1 |
H.S. Han, J.O. Lee, C.H. Hwang, J. Kim, S. Lee, Assessment of the habitability for a cabinet fire in the main control room of nuclear power plant using sensitivity analysis, Fire Science and Engineering 31 (2) (2017) 52-60.
DOI
|
2 |
L. Sun, K. Podila, Q. Chen, A.M. Bayomy, Y.F. Rao, Computational fluid dynamics modeling of fire and human evacuation for nuclear applications, Journal of Nuclear Engineering and Radiation Science 6 (1) (2020).
|
3 |
U.S. NRC, Nuclear Power Plant Fire Modeling Analysis Guidelines", NUREG-1934, United States Nuclear Regulatory Commission, Washington, D.C., 2012.
|
4 |
Morgan J. Hurley, et al., SFPE Handbook of Fire Protection Engineering", Springer, 2015.
|
5 |
A.F. Abd El-Aal, A. Zaghloul, M.M. Kandil, Safest and shortest exit algorithm for NPP fire evacuation, Applied Engineering 5 (1) (2021).
|
6 |
I.H. Kim, M. Kim, A.R. Cho, Effect of HVAC operation during the fire in the control room, in: Proceedings of 2019 Spring Annual Conference, Korean Institute of Fire Science & Engineering, 2019, pp. 73-74.
|
7 |
U.S.NRC-RES and EPRI, Refining and characterizing heat release rates from electrical enclosures during fire (RACHELLE-FIRE), in: Peak Heat Release Rates and Effect of Obstructed Plume", NUREG-2178 Vol. 1 and EPRI 3002005578, vol. 1, U.S.NRC-RES and EPRI, 2015.
|
8 |
N. Iqbal, M.H. Salley, Fire dynamics tools (FDTs); quantitative fire hazard analysis methods for the U.S. Nuclear regulatory commission fire protection inspection program, NUREG-1805 (Final Report), U.S.NRC (2004).
|
9 |
NRC, US., Verification and validation of selected fire models for nuclear power plant applications-final report (No. NUREG-1824, supplement 1), 2016.
|
10 |
U.S. NRC, Verification and Validation of Selected Fire Models for Nuclear Power Plant Applications", NUREG 1824, United States Nuclear Regulatory Commission, Washington, D.C., 2007.
|
11 |
U.S. NRC, EPRI/NRC-RES Fire PRA Methodology for Nuclear Power Facilities Detailed Methodology (No. NUREG/CR-6850, EPRI 1011989 Final Report)", ume 2, U.S. Nuclear Regulatory Commission, Rockville, MD, USA, 2005.
|
12 |
U.S. NRC, Fire Protection for Nuclear Power Plants, Regulatory Guide 1.189, US Nuclear Regulatory Commission, Washington, DC, USA, 2009.
|
13 |
D.I. Kang, K. Kim, S.C. Jang, S.Y. Yoo, Fire simulations for the abandonment risk assessment of main control room fire in domestic nuclear power plant, Journal of The Korean Society of Safety 29 (4) (2014) 199-207.
DOI
|
14 |
Y.H. Jung, D.I. Kang, A Study on Fire Modeling of Main Control Benchboard Fire Scenarios for Evaluation of Main Control Room Habitability Conditions", Transactions of the Korean Nuclear Society Autumn Meeting, 2019, pp. 9-10.
|
15 |
D.I. Kang, Y.H. Jung, Risk Assessment of Main Control Room Fires for Domestic NPP Based on NUREG-2178", Transactions of the Korean Nuclear Society Virtual Spring Meeting, 2020.
|
16 |
R.D. Peacock, K.B. McGrattan, G.P. Forney, P.A. Reneke, CFAST-Consolidated Model of Fire Growth and Smoke Transport, vol. 1, Technical Reference Guide", 2015, Version 7.
|