참고문헌
- Lee, S. H., Baek, S. W., Moon, I., Park, J. S., and Oh, M., "Incineration Process of Double Base Propellant for Demilitarization," Clean Technol., 22(3), 191(2016).
- Lee, J. C., Park, B. S., and Go, B. N., "Analysis of the technical status of ammunition demilitization-disposal of waste and insoluble coal, how to do it," Defense & Technology, 2, 35-36 (2001).
- Kim, S. H. and Han, S. H., "Review of demilitarization & disposal technics for ammunitions," Kstee, 126 (2009).
- Korea police., "Guns, Swords, and Explosives Safety Management law" (2021).
- Lee, J. C., Park, B. S., and Go, B. N., "Analysis of the technical status of ammunition demilitization-disposal of waste and insoluble coal, how to do it," Defense & Technology, 2, 34 (2001).
- Park, J. E., Bae, B. H., "Distribution and Migration Characteristics of Explosive Compounds in Soil at Military Shooting Ranges in Gyeonggi Province," Journal of the Korean Geo-Environmental Society, 15(6), 17-18 (2014). https://doi.org/10.14481/jkges.2014.15.6.17
- Jang, G. H., Baek, B. H., and Seo, N. S., "Eco-friendly waste ammunition demilitization development plan by applying high-temperature plasma technology," Defense & Technology, 400, 114(2012).
- Lee, S. H., Baek, S. W., Moon, I., Park, J. S., Kim, H. S., and Oh, M., "Incineration for Demilitarization of Waste Cyclotol," Journal of the KIMST, 19(4), 546 (2016).
- https://frtr.gov/matrix/MEC-Contained-Detonation-Chamber (accessed May 2022).
- Wilkinson, J., "Review of demilitarization and disposal techniques for munitions and related materials," MASIC, L-118, 48 (2006).
- Kim, H. J. and Park, T. J., "Eco-friendly waste ammunition sealed detonation treatment device equipped with pollution prevention device and method therefor," Korea Patent No. 10-1420167, (2014).
- Kim, S. C., Kwon, M. H., Song, G. J., and Jeong, S. G., "A Study on the Characteristics Variation of Bottom Ashes from MSWIs Using the Different Process for the Removal of NOx by Natural Aging Treatment," Journal of KSWM, 23(3), 181-189 (2006).
- Kiyoshi Asahina, Ryusuke Kitamura, and Masato Katayama, Tsuyoshi Imakita, Masaya Ueda, "Study on controlled detonation chamber system of chemical weapons : A study on destruction efficiency of chemical warfare materials by controlled detonations," Sci. Tech. Energetic Materials, 68(2), 41-47 (2007).
- Lee, S. H., Baek, S. W., Moon, I., Park, J. S., and Oh, M., "Incineration Process of Double Base Propellant for Demilitarization," Clean Technol., 22(3), 191 (2016).
- Kim, H. S., "Basic Technologies for the Development of High Explosives," Korea Chem. Eng. Res., 44(5), 441-442 (2006).
- Wilkinson, J., "Review of demilitarization and disposal techniques for munitions and related materials," MASIC, L-118, 55-56 (2006).
- Park, J. S., "A Study on the Detonation Behavior of Insensitive Explosive by Experiments and Computational Simulations," Ph.D. Dissertation, KAIST (2011).
- EL DORADO ENGINEERING, INC., "EXPLOSIVE WASTE INCINERATOR"
- Kim, T. H., An, I. H., and Kim, J. M., "Development of Eco-friendly Combustion Process for Waste 2,4,6-trinitrotoluene," Clean Technol., 27(3), 249-250(2021).
- https//ko.wikipedia.org/wiki (accessed May 2022).
- Han, S. H., "Large scale treatment of PFCs gases using a thermal plasma scrubber," Ph.D. Dissertation, University of Inha, Incheon (2010).
- Jang, G. H., Baek, B. H., and Seo, N. S., "Development plan of Demilitarization for Waste Ammunition by High-temperature Plasma Technology," Defense & Technology, 400, 116-118 (2012).
- Park, H. W., Cha, W. B., and Uhm, S. H., "Highly Efficient Thermal Plasma Scrubber Technology for the Treatment of Perfluorocompounds (PFCs)," Appl. Chem. Eng., 29(1), 10-17 (2018).
- Wilkinson, J., "Review of demilitarization and disposal techniques for munitions and related materials," MASIC, L-118, 58 (2006).
- Park, S. H., "About Fluidized Bed Incinerators," Korean Society Mechanical Engineers, 35(7), 622 (1995).
