.go.kr/.
2 Industry Skills Council, "Material Industry manpower Status Data Investigation and Analysis", 2017, pp.1-4.
3 Occupation Safety and Health Acts, 2017.
4 Enforcement Rule of The Chemicals Control Act, 2017.
5 Korea Occupational Safety&Health Agency, "Training of risk assessment experts", 2014.
6 Yun, C. S., "Criteria for emergency (leaking, accident) of chemicals", Korean Industrial Health Association, 2014.
7 Korea Occupational Safety&Health Agency, e-Consequence Analysis(e-CA), http://nics.me.go.kr/.
8 Center for Chemical Process Safety, "Guidelines for Initiating Events and Independent Protection Layers in Layer of Protection Analysis", 2015, pp.62-66.
9 Center for Chemical Process Safety, "Guidelines for Process Equipment Reliability Data with Data Tables".
10 Korea Occupational Safety&Health Agency, "Technical Guidelines for Minimizing Damage in Chemical Plants", 2012.
11 Choi, C. H., "A Study on the Improvement of RAT in Korea OCA : Domino Effects caused by Jet Fire", 2017.
12 Korea Occupational Safety&Health Agency, "Chnical Guidelines for Accident Damage Prediction", 2012, pp.9-14.
13 Copyrights Ministry of Environment, "Technical guidelines for selecting accident scenario", 2014, pp.2-6.
14 Donald E. Garrett, "Chemical Engineering Economics-Appendix 1 Equipment Cost Estimates", 1989, pp.256-306