참고문헌
- Neyens, E., and Baeyens, J., "A review of thermal sludge pre-treatment process to improve dewaterability," J. Hazard. Mater., B98, 51-67 (2003)
- Odegaard, H., "Sludge minimization technologies-an overview," Water Sci. Technol., 49(10), 31-40 (2004)
- Yasui, H., and Shibata, M., "An innovative approach to reduce excess sludge production in the activated sludge process," Water Sci. Technol., 30(9), 11-20 (1994)
- Sakai, Y., Fukase, T., Yasui, H., and Shibata, H., "An activated sludge process without excess sludge production," Water Sci. Technol., 36(11), 163-170 (1997) https://doi.org/10.1016/S0273-1223(97)00704-X
- Shanableh, A., "Production of useful organic mater from sludge using hydrothermal treatment," Water Res., 34(3), 945-951 (2000) https://doi.org/10.1016/S0043-1354(99)00222-5
- Saby, S., Djafer, M., and Chen, G.-H., "Feasibility of using a chlorination step to reduce excess sludge in activated sludge process," Water Res., 36(3), 656-666 (2002) https://doi.org/10.1016/S0043-1354(01)00259-7
- Insel, G., Karahan, Gul O., Orhon, D., Vanrolleghem, P. A., and Henze, M., "Important limitations in the modeling of activated sludge biased calibration of the hydrolysis process," Water Sci. Technol., 45(12), 23-36 (2002)
- Novak, J. T., and Park, C., "Chemical conditioning of sludge," Water Sci. Technol., 49(10), 73-80 (2004)
- Oh, S., "Improvement of anaerobic digestion rate of biosolids in waste activated sludge (WAS) by ultrasonic pretreatment," Environ. Eng. Res., 11(3), 143-148 (2006) https://doi.org/10.4491/eer.2006.11.3.143
- Savage, P. E., "Organic chemical reactions in supercritical water," Chem. Rev., 99, 603-621 (1999) https://doi.org/10.1021/cr9700989
- Aymonier, C. P., Beslin, P., Jolivalt, C., and Cansell, F., "Hydrothermal oxidation of nitrogen containing compounds: the fenuron," J. Supercrit. Fluid., 17, 45-54 (2000) https://doi.org/10.1016/S0896-8446(99)00040-6
- Staszak, C. N., Malinkowski, K. C., and Killilea, W. R., "The pilot-scale demonstration of MODAR oxidation process for the destruction of hazardous organic waste materials," Environ. Prog., 6, 39-43 (1987) https://doi.org/10.1002/ep.670060122
- Shin, K., Cho, H., Nam, Y., and Lee, D., "Hydrothermal decpmposition of formic acid in sub- and supercritical water," Environ. Eng. Res., 3(2), 61-66 (1998)
- Kang, K., Quitain, A. T., Daimon, H., Noda, R., Goto, N., Hu, H.-Y., and Fujie, K., "Optimization of amino acids production from waste fish entrails by hydrolysis in suband supercritical water," Can. J. Chem. Eng., 79, 65-70 (2001) https://doi.org/10.1002/cjce.5450790110
- Quitain, A. T., Sato, N., Daimon, H., and Fujie, K., "Production of valuable materials by hydrothermal treatment of shrimp shells," Ind. Eng. Chem. Res., 40, 5885-5888 (2001) https://doi.org/10.1021/ie010439f
- Kim, K., Fujita, M., Daimon, H., and Fujie, K., "Application of hydrothermal reaction to biodegradability improvement of refractory pollutants: structural conversion of di- and trichloroacetic acid to biodegradable products," Journal of Water and Environment Technology (on-line journal), 1(2), 217-224 (2003) https://doi.org/10.2965/jwet.2003.217
- Kim, K., Fujita, M., Daimon, H., and Fujie, K., "Biodegradability improvement and structural conversion of poly vinyl alcohol (PVA) by sub- and supercritical water reaction," J. Chem. Eng. Jpn., 37(6), 744-750 (2004) https://doi.org/10.1252/jcej.37.744