- Cho, S. H., Park, C. H., Lee, J. H., Lyu, B, G., and Moon, I., "Finding the best operating condition in a novel process for explosive waste incineration using fluidized bed reactors," Computer and Chemical Engineering, 142, 1-5 (2020). https://doi.org/10.1016/j.compchemeng.2020.107054
- https://dlstudy.tistory.com/10(accessed July 2022).
- Camila L, Madeira., Warren M, Kadoya., Guangbin, Li., and Stanley, W., "Reductive biotransformation as a pretreatment to enhance in situ chemical oxidation of nitroaromatic and nitroheterocyclic explosives," Chemosphere, 222, 1025-1032 (2019). https://doi.org/10.1016/j.chemosphere.2019.01.178
- John F. Cooper., and G. Bryan Balazs., "Final Report: Fiscal Year 1997 Demonstration of Omnivorous Non-Thermal Mixed Waste Treatment: Direct Chemical Oxidation of Organic Solids and Liquids using Peroxydisulfate," Lawrence Livermore National Laboratory, DCO Final Report FY97, 1 (1997).
- Park, J. H., Shin, W. M., and Lee, J. W., "Review on the TNT Dosposal," Journal of the KIMST, 19(1), 130 (2016).
- John F. Cooper., and G. Bryan Balazs., "Final Report: Fiscal Year 1997 Demonstration of Omnivorous Non-Thermal Mixed Waste Treatment: Direct Chemical Oxidation of Organic Solids and Liquids using Peroxydisulfate," Lawrence Livermore National Laboratory, DCO Final Report FY97, 39-41 (1997).
- Korneliusz, Miksch., and Katarzyna, Panz., "Phytoremediation of explosives (TNT, RDX, HMX) by wild-type and transgenic plants," J. Environ. Manage., 113, 85-92 (2012). https://doi.org/10.1016/j.jenvman.2012.08.016
- Kim, S. Y., Back, K. H., Lee, I. S., Bae, B. H., and Jang, Y. Y., "A Column Study on Phytoremediation of 2,4,6-Trinitrotoluene (TNT) Contaminated Roil," J. Korean Soc. Environ. Eng., 24(11), 2039-2046 (2002).
- Ensley, B. D., and Raskin, I., "Phytoremediation of Toxic Metals: using Plants to Clean up the Environment," Wiley & Sons, New York, 304 (2000).
- Park, J. H., Shin, W. M., and Lee, J. W., "Review on the TNT Dosposal," Journal of the KIMST, 19(1), 132 (2016).
- Ahmed Ibrahim Jessim., "Biodegradation of explosive material 2,4,6-Trinitrotoluene (TNT)," J. Bacteriol. Mycol., 6(2), 116-120 (2018). https://doi.org/10.15406/jbmoa.2018.06.00187
- Park, C. W., Kim, T. H., and Kim, S. Y., "Bioremediation of 2,4,6-Trinitrotoluene Contaminated Soil in Slurry and Column Reactors," J. Biosci. Bioeng., 96(5), 429-433 (2003). https://doi.org/10.1016/S1389-1723(03)70127-3
- U.S. Environmental Protection Agency., "Recommended methods of reduction, neutralization, recovery or disposal of hazardous waste," EPA-670/2-73-053-g, 129 (1973).
- U.S ARMY MATERIEL COMMAND., "Explosives series properties of explosives of military interest," AMCP 706-177, 196 (1971).
- Gabriel W. and Desmare Dillard M., "DMSO/BASE HYDROLYSIS METHOD FOR THE DISPOSAL OF HIGH EXPLOSIVES AND RELATED ENERGETIC MATERIALS," United States Patent No. US 6,388,164 B1, (2002)
- Robert L BISHOP., CARY SKIDMORE., "BASE HYDROLYSIS KINETICS OF HMX BASED EXPLOSIVES USING SODIUM CARBONATE," Los Alamos NATIONAL LABORATORY, (1996).
- R. Flesner., P. DellOrco., and J.Kramer., "Pilot-Scale Base Hydrolysis Processimg of HMX-Based Plastic-Bonded Explosives," Int. J. Energetic Mater. Chem. Propul., 4, 213-220 (1996). https://doi.org/10.1615/IntJEnergeticMaterialsChemProp..v4.i1-6.250
- U.S. Environmental Protection Agency., "Recommended methods of reduction, neutralization, recovery or disposal of hazardous waste," EPA-670/2-73-053-g, 131 (1973)
- Polson J., "Electrolysis of Lead Azide," Department of Army(USA) (1979).