References
- Ministry of Environment (2014), "Statistics of Sewerage". pp. 14-15.
- Kim. D. Y, Kim. H. J, Chung. T. H (2004) Behaviors of upflow anaerobic sludge disgestion based on HRT and evaluation of SRT as an operating parameter, J. Korean Society of Environmental Engineering, 26(10), pp. 1137-1144.
- Kim. H. S, Song. Y. C, Sung. N. C (2002) The effect of HRT variation on acidogenic fermentation with municipal primary sludge, Journal of The Organic Resource Recycling Association, 10(3), pp. 68-73.
- Owen. W. P, Stuckey. D. C, Healy. J. B, Young. L. Y, McCarty. P. L (1979) Bioassay for monitoring biochemical methane potential and anaerobic toxicity, Water Res, 13, pp. 485-492. https://doi.org/10.1016/0043-1354(79)90043-5
- Malina. J. F and Pohland. F. G (1992) Design of anaerobic processes for the treatment of industrial and municipal wastes, Technomic Publishing, pp. 173-182.
- Shelton. D. R, Tiedje. J. M (1984) General method for determining anaerobis biodegradation potential, Appl. Environ. Microbid, 47, pp. 850-857.
- Mills. P. J (1979) Minimization of energy input requirements of an anaerobic digester, Agric. Wastes, 1(1), pp. 57-59. https://doi.org/10.1016/0141-4607(79)90007-6
- Ben-Hasson. R. M, Ghaly. A. E, Singh. R. K (1985) Design and evaluation of no-mix energy efficient anaerobic digester, Proceedings, Annual Meeting, Canadian Soc of Agric Engineering, pp. 105-112.
- Dolfing. J (1992) The energetic consequences of hydrogen gradients in methanogenic ecosystems, FEMS Microbiol. Ecol, 101(3), pp. 183-187. https://doi.org/10.1016/0168-6496(92)90034-Q
- Ministry of Enviroment (2015), Official test methods of solid wastes, pp. 53-59.
- Ministry of Enviroment (2016), Official test methods of water quality, pp. 55-71.
- Korea Water and Wastewater Works Association (2005), Sewage disposal plants-Environmental aspects, Korea.