- Kim, K., Fujita, M., Daimon, H., and Fujie, K., "Application of hydrothermal reaction for excess sludge reuse as carbon sources in biological phosphorus removal," The 4th World Water Congress, IWA 2004 Marrakech, September 19-24, 2004, Marrakech, Morocco, Presentation Ref. 85748 in CD ROM (2004)
- American Public Health Association, American Water Works Association and Water Environment Federation, Standard Methods for the Examination of Water and Wastewater, 20th ed., United Book Press, Inc., Baltimore, Maryland, USA, pp. 2-57-59 (1998)
- Kappeler, J., and Gujer, W., "Estimation of kinetic parameters of heterotrophic biomass under Aerobic conditions and characterization of wastewater for activated sludge model," Water Sci. Technol., 25(6), 125-139 (1992)
- Henze, M., Gujer, W., Mino, T., Matsuo, T., Wentzel, M. C., and Marais, G. v. R., "Wastewater and biomass characterization for the activated sludge model No. 2: biological phosphorus removal," Water Sci. Technol., 31(2), 13-23 (1995.)
- Fujita, M., Kim, K., Daimon, H., and Fujie, K., "Evaluation of the usability of excess sludge treated by hydrothermal reaction as carbon sources for enhanced biological phosphorus removal," Environmental Engineering Research (Japanese), 40, 23-28 (2003)
- Francis, A. A., "Conversion of blast furnace slag into new glass-ceramic material," J. Eur. Ceram. Soc., 24, 2819-2824 (2004) https://doi.org/10.1016/j.jeurceramsoc.2003.08.019
- Kim, C., Lee, H., and Yoon, T., "Enhanced nitrification by immobilized clinoptilolite in an activated sludge," Environ. Eng. Res., 8(2), 49-58 (2003) https://doi.org/10.4491/eer.2003.8.2.049
- Jung, B., "Characteristics of high temperature viscosity in solid waste incineration ash," Environ. Eng. Res., 8(5), 236-242 (2003) https://doi.org/10.4491/eer.2003.8.5.236
- Jung, B., Koo, S., and Lee, H., " High temperature thermal characteristics of sewage sludge and its ash," Environ. Eng. Res., 5(2), 101-106 (2000)
- Jang, A., Jang, H., Kim, S., Lee, J., and Kim, I., "Decontamination of heavy metals from dewatered sludge by acidithiobacillus ferrooxidans," Environ. Eng. Res., 7(4), 199-206 (2002) https://doi.org/10.4491/eer.2002.7.4.199
- Taruya, T., Okuno, N., and Kanaya, K., "Reuse of sewage sludge as raw material of Portland cement in japan," Water Sci. Technol., 46(10), 255-258 (2002)
- Okuno, N., Ishikawa, Y., Shimizu, A., and Yoshida, M., "Utilization of sludge in building materials," Water Sci. Technol., 49(10), 225-232 (2004) https://doi.org/10.2166/wst.2004.0650
- Shimamura, K., Tanaka, T., Miura, Y., and Ishikawa, H., "Development of a high efficiency phosphorus recovery method using a fluidized-bed crystallized phosphorus removal system," Water Sci. Technol., 48(1), 163-170 (2003)
- Roeleveld, P., Loeffen, P., Temmink, H., and Klapwijk, B., "Dutch analysis for P-recovery from municipal wastewater," Water Sci. Technol., 49(10), 191-199 (2004)
- Balmer, P., "Phosphorus recovery-an overview of potentials and possibilities," Water Sci. Technol., 49(10), 185-190 (2004)
피인용 문헌
- Adsorption of arsenic on the reused sanding wastes calcined at different temperatures vol.345, pp.1, 2008, https://doi.org/10.1016/j.colsurfa.2009.04.026