References
- Kim, W. K., Kim, J. H. and Choi, J. W., "Explosion Risk of 2-Ethylhexanoic Acid," Fire Science and Engineering, 29(6), 20-25(2015). https://doi.org/10.7731/KIFSE.2015.29.6.020
- Choi, I. G., Cho, I. K., Mok, Y. S., Lee, D. H., Choi, J. W. and Ha, D. M., "The Measurement of Minimum Ignition Energy and Explosion Limit for Pine Tree Dust," J. Korean Institute of Gas, 2(2), 55-60(1998).
- Choi, J. W., Mok, Y. S. and Park, S. H., "A Study on the Explosion Characteristics of City Gas," J. Korean Society of Safety, 16(3), 109-114(2001).
- Lim, W. S., Mok, Y. S. and Choi, J. W., "A Study on the Effect of Humidity and Temperature of Hydroxy Propyl Methyl Cellulose Dust," J. Korean Society of Safety, 19(3), 65-69(2004).
- Oh, S. and Yeo, Y. K., "Optimal Operation of Moter/Turbine Processes in Utility Plant," Korean Chem. Eng. Res., 45(3), 234-241 (2007).
- Park, H. J., Choi, J. W. and Kim, S. D., "A Study on the Features of the Velocity Distribution and the Static Pressure Distribution of Oil on a Low-velocity Piston," Korean Chem. Eng. Res., 48(4), 450-456(2010).
- Ha, D. M., "Prediction of Explosion Limits of Ethers by Using Heats of Combustion and Stoichiometric Coefficients," J. Korean Institute of Gas, 15(4), 44-50(2011). https://doi.org/10.7842/kigas.2011.15.4.044
- Meyer, E., "Chemistry of Hazardous Materials," 2nd ed., Prentice-Hall, 33-73(1990).
- Lee, H. P., Son, K. H., Kim, D. W., Song, Y. H. and Kim, S. W., "Combustion Engineering," Hwasumok, 256-258 (2015).
- Ha, D. M. and Jeong, K. S., "Prediction of Minimum Oxygen Concentration(MOC) of Hydrocarbons and Halogenated Hydrocarbons," Fire Science and Engineering, 19(2), 1-7(2005).
- Park, S. M.,"Explosion Prevention and Inerting," Fire Science and Engineering, 2(3), 40-42(2001).
- Ha, D. M., Choi, Y. C. and Lee, S. J., "A Study on Minimum Oxygen Concentration (MOC) for Explosion Prevention," Fire Science and Engineering, 2003(4), 236-241(2003).
- Ha, D. M.,"Prediction of Explosion Limits of Aldehydes Using Chemical Stoichiometric Coefficients and Heats of Combustions," J. Korean Institute of Gas., 19(2), 5-11(2015). https://doi.org/10.7842/kigas.2015.19.2.5
- Ha, D. M., "Prediction of Explosion Limits of Organic Acids Using Chemical Stoichiometric Coefficients and Heats of Combustion," Fire Science and Engineering, 27(3), 47-51(2013). https://doi.org/10.7731/KIFSE.2013.27.3.047
- Boo, T. S.,"A Study on the Combustion Concentraion and Explosion Risk of P-Xylene," Dept. of Fire Protection Engineering, Graduate School of Industry, Pukyong National University, 6-10(2015).
- Kim, Y. M., "A Study on the Fire and Explosion by the Small Ignition of Organic Solvent," Dept. of Fire Protection Engineering, Graduate School, Pukyong National University, 3-5(2014).
- Jang, W. S., "A Study on the Explosion Risk of LP Gas," Dept. of Safety Engineering, Graduate School of Industry, Pukyong National University, 4-6(2006).
- MSDS, http://msds.kosha.or.kr/kcic/msdsdetailGet.do, KOSHA.
- Kim, J. H., "A Study on the Explosion Risk of 2-Ethylhexanoic Acid," Dept. of Fire Prot ection Engineering, Graduate School of Industry, Pukyong National University, 7-17(2013).
- Mizutani, T. and Matsui, H., "Decomposition Flame Propagation Properties of Ozone/Oxygen Mixtures," Research Reports of the National Institute of Industrial Safety, NIIS-RR-2000(2001).
- Kim, T. G., "A Study on the Explosion Risk and Fire Transmission Situation of Propylene Gas," Dept. of Safety Engineering, Graduate School, Pukyong National University, 33-36(2007).