1 |
K. S. Park, "A Study on Consequence Analysis of Hydrofluoric Acid Release Accident in Gumi Industrial Area", Korean Journal of Hazardous Materials, Vol. 1, No. 1, pp. 13-19, 2013.
|
2 |
OSHRI, An Application Plan of Reliability Data of Quantitative Risk Analysis for Prevention of Chemical Accident, pp. 43-52, 2015.
|
3 |
OSHRI, The Development of Data Storage Bed and Algorithms Applicable to Korea for Reliability Data, pp. 48-58, 2016.
|
4 |
CCPS, Layer of Protection Analysis_Simplified Process Risk Assessment (A CCPS Concept Book), Wiley-AIChE, 2001.
|
5 |
CCPS, Guidelines For Process Equipment Reliability Data With Table, pp. 9-204,1989.
|
6 |
IEEE, Reliability Data For Pumps And Drivers Valve Actuators And Valves, 1986.
|
7 |
OREDA, Offshore Reliability Data Handbook 5th Edition. 2009.
|
8 |
S. W. Hwang, Development of Web-based Reliability Data Analysis Algorithm Model and its Application, Annals of Nuclear Energy, pp. 43-62, 2009.
|
9 |
Lees' Loss Prevention In The Process Industries, Fourth Edition Hazard Identification, Assessment And Control, Vol. 4, pp. 140-149, 2012.
|
10 |
CCPS, Guidelines For Chemical Process Quantitative Risk Analysis, Vol. 2, pp. 297-322, 2010.
|
11 |
CCPS, Guidelines For Improving Plant Reliability through Data Collection and Analysis, pp. 47-64, 1998.
|
12 |
U. S. Nuclear Regulatory Commission, Guidelines on Modeling Common Cause Failure in Probabilistic Risk Assessment, pp. 13-75, 1998.
|
13 |
IEC 61508-6, Guidelines on the Application of Parts 2 and 3, "Functional Safety of Electrical/Electronic/Programmable Electronic Safety-related Systems", pp. 24-39, 1997.
|
14 |
J. H. Park, The Improvement of SIL Calculation Methodology, International Conference on Probabilistic Safety Assessment and Management, pp. 11-15, 2016.
|
15 |
Guideline on Determining the Safety Integrity Level(SIL) in the Control System, p. 8, 2015.
|